The document is a report on anti-lock braking systems that describes what ABS is, how it works, its main components, and advantages. It explains that ABS uses sensors and controllers to rapidly apply and release brakes when wheels start to lock up in order to prevent skidding and allow the driver to steer during emergency braking. The report concludes that ABS significantly improves vehicle safety and control during hard braking events.
Este documento fornece informações sobre produtos e soluções da Tigre para instalações de água fria, incluindo tubos, conexões, registros e válvulas fabricados de PVC. São listados itens como tubos soldáveis em diferentes diâmetros e comprimentos, adaptadores, curvas, reduções e acessórios, com suas respectivas especificações técnicas. Também são apresentadas instruções gerais para instalação da linha soldável e roscável.
Pamphlet on air suspension system fitted on hybrid coachesSrinivasaRao Guduru
The document provides information on air suspension systems used on Indian Railways hybrid coaches. It describes the main components of the air suspension system, including air springs, levelling valves, reservoirs, and isolating cocks. It also outlines inspection and maintenance procedures, such as checking air springs for leaks and draining reservoirs. Operating instructions are given for train drivers, such as maintaining air pressure and isolating leaky bogies or coaches by closing isolating cocks and limiting train speed.
This Webinar presentation includes pipe clamps, hold-down clamps, riser clamps and structural supports. Learn how the appropriate type of pipe support is chosen based on the different design conditions. Find out how Finite Element Analysis is used in the design process and view the custom pipe supports designed for extreme applications.
This document discusses plastic piping, including its history, common types, materials, and uses. Plastic piping was first introduced in the 1930s and has since grown to be widely used for water distribution and drainage. Common plastic piping materials include PVC, PE, and CPVC. Plastic piping is lightweight, flexible, corrosion resistant, and inexpensive compared to other materials. It is often joined using glue or solvent welding.
O documento fornece uma tabela para seleção de bombas e motobombas, com as seguintes informações essenciais:
1) Modelos disponíveis de bombas e motobombas com suas aplicações, características e curvas hidráulicas.
2) Procedimentos básicos para correta instalação e exemplo de como utilizar a tabela para selecionar um equipamento.
3) Observações importantes sobre segurança, especificações, dimensões e demais dados técnicos.
Mechanical seals are key components in centrifugal pumps that prevent fluid from leaking out of the pump casing. They consist of two faces, one stationary and one rotating, located between the impeller and rear casing. Pumps in harsh environments require more abrasion-resistant seals than regular pumps. Mechanical seals reduce leakage compared to gland packings, saving power. Proper flushing plans are needed to lubricate, cool, and clean the seal while removing particles to minimize abrasion and extend seal life. Common operational and maintenance errors that reduce seal life include dry running, suction choking, foreign materials, improper flushing plans, misalignment, stuffing box issues, and failed bearings.
This document contains an index of product codes for various automotive parts organized into categories such as electrical line, injection line, ignition line, and regulators. It also includes a reference table that lists terminal designations and abbreviations.
The document is a report on anti-lock braking systems that describes what ABS is, how it works, its main components, and advantages. It explains that ABS uses sensors and controllers to rapidly apply and release brakes when wheels start to lock up in order to prevent skidding and allow the driver to steer during emergency braking. The report concludes that ABS significantly improves vehicle safety and control during hard braking events.
Este documento fornece informações sobre produtos e soluções da Tigre para instalações de água fria, incluindo tubos, conexões, registros e válvulas fabricados de PVC. São listados itens como tubos soldáveis em diferentes diâmetros e comprimentos, adaptadores, curvas, reduções e acessórios, com suas respectivas especificações técnicas. Também são apresentadas instruções gerais para instalação da linha soldável e roscável.
Pamphlet on air suspension system fitted on hybrid coachesSrinivasaRao Guduru
The document provides information on air suspension systems used on Indian Railways hybrid coaches. It describes the main components of the air suspension system, including air springs, levelling valves, reservoirs, and isolating cocks. It also outlines inspection and maintenance procedures, such as checking air springs for leaks and draining reservoirs. Operating instructions are given for train drivers, such as maintaining air pressure and isolating leaky bogies or coaches by closing isolating cocks and limiting train speed.
This Webinar presentation includes pipe clamps, hold-down clamps, riser clamps and structural supports. Learn how the appropriate type of pipe support is chosen based on the different design conditions. Find out how Finite Element Analysis is used in the design process and view the custom pipe supports designed for extreme applications.
This document discusses plastic piping, including its history, common types, materials, and uses. Plastic piping was first introduced in the 1930s and has since grown to be widely used for water distribution and drainage. Common plastic piping materials include PVC, PE, and CPVC. Plastic piping is lightweight, flexible, corrosion resistant, and inexpensive compared to other materials. It is often joined using glue or solvent welding.
O documento fornece uma tabela para seleção de bombas e motobombas, com as seguintes informações essenciais:
1) Modelos disponíveis de bombas e motobombas com suas aplicações, características e curvas hidráulicas.
2) Procedimentos básicos para correta instalação e exemplo de como utilizar a tabela para selecionar um equipamento.
3) Observações importantes sobre segurança, especificações, dimensões e demais dados técnicos.
Mechanical seals are key components in centrifugal pumps that prevent fluid from leaking out of the pump casing. They consist of two faces, one stationary and one rotating, located between the impeller and rear casing. Pumps in harsh environments require more abrasion-resistant seals than regular pumps. Mechanical seals reduce leakage compared to gland packings, saving power. Proper flushing plans are needed to lubricate, cool, and clean the seal while removing particles to minimize abrasion and extend seal life. Common operational and maintenance errors that reduce seal life include dry running, suction choking, foreign materials, improper flushing plans, misalignment, stuffing box issues, and failed bearings.
This document contains an index of product codes for various automotive parts organized into categories such as electrical line, injection line, ignition line, and regulators. It also includes a reference table that lists terminal designations and abbreviations.
The document discusses CERACLAD, a ceramic-coated rainscreen siding system that provides moisture protection and ventilation for buildings. Some key points:
- CERACLAD allows moisture to escape walls and prevents mold, health issues, and dry rot. It improves building sustainability and energy efficiency.
- Panels are available in factory finishes or custom colors, and come with long warranties. They are durable, low maintenance, and made of approximately 45% recycled materials.
- Installation is quick with concealed fasteners. The system creates a seamless appearance while reducing construction costs and time.
- By incorporating ventilation, CERACLAD provides a healthy indoor environment and protects the structural integrity of walls.
Este documento proporciona especificaciones técnicas de un vehículo de carga de 16 metros cúbicos, incluyendo detalles sobre su motor, transmisión, sistema eléctrico, suspensión, frenos, neumáticos, tracción, combustible, velocidad y dimensiones.
The Indian Standard for Compressed Asbestos Fiber Jointing Sheet
The 1998 version is extremely obsolete and very few are actually aware that METALLIC reinforcement cannot be certified as IS 2712 Standard.
Knock out drums are vessels designed to remove and accumulate condensed and entrained liquids from relief gases. They can be either horizontal or vertical design, with the appropriate design determined by operating parameters and plant conditions. Horizontal drums are more economical for high vapor flow and large liquid storage needs, and have the lowest pressure drop. Vertical drums are used for low liquid loads or when space is limited, and are well-suited for incorporation into flare stacks. Knock out drums are available in different configurations that mainly differ in how the path of the vapor is directed, such as horizontally with vapor entering one end and exiting the other, or vertically with radial vapor inlet and top outlet.
John Deere 326d, 328d, 329d ,332d ,333d Service ManualFranklin Martinez
This document provides repair information for 326D, 328D, 329D, 332D and 333D Skid Steer Loaders with manual controls. It lists related operation and test technical manuals for each model, as well as operator's manuals, engine and component technical manuals, and a specifications manual. The document introduces safety information and torque specifications relevant to repair work.
This document summarizes different types of pressure regulators from Swagelok. It describes the key components of pressure reducing regulators, including diaphragms, pistons, springs, and filters. It also lists several Swagelok pressure regulator series for different applications, such as high pressure, low flow, steam, and back pressure control. Specialty regulators are mentioned, including an automatic gas cylinder changeover manifold.
The document provides an overview of Dunham-Bush, a global HVAC manufacturer with a 121-year history. It details the company's origins and acquisitions over time. It then outlines Dunham-Bush's current global operations, manufacturing facilities, product ranges covering chillers, air handling units, and other specialized equipment. The document concludes with examples of projects utilizing Dunham-Bush equipment across various market sectors.
Tito Camps is a senior project engineer with over 20 years of experience in manufacturing engineering, process improvement, and project management. He has worked for several companies implementing lean principles, automating processes, developing quality protocols, and managing capital projects. Currently he is a senior advance manufacturing engineer at Honeywell Aerospace implementing lean practices and automating processes.
1. Este documento estabelece as especificações para barras e fios de aço destinados a armaduras para concreto armado, definindo suas classificações, propriedades mecânicas, inspeção e ensaios requeridos.
2. É especificado que as barras devem ter diâmetro nominal igual ou superior a 5,0mm e ser obtidas por laminação a quente, enquanto os fios devem ter diâmetro igual ou inferior a 10,0mm e ser obtidos por trefilação.
3. São definidos requisitos como resistência
Gasoline direct injection (GDI) provides advantages over traditional carbureted and multi-point fuel injected engines by directly injecting fuel into the combustion chamber. GDI engines can operate in both an ultra-lean combustion mode for lower fuel consumption and a superior output mode for increased power. Key features of GDI engines include higher compression ratios and optimized combustion chamber configurations for improved fuel efficiency and emissions performance compared to conventional multi-point port fuel injected engines. While initial costs are higher, GDI technology is expected to be widely adopted in the future as it allows for both reduced fuel consumption and controlled emissions from spark-ignition engines.
The document discusses anti-lock braking systems (ABS). It begins with an introduction that defines ABS and describes how it works by preventing wheels from locking up during braking. It then discusses the history of ABS development from early aircraft systems to modern automobile systems. It provides details on how ABS works by using electronic control units and wheel speed sensors to modulate brake pressure. It outlines the key components of ABS including sensors, valves, pumps, and controllers. It also discusses the different types of ABS systems, their effectiveness in reducing crashes, and the braking feel with ABS activated.
This document provides an overview of disc brake systems, including their parts and operation. It discusses the advantages of disc brakes over drum brakes, describing how disc brakes resist different types of fade. It outlines the major components of a disc brake system, such as the caliper, rotor, and pads. It explains the construction and different materials used in brake pads. It also describes the different types of brake calipers, including fixed, floating, and sliding designs.
This document summarizes the cooling system of a C15 generator set engine. It has a pressure-type cooling system with a shunt line to prevent cavitation and allow the system to operate safely above the boiling point of water. A 30% ethylene glycol mixture is used as coolant. The system uses a water temperature regulator and radiator to maintain the proper operating temperature, circulating most of the coolant through an oil cooler first before returning it to the water pump.
O documento apresenta um catálogo técnico de peças para o veículo Ideale 770, listando vários conjuntos de peças por código e descrição, como conjunto do posto do motorista, porta-estepe traseiro, estrutura dianteira, grade dianteira e capô.
This document provides information about heat exchangers, including:
- Heat exchangers transfer energy between fluids at different temperatures through conduction, convection and radiation.
- They have advantages like being economical, having high efficiency and being easy to modify.
- Heat exchangers can be classified by their flow configuration, transfer process, construction and heat transfer mechanism.
- Common types include shell and tube, plate, double pipe, and condensers, evaporators and boilers.
- Maintenance includes hydrotesting to detect leaks and plugging leaking tubes temporarily or permanently.
Hyster b274 (h50 ct) forklift service repair manualhhjsekmdmm
This document provides specifications and repair information for lift truck models S50CT and H50CT, including:
- Lifting capacities, counterweight weights, tire sizes, fuel capacities, fluid capacities, and electrical specifications.
- Procedures for removing and disassembling the drive axle, including draining fluid, removing wheels and brakes, and separating the drive axle from the transmission.
- Instructions for cleaning, inspecting, and replacing worn parts of the disassembled drive axle.
- Steps for reassembling and reinstalling the drive axle, including applying sealant, tightening fasteners, and positioning the drive axle in the lift truck frame.
Este documento es un dibujo libre realizado a partir de una plantilla isométrica vertical que incluye el nombre, apellido y título de la lámina junto con la fecha.
Daewoo doosan solar 420 lc v crawler excavator parts catalogue manualfjjskekdm
This document provides a parts list for a muffler assembly, including part numbers, descriptions, and quantities. It lists the main muffler assembly part number and individual components such as the muffler, mounting bracket, and replacement part numbers. Serial number ranges are provided to indicate applicability of specific part versions.
Balanced mechanical seals help maintain seal face closure under high pressure by locating the seal faces such that stuffing box pressure has less effect on closure. Mechanical seal failures typically occur when the seal's motion is restricted, heat causes O-rings to deteriorate, incompatible materials are used, or incorrect installation. Balanced seals and proper material selection can help minimize failures from heat and materials issues, while correct installation prevents problems from restricted motion.
This document provides an overview of the various types of filter housings, elements, and accessories available from Classic Filters, including stainless steel, aluminum, plastic, and disposable in-line housings for particulate filtration, coalescing, and liquid/liquid separation across a wide range of industries, pressures, and port sizes. It also describes specialty items like custom housings, membranes, and bonded microfiber elements.
The document discusses CERACLAD, a ceramic-coated rainscreen siding system that provides moisture protection and ventilation for buildings. Some key points:
- CERACLAD allows moisture to escape walls and prevents mold, health issues, and dry rot. It improves building sustainability and energy efficiency.
- Panels are available in factory finishes or custom colors, and come with long warranties. They are durable, low maintenance, and made of approximately 45% recycled materials.
- Installation is quick with concealed fasteners. The system creates a seamless appearance while reducing construction costs and time.
- By incorporating ventilation, CERACLAD provides a healthy indoor environment and protects the structural integrity of walls.
Este documento proporciona especificaciones técnicas de un vehículo de carga de 16 metros cúbicos, incluyendo detalles sobre su motor, transmisión, sistema eléctrico, suspensión, frenos, neumáticos, tracción, combustible, velocidad y dimensiones.
The Indian Standard for Compressed Asbestos Fiber Jointing Sheet
The 1998 version is extremely obsolete and very few are actually aware that METALLIC reinforcement cannot be certified as IS 2712 Standard.
Knock out drums are vessels designed to remove and accumulate condensed and entrained liquids from relief gases. They can be either horizontal or vertical design, with the appropriate design determined by operating parameters and plant conditions. Horizontal drums are more economical for high vapor flow and large liquid storage needs, and have the lowest pressure drop. Vertical drums are used for low liquid loads or when space is limited, and are well-suited for incorporation into flare stacks. Knock out drums are available in different configurations that mainly differ in how the path of the vapor is directed, such as horizontally with vapor entering one end and exiting the other, or vertically with radial vapor inlet and top outlet.
John Deere 326d, 328d, 329d ,332d ,333d Service ManualFranklin Martinez
This document provides repair information for 326D, 328D, 329D, 332D and 333D Skid Steer Loaders with manual controls. It lists related operation and test technical manuals for each model, as well as operator's manuals, engine and component technical manuals, and a specifications manual. The document introduces safety information and torque specifications relevant to repair work.
This document summarizes different types of pressure regulators from Swagelok. It describes the key components of pressure reducing regulators, including diaphragms, pistons, springs, and filters. It also lists several Swagelok pressure regulator series for different applications, such as high pressure, low flow, steam, and back pressure control. Specialty regulators are mentioned, including an automatic gas cylinder changeover manifold.
The document provides an overview of Dunham-Bush, a global HVAC manufacturer with a 121-year history. It details the company's origins and acquisitions over time. It then outlines Dunham-Bush's current global operations, manufacturing facilities, product ranges covering chillers, air handling units, and other specialized equipment. The document concludes with examples of projects utilizing Dunham-Bush equipment across various market sectors.
Tito Camps is a senior project engineer with over 20 years of experience in manufacturing engineering, process improvement, and project management. He has worked for several companies implementing lean principles, automating processes, developing quality protocols, and managing capital projects. Currently he is a senior advance manufacturing engineer at Honeywell Aerospace implementing lean practices and automating processes.
1. Este documento estabelece as especificações para barras e fios de aço destinados a armaduras para concreto armado, definindo suas classificações, propriedades mecânicas, inspeção e ensaios requeridos.
2. É especificado que as barras devem ter diâmetro nominal igual ou superior a 5,0mm e ser obtidas por laminação a quente, enquanto os fios devem ter diâmetro igual ou inferior a 10,0mm e ser obtidos por trefilação.
3. São definidos requisitos como resistência
Gasoline direct injection (GDI) provides advantages over traditional carbureted and multi-point fuel injected engines by directly injecting fuel into the combustion chamber. GDI engines can operate in both an ultra-lean combustion mode for lower fuel consumption and a superior output mode for increased power. Key features of GDI engines include higher compression ratios and optimized combustion chamber configurations for improved fuel efficiency and emissions performance compared to conventional multi-point port fuel injected engines. While initial costs are higher, GDI technology is expected to be widely adopted in the future as it allows for both reduced fuel consumption and controlled emissions from spark-ignition engines.
The document discusses anti-lock braking systems (ABS). It begins with an introduction that defines ABS and describes how it works by preventing wheels from locking up during braking. It then discusses the history of ABS development from early aircraft systems to modern automobile systems. It provides details on how ABS works by using electronic control units and wheel speed sensors to modulate brake pressure. It outlines the key components of ABS including sensors, valves, pumps, and controllers. It also discusses the different types of ABS systems, their effectiveness in reducing crashes, and the braking feel with ABS activated.
This document provides an overview of disc brake systems, including their parts and operation. It discusses the advantages of disc brakes over drum brakes, describing how disc brakes resist different types of fade. It outlines the major components of a disc brake system, such as the caliper, rotor, and pads. It explains the construction and different materials used in brake pads. It also describes the different types of brake calipers, including fixed, floating, and sliding designs.
This document summarizes the cooling system of a C15 generator set engine. It has a pressure-type cooling system with a shunt line to prevent cavitation and allow the system to operate safely above the boiling point of water. A 30% ethylene glycol mixture is used as coolant. The system uses a water temperature regulator and radiator to maintain the proper operating temperature, circulating most of the coolant through an oil cooler first before returning it to the water pump.
O documento apresenta um catálogo técnico de peças para o veículo Ideale 770, listando vários conjuntos de peças por código e descrição, como conjunto do posto do motorista, porta-estepe traseiro, estrutura dianteira, grade dianteira e capô.
This document provides information about heat exchangers, including:
- Heat exchangers transfer energy between fluids at different temperatures through conduction, convection and radiation.
- They have advantages like being economical, having high efficiency and being easy to modify.
- Heat exchangers can be classified by their flow configuration, transfer process, construction and heat transfer mechanism.
- Common types include shell and tube, plate, double pipe, and condensers, evaporators and boilers.
- Maintenance includes hydrotesting to detect leaks and plugging leaking tubes temporarily or permanently.
Hyster b274 (h50 ct) forklift service repair manualhhjsekmdmm
This document provides specifications and repair information for lift truck models S50CT and H50CT, including:
- Lifting capacities, counterweight weights, tire sizes, fuel capacities, fluid capacities, and electrical specifications.
- Procedures for removing and disassembling the drive axle, including draining fluid, removing wheels and brakes, and separating the drive axle from the transmission.
- Instructions for cleaning, inspecting, and replacing worn parts of the disassembled drive axle.
- Steps for reassembling and reinstalling the drive axle, including applying sealant, tightening fasteners, and positioning the drive axle in the lift truck frame.
Este documento es un dibujo libre realizado a partir de una plantilla isométrica vertical que incluye el nombre, apellido y título de la lámina junto con la fecha.
Daewoo doosan solar 420 lc v crawler excavator parts catalogue manualfjjskekdm
This document provides a parts list for a muffler assembly, including part numbers, descriptions, and quantities. It lists the main muffler assembly part number and individual components such as the muffler, mounting bracket, and replacement part numbers. Serial number ranges are provided to indicate applicability of specific part versions.
Balanced mechanical seals help maintain seal face closure under high pressure by locating the seal faces such that stuffing box pressure has less effect on closure. Mechanical seal failures typically occur when the seal's motion is restricted, heat causes O-rings to deteriorate, incompatible materials are used, or incorrect installation. Balanced seals and proper material selection can help minimize failures from heat and materials issues, while correct installation prevents problems from restricted motion.
This document provides an overview of the various types of filter housings, elements, and accessories available from Classic Filters, including stainless steel, aluminum, plastic, and disposable in-line housings for particulate filtration, coalescing, and liquid/liquid separation across a wide range of industries, pressures, and port sizes. It also describes specialty items like custom housings, membranes, and bonded microfiber elements.
The document provides information on products manufactured by Keddco including swage nipples, bull plugs, and other oil country tubular goods. It lists available sizes and materials for each product, as well as specifications for threading, coatings, weld bevels, and markings. Standard, extra heavy, schedule 160, and double extra heavy weights are shown for swage nipples from 1/8" to 300" in size.
NEUMO UK Ltd. is a specialist distributor of stainless steel tubular and flow technology products for the food, beverage, and dairy industries. They stock a wide range of stainless steel hygienic tubes, fittings, valves, and other components according to European standards from their manufacturing partners. This brochure provides an overview of NEUMO UK Ltd.'s hygienic product range including specifications and dimensions of various items.
Terofox provides one stop service in diversity of valves’ procurement and ODM & OEM manufacturing, all our products and quality management procedures are in accordance with ISO 9001. Our wide range of products includes:
API608 Floating Stainless Steel Ball valve
API6D Trunnion Ball valves.
API 594 Dual plate check valves.
Concentric Butterfly Valves (Pins and Pinless / PTFE lining )
But our main focus is our “Special Product Line” in Taiwan that includes:
Sanitary Valves.
Cryogenic Valves: Used in the transmission of extreme low temperature services.
Special Alloy Valves: Some of the Materials we offer are Alloy 20, Monel, Hastelloy, Duplex/ Super Duplex Stainles Steel, Titanium and more.
Dead-man Return Ball Valves: Spring Return Handle that decreases the Torque for easier use.
Fugitive Emission ISO15848-1 certified : Safty is a trend nowadays, our low emission valve meets ISO15848-1 for eliminating fugitive emission
API607 6th Edition / ISO10497:2010 Fire Safe Approval ball valves - Flange Ball valves ( TF-20FS, TF-20DFS ), Trunnion Mounted Ball Valve ( TF-40FS, TF-44FS ) and high performance Ball Valve (EB-321DFS), Wafer Type Ball Valve ( TF-10MFS)
BS6363 Cryogenic Ball Valves
Marine Certified valves
Metal Seated Ball Valves : up to 600 Degree Celsius
3000psi/6000psi/10,000psi Ball Valves
In order to satisfy variety of requirements, we have applied for certificates such as ISO 9001, CE ( PED 97/23/EC ), API607 6th Edition Fire Safe Approved for floating and trunnion mounted ball valve, ABS PDA certificate, TA-Luft, ISO15848 for Fugitive Emmission applications, AD-2000, as well as foundry approvals: DNV, BV, LR certifications.
Our mission is to assist our customers in obtaining the best possible solutions to their requirements and needs, at the most advantageous prices, without compromising on delivery or quality. With this in mind, we believe in developing long terms relationships, based on mutual trust and honesty.
Titan Flow Control is a manufacturer of valves, strainers, and other pipeline products located in Lumberton, North Carolina. They produce check valves, butterfly valves, pipeline strainers, pump protection products, fabricated designs, and other accessories for industrial and commercial applications. Founded in 2000 by industry veterans, Titan Flow Control occupies over 70,000 square feet of manufacturing space. Their product lines include Y-strainers, basket strainers, duplex strainers, fabricated products, specialty products, pump protection, check valves, butterfly valves, and ball valves.
This document provides information on IsoTubi-USA press fittings and valves. It summarizes their innovative press fitting system that saves time and money, and highlights key product features including their leak-before-press technology and certifications that comply with various industry standards. The document also includes diagrams, specifications, and contact information for IsoTubi-USA press fitting products.
We are a products, solutions and services wholesale supplier in water treatment. We provide only businesses companies such as distributors, retailers, manufacturers and assemblers.A catalog including carefully selected products, from the most prestigious brands in the Water Treatment market, operative website, personalized services, precise and efficient logistics, flexible organization, but also the basic importance that is attributed to human factors and relationships with partners, make of Sinergroup Srl a reference for many companies of the market. A continuous and consistent effort, the ability to anticipate the evolution of the market demand and orientation to the understanding and satisfaction of our customers has always characterizes us in our work. Born with the objective view in the exclusive distribution: Continue to be "Leader of the Brand Leader ", with activities and services of value. A choice of specialization that in recent years has allowed us to develop a unique knowledge and experience in the market. The thorough water treatment market understanding and high commercial performance, make us able to offer to our customers many products and services more personalized and appropriate to the individual end user. Our mission is to become your best business Partner!
M METAL TUBES INDIA Pvt Ltd is manufactures high quality Stainless Steel Tube Fittings, Instrumentation fittings and Instrumentation Valves, Valve manifolds suitable for Instrumentation, Hydraulic and Pneumatic applications in different sizes and metals such as stainless steel, Duplex Steel, Titanium, Inconel, Monel, Hastelloy and other materials according to customer's request for Industries like Gas Refineries, Fertilizer fields, Automobile, Chemical, Petrochemical Fields, Oil & Gas, Nuclear, Power generation plants, Pharmaceutical Industry, Marine Industry, Packing & Printing Industries etc
M METAL TUBES INDIA Pvt Ltd is manufactures high quality Stainless Steel Tube Fittings, Instrumentation fittings and Instrumentation Valves, Valve manifolds suitable for Instrumentation, Hydraulic and Pneumatic applications in different sizes and metals such as stainless steel, Duplex Steel, Titanium, Inconel, Monel, Hastelloy and other materials according to customer's request for Industries like Gas Refineries, Fertilizer fields, Automobile, Chemical, Petrochemical Fields, Oil & Gas, Nuclear, Power generation plants, Pharmaceutical Industry, Marine Industry, Packing & Printing Industries etc
This document provides information on lead screws and supernuts from Ball Screws and Actuators. It discusses the features and advantages of lead screws such as being low cost, customizable, available in a variety of sizes, and resistant to corrosion. It provides charts with information on material properties, temperature limits, critical speeds, and column loading capacities. It also notes that standard grade lead screws have a lead accuracy of 0.010 in/ft while precision grade are 0.003 in/ft and lists length limitations for different sized lead screws.
This document provides information on lead screws and supernuts from Ball Screws and Actuators. It discusses the features, advantages, design considerations and material properties of lead screws. Key points include that lead screws offer cost savings compared to ball screws, come in a variety of leads and diameters, and use stainless steel and internally lubricated acetal plastic for non-corrosive operation. Standard and precision grades are available with lead accuracies of 0.010 in/ft and 0.003 in/ft respectively. Load and temperature limits vary based on the specific assembly. Custom options are available to meet unique specifications.
This document provides an overview of ball valves manufactured by KTM, including their product lines, features, advantages, and specifications. KTM offers a complete line of ball valves for oil, gas, power, chemical and other industries. Their valves feature proprietary seat designs and a wide range of performance characteristics. KTM prides itself on high quality manufacturing and service.
This document provides information on precision lead screws and supernuts from Ball Screws and Actuators (BS&A). It lists features such as low cost, customization options, variety of sizes, corrosion resistance, and vibration reduction compared to ball screws. It also provides details on material properties, temperature and load limits, accuracy grades, and self-locking characteristics. The document is intended to help customers select the appropriate lead screw assembly for their application.
This document provides information on precision lead screws and supernuts from Ball Screws and Actuators (BS&A). It lists features such as low cost, customization options, variety of sizes, corrosion resistance, and vibration reduction compared to ball screws. It also provides details on material properties, temperature and load limits, accuracy grades, and self-locking characteristics. The document is intended to help customers understand and select the appropriate lead screw solutions for their linear motion needs.
The document describes Penberthy Multiview magnetic liquid level gauges. It provides details on various models including standard, vapor bypass, top-mount, and mini gauges. It discusses follower and flag-type indicators and gives specifications on materials, pressures, temperatures, and dimensions for the different gauge types.
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
6th International Conference on Machine Learning & Applications (CMLA 2024)ClaraZara1
6th International Conference on Machine Learning & Applications (CMLA 2024) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of on Machine Learning & Applications.
Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapte...University of Maribor
Slides from talk presenting:
Aleš Zamuda: Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapter and Networking.
Presentation at IcETRAN 2024 session:
"Inter-Society Networking Panel GRSS/MTT-S/CIS
Panel Session: Promoting Connection and Cooperation"
IEEE Slovenia GRSS
IEEE Serbia and Montenegro MTT-S
IEEE Slovenia CIS
11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Low power architecture of logic gates using adiabatic techniquesnooriasukmaningtyas
The growing significance of portable systems to limit power consumption in ultra-large-scale-integration chips of very high density, has recently led to rapid and inventive progresses in low-power design. The most effective technique is adiabatic logic circuit design in energy-efficient hardware. This paper presents two adiabatic approaches for the design of low power circuits, modified positive feedback adiabatic logic (modified PFAL) and the other is direct current diode based positive feedback adiabatic logic (DC-DB PFAL). Logic gates are the preliminary components in any digital circuit design. By improving the performance of basic gates, one can improvise the whole system performance. In this paper proposed circuit design of the low power architecture of OR/NOR, AND/NAND, and XOR/XNOR gates are presented using the said approaches and their results are analyzed for powerdissipation, delay, power-delay-product and rise time and compared with the other adiabatic techniques along with the conventional complementary metal oxide semiconductor (CMOS) designs reported in the literature. It has been found that the designs with DC-DB PFAL technique outperform with the percentage improvement of 65% for NOR gate and 7% for NAND gate and 34% for XNOR gate over the modified PFAL techniques at 10 MHz respectively.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
1. Established in 2001, Classic Filters Ltd. manufactures high-quality, bonded
microfiber filter elements and filter housing for use in both gas and liquid
applications.
Thanks to our highly-experienced team of engineers, we have developed some of
the most efficient, low-cost filters, producing unparalleled flow rates and extremely
low pressure drops.
Whether you need a filter element that’s interchangeable with other manufacturers’
filter housings, or whether you need a completely tailored, custom-built solution.
We can deliver.
What’s more, we can deliver quickly.
We appreciate the disruption and inconvenience that replacing a filter can cause,
which is why we manufacture and deliver our products in super-quick time, to help
minimise the impact that this has on your business.
We also offer local service and support to ensure that you get the best possible
performance from your filtration system.
Why Choose Classic Filters?
• Low-cost, high-quality filtration solutions
• Extensive, customer-driven product range
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We offer every industry standard size and grades
But there is nothing‘standard’about the quality of our service
Take a look at our
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what you need to solve
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If not, get in touch
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particular specifications
and requirements.
2. CF/2.0/002
Contents: 1
Introduction & Contents
CF/2.0/001
CF/2.0/002
CF/2.0/003
CF/2.0/004
CF/2.0/005
Introduction
Contents: 1
Contents: 2
Contents: 3
Contents: 4
Information & Applications
CF/2.0/006
CF/2.0/007
CF/2.0/007a
CF/2.0/008
CF/2.0/009
CF/2.0/010
CF/2.0/011
CF/2.0/012
CF/2.0/013
CF/2.0/014
CF/2.0/015
CF/2.0/016
CF/2.0/016a
CF/2.0/016b
CF/2.0/017
CF/2.0/018
CF/2.0/019
CF/2.0/020
Housing Advantages
Particulate & Coalescing Filtration Explained
Stainless Steel Filter Housings
Fast Loop & Bypass Filters
PTFE-Membrane Housings
PTFE-Membrane Housing Options
Cyclone Filter Housings
Catchpot & Bubbler Housings
Drain Vessels for Coalescing Applications
Automatic Float Drains for Coalescing Applications
SBF Series Filter Housings with Flanges
Heatable Housings for Hot Gas Analysis
Aluminium Filter Housings
Plastic Filter Housings
Float Valve Housings for Automatic Flow Shut-Off
SiS & SeS Series Filter Housings with Differential Pressure Indicators
Sealing Options, Mounting Brackets and Support Cores
How to Select the Correct Filter Housing
Filter Element Information
CF/2.0/021
CF/2.0/022
CF/2.0/023
CF/2.0/024
CF/2.0/031
CF/2.0/032
CF/2.0/033
CF/2.0/034
Disposable Type Particulate & Coalescing Filter Elements - Binders
Disposable Type Particulate & Coalescing Filter Elements - Grades & Dimensions
Stainless Steel Filter Elements
PTFE & PE Filter Elements
Air Flow Rates - Disposable Filter Elements
Air Flow Rates - Stainless Steel Filter Elements
Air Flow Rates - PTFE & PE Filter Elements
Liquid Flow Rates - Stainless Steel Filter Elements
PTFE Membrane Information
CF/2.0/040
CF/2.0/041
PTFE Membrane Information - Gas Separation and Liquid/Liquid Types
Flow Rates - PTFE Membranes
Disposable In-Line Filters, Adsorbers and Cartridges
CF/2.0/050
CF/2.0/051
CF/2.0/052
CF/2.0/053
CF/2.0/054
CF/2.0/055
CF/2.0/056
DIF - Disposable In-Line Filters
DIA - Disposable In-Line Adsorbers
Adsorption Cartridges for Housings
Adsorber Columns for Granular Media.
NN212.AD & NN232.AD - Absorber Housing
SS215.AD & SS235.AD - Absorber Housing
SS218.AD & SS238.AD - Absorber Housing
Stainless Steel Filter Housings: SP76 Modular Sample System
CF/2.0/057
CF/2.0/058
Housing Type
SH017 Series - SP76 Modular System
SH027 Series - SP76 Modular System
Material
316L SS
316L SS
Port Size
SP76 Modular
SP76 Modular
Pressure (Bar)
350
350
Element Size
10.32
10.57
Stainless Steel Filter Housings: 1/8" to 1/2" Line Sizes
CF/2.0/060
CF/2.0/061
CF/2.0/062
CF/2.0/063
CF/2.0/064
CF/2.0/065
CF/2.0/065a
CF/2.0/065b
CF/2.0/066
CF/2.0/066a
CF/2.0/067
Housing Type
SG111 & SS112 Series
SS117 Series
SV117 Series - Inverted Coalescing
SS119 Series
SG121 & SS122 Series
SS127 Series
SS127.MG - Filter Housing with Magnet
SS125.F - Float Valve Housing
SV127 Series - Inverted Coalescing
SS147 Series
SS129 Series
Material
316L SS & Pyrex
316L SS
316L SS
316L SS
316L SS & Pyrex
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
Port Size
1/8" & 1/4"
1/8", 1/4" & 1/2"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8", 1/4" & 1/2"
1/8", 1/4" & 1/2"
1/8", 1/4" & 1/2"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
Pressure (Bar)
7 & 10
350
350
700
7 & 10
350
350
100
350
350
700
Element Size
12.32
12.32
12.32
12.32
12.57
12.57
12.32
-
12.57
12.76
12.57
3. CF/2.0/003
Contents: 2
Stainless Steel Filter Housings: 3/4" to 1" Line Sizes
CF/2.0/088
CF/2.0/089
CF/2.0/090
CF/2.0/091
CF/2.0/091a
CF/2.0/092
CF/2.0/093
Housing Type
SS325 Series
SiS325 Series with DPI
SS326 Series
SiS326 Series with DPI
SS337 Series
SS328 Series
SiS328 Series with DPI
Material
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
Port Size
3/4" & 1"
3/4" & 1"
3/4" & 1"
3/4" & 1"
3/4" & 1"
3/4" & 1"
3/4" & 1"
Pressure (Bar)
100
100
200
200
350
400
400
Element Size
38.152
38.152
38.152
38.152
38.178
38.152
38.152
Stainless Steel Filter Housings: 3/4" to 2" Line Sizes
CF/2.0/094
CF/2.0/095
CF/2.0/096
CF/2.0/097
CF/2.0/098
CF/2.0/099
CF/2.0/100
CF/2.0/101
CF/2.0/102
Housing Type
SG421
SS424 Series
SS425 & SHS425 Series
SS426 & SHS426 Series
SS428 & SHS428 Series
SS434 Series
SS435 & SHS435 Series
SS436 & SHS436 Series
SS438 & SHS438 Series
Material
316L SS & Pyrex
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
Port Size
3/4" & 1"
3/4" & 1"
1" to 2"
1" to 2"
1" to 2"
3/4" & 1"
1" to 2"
1" to 2"
1" to 2"
Pressure (Bar)
7
35
100
200
400
35
100
200
400
Element Size
51.230
51.230
51.230
51.230
51.230
51.476
51.476
51.476
51.476
Stainless Steel Heatable Filter Housings
CF/2.0/110
CF/2.0/111
CF/2.0/112
CF/2.0/113
Housing Type
HST Series
HRT Series
HSS Series
HRS Series
Material
316L SS
316L SS
316L SS
316L SS
Port Size
1/8" & 1/4"
1/4"
1/4"
1/4"
Pressure (Bar)
7
7
7
7
Element Size
12.32 to 25.178
25.64 & 25.178
25.64 & 25.178
25.64 & 25.178
CF/2.0/067a
CF/2.0/067b
CF/2.0/068
CF/2.0/069
CF/2.0/070
CF/2.0/071
CF/2.0/072
CF/2.0/073
CF/2.0/074
CF/2.0/075
CF/2.0/076
CF/2.0/077
CF/2.0/078
CF/2.0/079
CF/2.0/080
CF/2.0/081
CF/2.0/082
CF/2.0/083
CF/2.0/084
CF/2.0/085
CF/2.0/086
CF/2.0/087
Housing Type
SS1210 Series
SS1211 Series
SG211 & SS212 Series
SS215 Series
SiS215 Series with DPI
SV215 Series - Inverted Coalescing
SS216 Series
SiS216 Series with DPI
SS218 Series
SiS218 Series with DPI
SS219 Series
SiS219 Series with DPI
SG231 & SS232 Series
SS225 Series
SiS235 Series with DPI
SV235 Series - Inverted Coalescing
SS236 Series
SiS236 Series with DPI
SS238 Series
SiS238 Series with DPI
SS239 Series
SiS239 Series with DPI
Material
316L SS
316L SS
316L SS & Pyrex
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS & Pyrex
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
Port Size
1/4" & 3/8"
1/4" & 3/8"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
1050
1400
7 & 10
100
100
100
200
200
400
400
700
700
7 & 10
100
100
100
200
200
400
400
700
700
Element Size
12.57
12.57
25.64
25.64
25.64
25.64
25.64
25.64
25.64
25.64
25.64
25.64
25.178
25.178
25.178
25.178
25.178
25.178
25.178
25.178
25.178
25.178
Stainless Steel Filter Housings: 1/8" to 1/2" Line Sizes
Stainless Steel Fast Loop, In-Line & End-of-Line Filter Housings
CF/2.0/115
CF/2.0/116
CF/2.0/117
CF/2.0/118
Housing Type
SF Series - Fast Loop (Bypass) Type
SL Series - In-Line Type
SE Series - End-of-Line Type
SO Series - End-of-Line Type
Material
316L SS & Pyrex
316L SS
316L SS
316L SS
Port Size
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
100 & 350
100 & 350
-
-
Element Size
12.32 to 25.178
12.32 to 25.178
12.32 to 25.64
12.32 to 25.178
4. CF/2.0/004
Contents: 3
PTFE-Membrane Housings: 1/8" to 1/2" Line Sizes
CF/2.0/148
CF/2.0/149
CF/2.0/150
CF/2.0/150a
CF/2.0/150b
CF/2.0/151
CF/2.0/152
CF/2.0/152a
CF/2.0/153
CF/2.0/154
CF/2.0/155
CF/2.0/156
CF/2.0/157
CF/2.0/158
CF/2.0/159
CF/2.0/160
CF/2.0/162
CF/2.0/163
CF/2.0/163a
CF/2.0/163b
CF/2.0/164
CF/2.0/165
CF/2.0/166
Housing Type
FML101 Series
SM015 Series - SP76 Modular System
SM015 Series
GSM105 Series
FM101 Series
SM106 Series
STM106 Series
FM201 Series
SM202 Series
SM206 Series
SMD206 Series
SML206 Series
SM304 Series
STM304 Series
SML304 Series
STML304 Series
FM111 Series - Combination Housing
SM115 Series - Combination Housing
FGM121 Series - Combination Housing
FM121 Series - Combination Housing
SM125 Series - Combination Housing
SM215 Series - Combination Housing
SM235 Series - Combination Housing
Material
PTFE
316L SS
316L SS
316L SS
PTFE
316L SS
316L SS
PTFE
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
316L SS
PTFE
316L SS
PTFE & Pyrex
PTFE
316L SS
316L SS
316L SS
Port Size
1/4" Spigot
SP76 Modular
1/16" & 1/8"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
7
100
100
100
7
200
200
7
10
200
200
200
35
35
35
35
7
100
7
7
100
100
100
Membrane Size
MT.33
MT.19
MT.19
MT.33
MT.33
MT.33
2x MT.33
MT.61
MT.61
MT.61
MT.61
MT.61
MT.89
2x MT.89
MT.89
2x MT.89
MT.33
12.32 & MT.33
12.57 & MT.33
12.57 & MT.33
12.57 & MT.33
25.64 & MT.61
25.178 & MT.61
Stainless Steel Drain Vessels
CF/2.0/120
CF/2.0/121
CF/2.0/130
CF/2.0/131
CF/2.0/131b
CF/2.0/132
CF/2.0/133
CF/2.0/134
CF/2.0/135
Housing Type
DN103 Series
DF105 Series
DG111 & DS112 Series
DG121 & DS122 Series
DS127 Series
DG211 & DS212 Series
DS215 Series
DG231 & DS232 Series
DS235 Series
Material
316L SS & PA
316L SS
316L SS & Pyrex
316L SS & Pyrex
316L SS
316L SS & Pyrex
316L SS
316L SS & Pyrex
316L SS
Port Size
1/8" & 1/4"
1/8" to 1/2"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/8" & 1/4"
1/4" & 1/2"
Pressure (Bar)
17
35
7 & 10
7 & 10
350
7 & 10
100
7 & 10
100
Regulators & Filter Regulators
CF/2.0/140
CF/2.0/141
CF/2.0/142
CF/2.0/143
CF/2.0/144
Housing Type
RSP103 & RSS103 Series
RSP113 Series
RSS113 Series
RSP123 Series
RSS123 Series
Material
316L SS
316L SS
316L SS
316L SS
316L SS
Port Size
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/4"
Pressure (Bar)
17
17
17
17
17
Element Size
-
12.32
12.32
12.57
12.57
Stainless Steel Cyclone Filter Housings
CF/2.0/169
CF/2.0/170
Housing Type
STW106 Series
SW205 Series
Material
316L SS
316L SS
Port Size
1/8" & 1/4"
1/8" & 1/4"
Pressure (Bar)
200
100
Filter Disc Size
2x FD.33
FD.64
Aluminium Filter Housings: 1/8" to 1/2" Line Sizes
CF/2.0/200
CF/2.0/201
CF/2.0/202
CF/2.0/203
CF/2.0/204
CF/2.0/205
CF/2.0/206
CF/2.0/207
Housing Type
AN112 Series
AA113 Series
AN122 Series
AA123 Series
AN212 Series
AiN212 Series
AA213 Series
AiA213 Series
Material
AL & PA
AL & PA
AL & PA
AL & PA
AL & PA
AL & PA
AL & PA
AL & PA
Port Size
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
10
17
10
17
10
10
17
17
Filter Disc Size
12.32
12.32
12.57
12.57
25.64
25.64
25.64
25.64
Stainless Steel Differential Pressure Indicators
CF/2.0/139
Housing Type
SSDPI Series
Material
316L SS
Pressure (Bar)
400-1050
CF/2.0/004
5. CF/2.0/005
Contents: 4
Aluminium Filter Housings: 1/8" to 1/2" Line Sizes
CF/2.0/210
CF/2.0/211
CF/2.0/212
CF/2.0/213
CF/2.0/214
CF/2.0/214a
CF/2.0/215
CF/2.0/216
CF/2.0/217
CF/2.0/218
Housing Type
AiN232 Series
AA233 Series
AiA233 Series
AA323 Series
AiA323 Series
AA325 Series
AA423 Series
AiA423 Series
AA433 Series
AiA433 Sereis
Material
AL & PA
AL & PA
AL & PA
AL
AL
AL
AL
AL
AL
AL
Port Size
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
3/4" & 1"
3/4" & 1"
3/4" & 1"
1&1/2" & 2"
1&1/2" & 2"
1&1/2" & 2"
1&1/2" & 2"
Pressure (Bar)
10
17
17
17
17
100
17
17
17
17
Element Size
25.178
25.178
25.178
38.152
38.152
38.152
51.476
51.230
51.476
51.476
PTFE Filter Housings
CF/2.0/300
CF/2.0/301
CF/2.0/302
CF/2.0/303
CF/2.0/304
CF/2.0/305
Housing Type
FF111 Series
FF121 Series
FG121 Series
FF211 Series
FG211 Series
FF231 Series
Material
PTFE
PTFE
PTFE & Pyrex
PTFE
PTFE & Pyrex
PTFE
Port Size
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
7
7
7
7
7
7
Element Size
12.32
12.57
12.57
25.64
25.64
25.178
Aluminium End-of-Line Filter Housings
CF/2.0/220
CF/2.0/221
Housing Type
AE Series
AO Series
Material
AL
AL
Port Size
1/8" to 1/2"
1/8" to 1/2"
Element Size
12.32 to 25.64
12.32 to 25.178
Polyamide (Nylon) Filter Housings
CF/2.0/310
CF/2.0/311
CF/2.0/311a
CF/2.0/312
CF/2.0/313
CF/2.0/314
CF/2.0/315
CF/2.0/316
CF/2.0/316a
CF/2.0/317
Housing Type
NN112 Series
NN122 Series
NN122.F Series
NL121 Series
NL141 Series
NT Series
NNS Series
NN212 Series
NN212.F Series
NN232 Series
Material
PA
PA
PA
PA
PA
PA
PA
PA
PA
PA
Port Size
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
10
10
10
7
7
7
7
10
10
10
Element Size
12.32
12.57
-
12.57
12.32 & 12.35
12.32 & 12.57
25.30 & 25.35
25.64
-
25.178
Polypropylene Filter Housings
Housing Type
PP111 Series
PP121 Series
PP211 Series
PP231 Series
Material
PP
PP
PP
PP
Port Size
1/8" & 1/4"
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
7
7
7
7
CF/2.0/320
CF/2.0/321
CF/2.0/322
CF/2.0/323
Element Size
12.32
12.57
25.64
25.178
CF/2.0/330
CF/2.0/331
CF/2.0/332
Housing Type
KK121 Series
KK211 Series
KK231 Series
Material
PVDF
PVDF
PVDF
Port Size
1/8" & 1/4"
1/4" & 1/2"
1/4" & 1/2"
Pressure (Bar)
7
7
7
Element Size
12.57
25.64
25.178
PVDF Filter Housings
Aluminium Filter Regulators
CF/2.0/225
CF/2.0/226
CF/2.0/227
CF/2.0/228
Housing Type
RAN112 Series - Filter Regulator
RAA113 Series - Filter Regulator
RAN122 Series - Filter Regulator
RAA123 Series - Filter Regulator
Material
AL & PA
AL
AL & PA
AL
Port Size
1/8" to 1/4"
1/8" to 1/4"
1/8" to 1/4"
1/8" to 1/4"
Pressure (Bar)
10
17
10
17
Element Size
12.32
12.32
12.57
12.57
Brass Filter Housings
CF/2.0/250
Housing Type
BB213 Series
Material
Brass
Port Size
1/4" to 1/2"
Element Size
25.64
Pressure (Bar)
17
Aluminium Filter Housings: 1/8" to 1/2" Line Sizes
CF/2.0/208
CF/2.0/209
Housing Type
AA214 Series
AN232 Series
Material
AL & PA
AL & PA
Port Size
1/8" & 1/4"
1/4" & 1/2"
Pressure (Bar)
35
10
Filter Disc Size
25.64
25.178
6. CF/2.0/006
Why Classic Filters?
Our high-quality filter housings and elements enable the effective and
efficient removal of contaminants from both gas and liquid applications.
From coalescing to particulate filtration, we ensure that, for whatever
purpose our filters are used, they perform to unrivalled standards.
Filter Element Selection
A huge range of filter element types and grades give increased flexibility,
Our filter housings and elements are available in a wide variety of materials,
delivering you a robust, tailor-built filtration solution to suit your particular
requirements. Materials include:
• 316L Stainless Steel • Aluminium • PTFE
• Nylon • Polypropylene • PVDF
• Hastelloy • Monel • Titanium
• Brass • Duplex • Inconel
Special or Custom Products
Need an unconventional or bespoke filter element and housing?
No problem.
Our skilled designers and engineers will work alongside you to build a
custom-made solution that suits your particular filtration requirements and
specifications. Get in touch today for a no obligation consultation on how we
can meet your needs.
Special Materials With a plethora of materials, from the most exotic metals
through to standard aluminium and ordinary nylon, we can design and
manufacture the most suitable filter housings and elements to suit you and
your company’s needs. We specialise in exotic materials such as, Hastelloy,
Monel, and Titanium.
Special Ports Threaded ports and flange connections can be manufactured to
specification, ensuring you receive a filter that fits seamlessly with your existing
instruments and machinery.
Filter housing
feature a separate
element retainer and
tie rod that allows
self-sealing filter
media to be used
Filter housing
available with or
without a drain port.
Some housings also
available with a
manual drain
Head to bowl seal
features an o-ring in
a separate groove
Disposable
Bonded MicrofibrePTFE & PEAdsorbers
Stainless
Steel 316L
Housing Advantages
7. CF/2.0/007
Types of Filtration
Our high-quality filter housings and elements enable the effective and
efficient removal of contaminants from both gas and liquid applications.
From coalescing to particulate filtration, we ensure that, for whatever
purpose our filters are used, they perform to unrivalled standards.
Particulate Filtration
If particulate filtration is what you need, we offer a huge selection of robust,
effective solutions to meet - and in some cases exceed - your requirements.
The service life of our high-efficiency filter elements are maximised thanks to
superior design and engineering, so you can be sure of the most cost-effective,
durable solution to your filtration needs.
Essentially, particulates are removed from gas and liquids using a two-port
filter housing and particulate-type filter element specifically designed for this
purpose.
Support cores should be used with a disposable filter element in liquid filtration
applications.
Coalescing Filtration
Processes and systems that require the separation of liquid aerosols and
droplets from gas need a coalescing filter.
This type of filter element essentially comprises of two parts, an inner and an
outer layer. The inner layer consists of a high-efficiency coalescing stage whilst
the outer layer is a courser stage used for drainage.
Any liquid aerosols or droplets are caught within the fine fibres of the inner
layer, eventually accumulating to the extent that they are forced to the outer
layer of the filter element and in to the‘bowl’of the housing.
Our SV series coalescing housings offer a super-efficient filtration solution
with the benefit of an inverted position of the housing ensuring easy servicing
without disconnecting the drain port fittings.
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you need.
Drain
Inlet Filtered
Outlet
FrontView SideView
Particulate & Coalescing Filtration
Coalescing filters can be seen as multifunctional
filtration solutions thanks to their ability to filter
particulates just as efficiently as they coalesce
aerosols and droplets. Meaning, if you have an
application that requires both types of filtration,
a coalescing filter is ideal.
Drain
Inlet Filtered
Outlet
Flow through the
filter element is
inside to outside
Inlet Filtered
Outlet
Flow through the
filter element is
outside to inside
Particulate
Filtration
Coalescing
Filtration
8. CF/2.0/07a
With the widest selection of stainless steel filter housings available, Classic Filters
is almost certain to have the housing that meets your particular needs. If not,
we’ll build you one from scratch.
As well as our standard filter housings, we also offer custom-made filter housings
in plastic to suit your OEM or special application. While we traditionally supply
the instrumentation and analyser sample system markets, our filters can be used
is a huge range of industries and applications
Constructed entirely from 316L stainless steel, all our stock stainless steel filter
housings are free of welds to comply with NACE MR-01-75. Each filter housing has
a serial number to offer complete traceability of the material right back to the mill.
Material certificates to EN 10204-3.1 can be supplied with the filter housing.
High Pressure to 1400 bar
With ports from 1/8”to 1”NPT and pressure ratings from 7 to 1050 bar available from
stock, our filter housings can be used in a wide range of environments and situations.
Housings are available up to 1400 bar. They can also be used under vacuum.
CE Marks and the Pressure Equipment Directive
All our filter housings comply with the requirements of the Pressure Equipment
Directive (97/23/EC) and have CE marks if required. Non CE marked housings conform
to SEP requirements. We can even produce a one-off special with CE marks.
Exotic Materials
Need something more exotic than 316L stainless steel? No matter how exotic your
requirements, Classic Filters can supply materials to match. We can produce housings
in a range of materials including Titanium, Hastelloy, Monel and Inconel. Just let us
know your requirements.
Filter Housing Options
A range of filter housing options can be supplied, including various seal types, as well
as special port configurations, extra ports, special lengths and other design features.
Stainless Steel Filter Housings
Filter housings can also be supplied with
Pyrex glass bowls for visual monitoring of
the filter element. These are suitable for
applications up to 7 bar.
9. CF/2.0/008
Fast loop filters are ideally suited to heavily contaminated applications
since the element is thoroughly and continuously flushed by the high
flow-rate stream through the housing.
Again, the cost-effectiveness and service-life of your filter element are our
main concern, ensuring only the low-flow stream to the analyser is being
filtered.
Traditional Bypass Filtration
Our fast-loop filtration solutions go against the grain of the traditional
three-port T-shape filter design, bringing with it the advantages of continued
flushing on the filter element to remove heavy contaminants downstream. A
reduced housing volume improves the response time.
If you still want to use the traditional style of housing in your system - no
problem, our T-shaped housings can still be used.
As well as our standard stocked housings we offer a service to create custom
housings to suit your application. Just let us know what you need.
Fast Loop Filters
Bypass Outlet
Inlet
Filtered-
Sample
Outlet
Bypass
Outlet
Inlet
Filtered
Sample
Outlet
Fast Loop
Filtration
Traditional
Bypass
Filtration
10. CF/2.0/009
One of our most innovative filtration solutions available, PTFE membranes
are perfectly suited for separating liquid from gas molecules, allowing for
a pure gas sample to be produced for the protection of analysers and other
instruments. We can also separate two liquid phases if required.
A porous PTFE membrane is supported by a sintered, porous stainless steel
disc on the outlet side.
Combination Housing
with Filter Element
and Membrane
When used in conjunction with
a filter element, the service-life
of the PTFE membrane can be
extended significantly, allowing the
filter element to remove the bulk
of the liquid before it reaches the
membrane.
Just ask us about ‘combination
filters’when you get in touch.
As well as our standard stocked
housings we offer a service to
create custom housings to suit
your application. Just let us know
what you need.
PTFE-Membrane Housings
Clean
Sample
Outlet
Inlet
Bypass/Drain
Filtered Sample Outlet
Drain
Inlet
The effective combination of carefully
manufactured components prevents 100%
of liquid molecules from flowing through the
membrane; allowing only molecules of gas to
pass. Any liquid removed flows through to the
drain port. This port can also be used as a bypass
function for the main flow.
A range of membranes designed to separate
two liquid phases are also available as well as an
hydrophobic/oleophobic membrane to remove
water and oils from a gas stream.
Membrane
in Action
Combination
Housing
11. Liquid Block
This option will stop the flow of the gas sample through the PTFE is
the differential pressure becomes too high.
If the PTFE membrane becomes flooded the increase in pressure drop
can cause liquid to be forced through the membrane.
The valve in the housing plug will automatically close when a high
differential pressure occurs a and shut off the flow.
Ordering information
To order a membrane housing with this option , simply add the suffix
.LB to the housing designation; so for example SM106.221.LB
Twin Support Discs
On standard membrane housings the PTFE membrane is supported
by a sintered, porous stainless steel disc on the outlet side. The Twin
Disc option adds another sintered support disc to the front face of
the PTFE membrane.
If the flow is reversed during normal operation there is a chance that the
PTFE membrane can be damaged. The second support disc on the front
face of the membrane will keep it in place and prevent any damage
Ordering information
To order a membrane housing with this option , simply add the suffix
.TD to the housing designation; so for example SM106.221.TD
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you
need.
CF/2.0/010
PTFE-Membrane Housing Options
Valve Normally Open
Twin Support
Disc Option
Valve closed due to excessive pressure
drop across face of the PTFE membrane
Liquid Block
Valve in Action
12. CF/2.0/011
Our cyclone filter housings are one of the most innovative, low-
maintenance solutions for liquid bypass filtration.
The contaminated sample initially enters an angled inlet port, creating a
cyclone effect in which the contaminants are filtered via a filter disc. Any
particulates are blocked by the filter disc and carried to the bypass port
at the bottom of the housing. The clean sample is allowed to pass through
the sintered stainless steel filter disc to the sample outlet port.
Stainless Steel Filter Discs
Our stainless steel filter discs are ultra-durable solutions to particulate filtration,
especially in liquid applications. Several layers of 316 mesh are sintered
together to form an integrated porous filter, with coarse mesh providing
support and protection to the finer, central mesh.
Filter discs are stocked in grades, 2, 5, 10, 20, 40, 100, and 200 micron.
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you need.
Cyclone Filter Housings
Filtered
Sample
Outlet
Inlet
Bypass
Due to this cyclone effect, the filter disc is kept
clean for a long period of time, extending the
period required between service intervals when
compared to standard filters.
Even when a service is due, the procedure is
incredibly quick thanks to the‘threaded cap’
design of the housing, allowing for easy access
to, and replacement of, the filter disc.
Cyclone Filter
in Action
13. Catchpots
This clever accessory is ideal for highly contaminated applications, allowing
you to overcome the common problem of flooding within your coalescing filter
elements if large slugs of liquid are present.
Catch pots essentially‘catch’the bulk of the liquid contaminant before it reaches
the filter, hence the name‘catchpot'.
We can modify any of our existing selection of filter housing to accommodate a
catchpot tube, or we can build a completely unique catchpot from scratch.
Whatever your requirements, we can deliver.
Ordering information
To order a catch pot on one of our existing housing designs, simply add
the suffix .CP to the housing designation; so for example SS127.221.CP or
AA213.461.CP
Bubblers
Bubblers are another accessory that we offer on our existing housing range and
also within custom-built filtration solutions.
These appropriately named, innovative pieces of equipment allow gas to pass
through liquid. A typical example would be to maintain a relative humidity in a
sample through added liquid in vapour form.
Ordering information
To order a bubbler on one of our existing housing designs, simply add
the suffix .BB to the housing designation; so for example SS127.201.BB or
AA213.461.BB
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you need.
CF/2.0/012
Catchpot & Bubbler Applications
OutletInlet
Drain
OutletInlet
Catchpot
Housing
Bubbler
Housing
14. CF/2.0/013
Low or negative pressure gas sample systems can be problematic when it
comes to removing the coalesced liquids from the‘bowl’of the housing.
Dismantlement of a filter housing, in this situation, would lead to a
temporary lack of pressure in the system.
That’s why we offer a purpose-built drain vessel installation to suit most of our
existing range of filter housings.
These carefully designed vessels allow for the isolation of liquid contaminants,
whilst avoiding any negative impact on system.
Drain vessels can also be used in other applications in order to expand the
volume of waste liquid that filter housings can hold, thus extending the
requisite time between service intervals.
Facing the same problem with a high-pressure application?
We can manufacture drain vessels for this purpose too; get in touch for a
no-obligation chat.
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you need.
Drain Vessels
Filtered
Outlet
Inlet
Valve normally open
Valve normally closed
Drain
Coalescing
Filter
Drain
Vessel
15. CF/2.0/014
To remove liquids automatically from a system with a positive pressure we
have two solutions -
The DF105 series automatic float drain uses a unique diaphragm operated
valve and is constructed entirely from 316L stainless steel for use in corrosive
applications.
Water drains form the coalescing housing into the drain body and as the water
level increases a float controls the diaphragm operation of the valve. Once the
water is drained the float returns to the rest position and the valve closes.
For lower pressure non-corrosive applications the DN103 series automatic float
drain uses a self-contained plastic float mechanism to remove water in a similar
way to the DF105 series.
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you need.
Automatic Float Drains
DN103 and DF105 Automatic Float Drains
16. CF/2.0/015
The SBF flanged housings are designed to be weld-free. The heads are
machined from solid stainless steel bar.
By removing the welding process the costly additional documentation,
approvals and testing for CE marking are eliminated.
Various flange types and pressure rating are offered as standard. Sizes from 1/2"
up to 2" can be produced.
SBF Flanged Housings
SBF Series Housing
Several flange types and sizes are available as
standard designs and are based on our SS series
housings
Special Designs
Need an unconventional or bespoke housing?
No problem.
Our skilled designers and engineers will
work alongside you to build a custom-made
solution that suits your needs.
Just let us know what you need.
Flange Types Available Include -
• ASME/ANSI B16.5 - 1996 - Pipe Flanges and Flanged Fittings
• British Standard BS 4504 - Section 3.1:1989 - Circular Flanges for Pipes, Valves and Fittings
• SAE J 518 C - SAE Flanges Standard
17. CF/2.0/016
These housings are specifically engineered for hot gas analysis, in
particular, diesel exhaust – this gas has an especially high dew-point, so
to prevent condensation during analysis the sample must be heated.
In essence then, these housings offer the same level of quality as all our
stainless steel housing, but with the added benefits of a housing designed for
a specific application.
Filter elements used heatable housings can be replaced quickly and
easily (even at operating temperatures) thanks to a quick-release bayonet
connection, thus minimising disruption to your analysis and operations.
Optional configurations of the ports and internals include a support core or a
tie rod and element retainer.
Disposable, S-type filter elements are perfect for heated applications when
used in tandem with Heatable Housings
As well as our standard stocked housings we offer a service to create
custom housings to suit your application. Just let us know what you
need.
Heatable Housings
Heatable housings available
in a wide range of sizes
Several port and internal options are available and
housings have threaded mounting bracket holes
as standard
Quick-release bayonet connection for the head
to bowl
18. If you use compressed air for instrument or industrial applications,
efficiency and flow-rate are of paramount importance. Aluminium filter
housings for particulate and coalescing filter applications
Classic Filters' high-efficiency aluminium filter housings are purpose built
for compressed air applications in mind. With a wide selection of port sizes
and pressure ratings available, we will provide a high efficiency filtration
solution to suit your application requirements.
Special Filter Housings and OEM Applications
Does your application have special filter requirements? As well as our standard
housings we also offer bespoke filter housings manufactured in plastic to
suit your OEM product or special application. Contact our team with your
requirements today.
High Pressure to 250 bar
With ports ranging from 1/8”to 2”NPT and pressure ratings from 7 to 35
bar available from stock, our filter housings can be used in a wide range of
environments and situations. Of course if you need very high pressures we
have make aluminium filter hosuings up to 250 bar and our stainless steel filter
housings are also available.
Catchpot Housings
If there is a high chance of bulk liquid flowing through the line with the
compressed air to the coalescing filter it is good practice to use a catchpot
before the coalescing filter to increase the performance and prevent the filter
element from flooding.
Filter Housing Options
A range of filter housing options can be supplied with a variety of seal types and
other options to suit your needs.
CF/2.0/016a
Aluminium Filter Housings
Special Designs?
Need an unconventional or bespoke housing?
No problem.
Let our skilled designers & engineers take
care of every aspect including:
• Port Sizes
• OEM Lableing
• Differential Pressure Indicators
• Automatic/Manual Drains
• Sealing Types
Aluminium housings available
in a wide range of sizes
19. Available in Nylon, Polypropylene, PTFE or PVDF, Classic Filters offer
a range of low-cost plastic filter housing solutions that deliver high-
performance corrosion resistance.
Materials: PA, PP, PTFE and PVDF
PTFE filter housings are machined from solid PTFE bar and have a 316L
stanless steel collar on the outside of the head to increase the strength of the
head to bowl connection. When the PTFE filter housings are used with our
PTFE filter elements a 100% PTFE filter solution is available. Other plastic filter
housings are moulded in quality, high-performance materials
Our plastic filter housings are ideal for emissions and environmental filter
applications as well as other OEM filter applications requiring a low-cost
solution. They can be used for both particulate and coalescing applications.
They can be supplied as catchpots and bubbler housings. They can also be
fitted with adsorber cartridges.
Port sizes from 1/8" up to 1/2" help to offer great flexibility from this range of
products and the can be supplied with or without drain ports.
CF/2.0/016b
Plastic Filter Housings
Special Filter Housings and OEM Applications
Does your application have special filter requirements? In addition to
standard filter housings, Classic Filters offers custom-made filter housings
based on our proven NL, NT and NNS housings that are ideal for OEM or
special applications.
Let us know what you need.
NN1221 Double Element Filter Housing
NNS241.211 Filter Housing
20. CF/2.0/017
Float valve housings are an essential filtration tool when gas is being
drawn to an analyser or other instrument, preventing the carry-over of bulk
liquids. Normally these are used after coalescing filter housing as a safety
device.
Float Valve Housing
Ordering information
Two sizes of plastiic housing can be supplied: The small NN122 or the
larger capacity NN212.
To order this type of housing, simply add the suffix .F to the housing
part number; so for example NN122.161.F or NN212.261.F
A small 316L stainless steel houing using a PVDF float is also available,
the SS125.F series, and as well as our standard stocked housings we
offer a service to create custom housings to suit your application. Just
let us know what you need
Sample
Outlet
Inlet
During
normal
operation
the valve
is open
When the
water
level
rises the
valve
closes
How they work:
As liquid is collected in the bowl the level start
to rise, gas becomes trapped in the open-end of
the float and it too starts to rise.
The entire float assembly then begins to move
upwards and eventually closes the valve and
shuts off the flow to the analyser. This loss of
flow is then detected and an alarm is sounded.
Without the float valve the flow remain open
to the analyser, substantial damage could be
caused through the transmission of liquid into
the analyser. Float valve housings can therefore
protect you from costly repairs.
21. CF/2.0/018
These housings are specifically engineered to offer an indication of the
differential pressure across the filter element. They offer a cost effective
method of monitoring the service life and prevent costly failures due to
lack of maintenance.
The SiS series housings feature a visual indication. A plunger sealed by an
o-ring separates an area of the head into two chambers. A spring causes the
plunger to take up its home position when the pressure difference is zero.
As the pressure difference increases the plunger is forced to move against
the spring. At the same time, an indicator disc is moved magnetically. The
indicator will show yellow when the differential pressure is 0.25 bar and red
when it reaches 0.5 Bar.
The SeS series housings use the same mechanical system as the SiS, except
the two reed contact switches are actuated.
As well as our standard housings we offer a service to create custom
housings to suit your application.
Just let us know what you need.
Differential Pressure Indicators
Most stainless steel housings can
be supplied with a differential
pressure Indicator The SiS series housings feature a visual indicator
The SeS series housings offer electrical control
22. CF/2.0/019
Sealing Options
Filter housings are mostly fitted with Viton o-ring style seals as standard. We
have a number of sealing options that can be specified and the housings
delivered with the seals installed.
For alternative seals a suffix is added to the filter housing part number, for
example if you require a SS127.221 filter housing with an EPDM seal add .E to
give SS127.221.E - if a standard seal is required do not add the suffix
Refer to the filter housing data sheets for information about the seals types
available for each housing.
Please consult us for any special requirements.
Mounting Brackets
Mounting brackets can be supplied for all filter housings making the
installation process quicker and easier. All our mounting brackets are supplied
with screws and washers to join them to the housing so only fixings for the
panel or wall are required.
Use of a mounting bracket will avoid excessive loads on the fittings and
piping.
All mounting brackets are constructed in stainless steel giving superior
corrosion resistance in wet areas.
Support Cores
When using disposable filter elements in a liquid application a support core
should be used to increase the strength of the filter elements.
Plastic and aluminium housings have a built in support, but stainless steel
housings will need to use the optional extra support.
The SC series support cores are constructed from 316L stainless steel.
Sealing Options
and other Accessories
Types of Seals
Suffix Name Type Temp. Range
.V Viton Flourocarbon - 15oC to +200 oC
.C Chemraz Perfluorelastomer - 18oC to +324oC
.T PTFE FEP Encapsulated or Solid PTFE - 60oC to +200 oC
.K Kalrez Perfluorelastomer - 50oC to +316oC
.S Silicone Silicone - 60oC to +230oC
.R Neoprene Chloroprene-Neoprene - 45oC to +100oC
.E EPDM Ethylene-propylene - 55oC to +150oC
.N Nitrile Buna N-Nitrile - 35oC to +110oC
23. CF/2.0/020
How to select the Correct Filter Housing -
The wide range of filter housing and element combinations enable us to
supply the most suitable equipment for your application and specifications.
To select the correct filter housing and element the following information
about the application is required -
Items 1, 2 and 3 will determine the materials of construction of the filter
housing, including the element and seals. Filter housings are available in
a wide variety of materials to ensure there is a product for even the most
specialised applications. As well as our range of standard materials a wide
range of exotic materials are also available.
Item 4 will determine the configuration of the housing, one port for inlet
filters, two ports for in-Iine housings and three ports for coalescing, bypass or
fast loop housings.
Items 5, 6, 7, 8 and 9 will establish the most appropriate size of filter. This
is generally a compromise between those factors favouring a small filter
(fast response time, smallest space requirement, lowest cost, minimised
adsorption losses) and those factors favouring a large filter (long service
intervals, low pressure drop). The exact choice will therefore depend on the
relative importance of these factors in each particular application.
Selecting the Correct Filter Housing
Additional Assistance
Our representatives have a vast experience of
specifying successful installations and we will be
pleased to help you select the best solution for
your filtration problem.
We also have an Applications Form available for
you to complete and return and this will ensure
we have all the information required to make a
selection for your individual application.
Service Intervals
A disposable microfibre filter element continues
to filter at its original efficiency as long as it
is kept in service. The life of the element is
determined by the increase in flow resistance
caused by trapped solids. The element should be
changed when the flow falls below an acceptable
level, or the pressure drop becomes too high. In
any case the element should be replaced before
the pressure drop across it reaches 0.7 Bar. The
disposable microfibre filter elements cannot
be cleaned as the solids are trapped within the
depth of the element not on the surface.
Installing the Filter Housing
Given that filter housing is a pressure vessel,
any connections and accessory outlets must be
leak-tight.
Therefore, a good pipe sealant (PTFE tape,
paste etc.) should be used on all fittings prior to
connecting the filter housing ports. This will also
allow for disassembly at a later time, if required.
Wherever possible, installation of filter housings
should be made using an appropriate mounting
bracket to avoid excessive loads on the piping.
Full installation instructions are included with
each filter housing.
1 Maximum pressure
2 Maximum temperature
3 Chemical & physical composition of the sample
4 Type of duty - inlet, particulate, coalescing, bypass, membrane
5 Contaminant to be removed
6 Maximum flow rate
7 Line size and port type
8 Level of filtration required
9 Relative importance of cost, response time, service life and interval
24. Filter Elements
Disposable Type Binders
Disposable Filter Elements
Disposable bonded microfibre filter elements are manufactured from
precise mixtures of borosilicate glass microfibres to the very highest
standards of quality control. These elements offer exceptional filtration
efficiency at very low pressure drops and being +90% void volume they
give a very long service life.
The elements are bonded to impart high strength and eliminate fibre
shedding and the choice between the different binders available will depend
on each application. Disposable elements are self-sealing and sealed into a
filter housing by axial compression.
Coalescing or Particulate Applications
There are two types of filter element available, particulate and coalescing.
The particulate filter elements use a single layer of filter media whereas
coalescing elements have a fine capture layer and a coarse drainage layer.
The coarsest grade that will adequately protect the application should
be chosen as this will result in the most economical solution to the
contamination problem by extending the service life. Disposable bonded
microfibre filter elements are suitable for both gas and liquid applications.
CF/2.0/021
Fine inner capture layer
Coarse outer drainage layer
Glass Microfibres
Binder Types
Particulate Applications
E Epoxy ester binder suitable for all general purpose particulate
removal applications in non-corrosive gases and liquids
K PVDF binder has an excellent chemical resistance for use with
corrosive gases and liquids. Very low levels of adsorption.
S Silica binder giving a completely inorganic filter element. For high
temperatures and solvent applications.
L Silicone binder is hydrophobic and prevents the pores being filled
with condensate. The maximum temperature is 200ºC
Coalescing Applications
CE Epoxy ester binder suitable for all general purpose aerosol and
particulate removal applications in non-corrosive gases
CK PVDF binder has an excellent chemical resistance for use with
corrosive gases. Very low levels of adsorption
CR PVDF binder as above with the addition of a reinforcing mesh
embedded within the structure
CS Silica binder giving a completely inorganic filter element. For high
temperatures and solvent applications.
W Silicone binder is hydrophobic and prevents the pores being filled
with condensate. The maximum temperature is 200ºC
Coalescing Filter Element
Particulate Filter Element
25. Filter Elements
Disposable Grades & Dimensions
All disposable filter elements have a part number arranged in three sections, for example 25.64.7K
The first part refers to the inside diameter of the element in millimetres, the second figure refers to the overall length in
millimetres and the third part is the designation for the grade and binder.
CF/2.0/022
Filter Elements are available in a wide range of standard diameters and lengths. These are based on traditional industry standard
sizes and allow the elements to be installed in other proprietary equipment.
12.32.□ 12.57.□ 25.64.□ 25.127.□ 25.178.□ 38.58.□ 38.152.□ 45.127.□ 51.230.□ 51.89.□ 51.476.□ 63.762.□
Replace the □in the part numbers shown with the grade selected from the tables below. More information about the binder types
can be found on page CF/2.0/021.
Efficiency
Each filter element type is available in a selection of grades covering a efficiency range from coarse bulk contamination removal and
the essentially complete removal of submicron particles.
Special Sizes
Special size filter elements can also be manufactured in a wide range of different diameters and lengths.
Inside Diameters: 7mm to 150mm
Lengths: 9mm to 1000mm
Please enquire with any specific requirements.
Standard Sizes
The standard grades are shown in the tables below.
Particulate Applications - Gas
% Removal of 0.1 micron particles
Binder Max. Temp. +99.99998% +99.9999% +99.99% +99.5% +95% +75%
E Epoxy Ester 150oC 3E 4E 5E 6E 7E 8E
K PVDF Flourocarbon 150oC 3K 4K 5K 6K 7K 8K
S Silica Inorganic 500oC 3S 4S 5S 6S 7S 8S
L Silicone 200oC 4L 6L
Coalescing Applications - Gas
% Removal of 0.1 micron particles & aerosols
Binder Max. Temp. +99.99% +99.5% +95% +75%
CE Epoxy Ester 150oC 5CE 6CE 7CE 8CE
CK PVDF Flourocarbon 150oC 5CK 6CK 7CK 8CK
CR PVDF Flourocarbon 150oC 5CR 6CR 7CR 8CR
CS Silica Inorganic 500oC 5CS 6CS 7CS 8CS
W Silicone 200oC 5W 6W 7W 8W
Particulate Applications - Liquid
+98% Removal of particles at stated size
Binder Max. Temp. 0.3 µm 1 µm 2 µm 8 µm 25 µm 75 µm
E Epoxy Ester 150oC 3E 4E 5E 6E 7E 8E
K PVDF Flourocarbon 150oC 3K 4K 5K 6K 7K 8K
S Silica Inorganic 500oC 3S 4S 5S 6S 7S 8S
26. CF/2.0/22a
Particulate Types
Element
Code
Inside
Ø
Tolerance Outside
Ø
Tolerance Length Tolerance
10.32.□ 10.0 ±0.25 14.0 ±0.50 32.0 ±0.25
10.57.□ 10.0 ±0.25 14.0 ±0.50 57.0 ±0.25
12.20.□ 12.5 ±0.25 17.0 ±0.50 20.0 ±0.25
12.25.□ 12.5 ±0.25 17.0 ±0.50 25.4 ±0.25
12.32.□ 12.5 ±0.25 17.0 ±0.50 32.0 ±0.25
12.57.□ 12.5 ±0.25 17.0 ±0.50 57.0 ±0.25
16.32.□ 16.0 ±0.25 22.0 ±0.50 32.0 ±0.25
16.41.□ 16.0 ±0.25 22.0 ±0.50 41.0 ±0.25
25.30.□ 25.5 ±0.25 31.0 ±0.50 30.0 ±0.25
25.51.□ 25.5 ±0.25 31.0 ±0.50 51.0 ±0.25
25.64.□ 25.5 ±0.25 31.0 ±0.50 64.0 ±0.25
25.127. □ 25.5 ±0.25 31.0 ±0.50 127.0 ±0.25
25.178.□ 25.5 ±0.25 31.0 ±0.50 178.0 ±0.25
38.58.□ 38.5 ±0.25 45.0 ±0.50 58.0 ±0.25
38.89.□ 38.5 ±0.25 45.0 ±0.50 89.0 ±0.25
38.115.□ 38.5 ±0.25 45.0 ±0.50 115.0 ±0.25
38.152.□ 38.5 ±0.25 45.0 ±0.50 152.0 ±0.25
38.178.□ 38.5 ±0.25 45.0 ±0.50 178.0 ±0.25
51.89.□ 51.5 ±0.25 59.0 ±0.50 89.0 ±0.25
51.230.□ 51.5 ±0.25 59.0 ±0.50 230.0 ±0.25
51.476.□ 51.5 ±0.25 59.0 ±0.50 476.0 ±0.25
63.476.□ 63.5 ±0.25 72.0 ±0.50 476.0 ±0.25
63.762.□ 63.5 ±0.25 72.0 ±0.50 762.0 ±0.25
Disposable Filter Elements
Dimensions & Tolerances
Coalescing Types
Element
Code
Inside
Ø
Tolerance Outside
Ø
Tolerance Length Tolerance
10.57.□ 10.0 ±0.25 18.0 ±0.50 32.0 ±0.25
10.57.□ 10.0 ±0.25 18.0 ±0.50 57.0 ±0.25
12.32.□ 12.5 ±0.25 19.0 ±0.50 32.0 ±0.25
12.57.□ 12.5 ±0.25 19.0 ±0.50 57.0 ±0.25
25.35.□ 25.5 ±0.25 35.0 ±0.50 35.0 ±0.25
25.64.□ 25.5 ±0.25 35.0 ±0.50 64.0 ±0.25
27.64.□ 27.0 ±0.25 39.0 ±0.50 64.0 ±0.25
25.127. □ 25.5 ±0.25 35.0 ±0.50 127.0 ±0.25
25.178.□ 25.5 ±0.25 35.0 ±0.50 178.0 ±0.25
38.58.□ 38.5 ±0.25 50.0 ±0.50 58.0 ±0.25
38.89.□ 38.5 ±0.25 50.0 ±0.50 89.0 ±0.25
38.115.□ 38.5 ±0.25 50.0 ±0.50 115.0 ±0.25
38.152.□ 38.5 ±0.25 50.0 ±0.50 152.0 ±0.25
38.178.□ 38.5 ±0.25 50.0 ±0.50 178.0 ±0.25
51.89.□ 51.5 ±0.25 63.0 ±0.50 89.0 ±0.25
51.230.□ 51.5 ±0.25 63.0 ±0.50 230.0 ±0.25
51.476.□ 51.5 ±0.25 63.0 ±0.50 476.0 ±0.25
63.476.□ 63.5 ±0.25 76.0 ±0.50 476.0 ±0.25
63.762.□ 63.5 ±0.25 76.0 ±0.50 762.0 ±0.25
Disposable Filter Eelement Dimensions & Tolerances
Filter elements are available in a wide range of standard diameters and lengths. These are based on traditional industry standard sizes and
allow the element to be installed in other proprietary equipment.
This chart shows you a list of all our standard disposable filter elements, particulate and coalescing, along with their actual sizes in
millimetres and the standard tolerances we use in manufacturing.
Special size filter elements can also be produced that are not included on this chart. We can manufacture in a wide range of
different diameters and lengths.
Please enquire if you have any specific requirements.
Special Sizes
27. Filter Elements
Stainless Steel
CF/2.0/023
5-Layer Sintered Stainless Steel Elements
Stainless steel filter elements are made up of five layers of 316 mesh that are sintered together
to form an integrated porous element. The middle mesh is of very fine gauge and determines
the filtration rates, this layer is then overlaid with inner and outer layers of coarser mesh to give
support and protection.
Five Layers of SS Mesh
5-Layer Sintered Stainless Steel Element Grades
Seals Max. T. 1µm 2µm 5µm 10µm 20µm 40µm 100µm 200µm
Viton 200oC S1V S2V S5V S10V S20V S40V S100V S200V
Nitrile 110oC S1N S2N S5N S10N S20N S40N S100N S200N
EPDM 150oC S1E S2E S5E S10E S20E S40E S100E S200E
PTFE 200oC S1T S2T S5T S10T S20T S40T S100T S200T
Copper 480oC S1H S2H S5H S10H S20H S40H S100H S200H
Single Layer Woven Mesh SS Elements
These stainless steel filter elements are made up of a single layer of 316 woven wire mesh. Ideal
for applications where a low cost stainless steel filter alternative is required.
Due to the method of the construction these filter elements do not require any seals.
Single Layer SS Mesh
Woven Mesh Stainless Steel Element Grades
25µm 50µm 75µm 100µm 150µm 200µm 250µm 300µm 350µm 400µm
SS25 SS50 SS75 SS100 SS150 SS200 SS250 SS300 SS350 SS400
Filter Elements are available in a wide range of standard diameters and lengths. These are based on traditional industry standard
sizes and allow the elements to be installed in other proprietary equipment
12.32.□ 12.57.□ 25.64.□ 25.178.□ 38.58.□ 38.152.□ 51.89.□ 51.230.□ 51.476.□
Replace the □in the part numbers shown with the grade selected from the tables above.
Standard Sizes
These elements are
very useful in heavily
contaminated applications
and for use as pre-filters
before disposable type final
filters. Seals are required
and the options are, Viton,
PTFE, or copper-alloy for high
temperature applications.
The middle mesh determines the
filtration rate and this is overlaid with
inner and outer layers of coarser mesh
to give support.
12.32.□ 12.57.□ 25.64.□ 25.178.□ 38.152.□
Replace the □in the part numbers shown with the grade selected from the tables above.
Standard Sizes
28. Filter Elements
PTFE & PE
CF/2.0/024
PTFE Filter Elements
PTFE filter elements are produced by sintering pure PTFE granules, no other
substances are used in the construction. These filter elements are usually
offered when only 100% pure PTFE can be used. Normally it is preferable to
offer a K type disposable filter element, if these are suitable, as both pressure
drop and service life characteristics are superior to the PTFE filters.
The advantages of PTFE is the higher maximum temperature, up to 200°C,
and a better chemical resistance to certain substances. PTFE elements can be
ultrasonically cleaned.
PTFE filter elements can be supplied in 2, 20 or 40 micron.
PTFE Granules
PE Filter Elements
These polyethylene filter elements are sintered using pure PE granules. The
maximum temperature is 150°C
Ideal for applications where a low cost plastic filter element is required. Due to
the method of the construction these filter elements do not require any seals.
PE elements can be supplied in 2, 10, 20, 40 or 100 micron.
Special Sizes
Both the PTFE and PE elements can be supplied with special diameters and lengths.
Let us know what you need.
PE Granules
Filter Elements are available in a wide range of standard diameters and lengths. These are based on traditional industry standard
sizes and allow the elements to be installed in other proprietary equipment.
12.32.□ 12.57.□ 25.64.□ 25.178.□ 38.58.□ 38.152.□ 45.127.□ 51.89.□ 51.230.□ 51.476.□
Replace the □in the part numbers shown with the grade T2, T20, T40.
Filter Elements are available in a wide range of standard diameters and lengths. These are based on traditional industry standard
sizes and allow the elements to be installed in other proprietary equipment.
12.32.□ 12.57.□ 25.64.□ 25.178.□ 38.58.□ 38.152.□ 45.127.□ 51.89.□ 51.230.□ 51.476.□
Replace the □in the part numbers shown with the grade, PE2, PE10, PE20, PE40, PE100
Standard Sizes
Standard Sizes
PTFE Filter Element
PE Filter Element
29. Air Flow Rates
Disposable Type Filter Elements
CF/2.0/031
Air flow rates in Nm³/hr at stated line pressure with a 0.1 Bar pressure drop
Flow rates will depend on which filter element grade is installed in the filter housing. First check the size of the filter element installed using the
housing data sheets and then use the charts below to read the flow rate at the desired pressure against the element grade. Replace the □in the part
number shown with the required grade, for example 12.57.7K would be a grade 7 on the charts below.
The maximum flow rate also depends on the flow path though the housing - for housings with a smaller port size please consult us for the exact figure.
Notes (1) The above flow rates are for air at 20ºC. Flow rates for other gases can be derived from relative viscosity data.
(2) Flow rates are generally proportional to pressure drop. If an initial drop of 0.2 bar can be tolerated flow rates can be doubled.
4
5
6
7
8
12.32.□
1.6
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 350 7004
7.1
6.3
5.5
3.2
2.6
11.8
10.5
9.2
5.3
3.7
16.5
14.7
12.9
7.4
5.3
23.6
21.0
18.4
10.5
6.3
28.4
25.2
22.1
12.6
7.9
35.4
31.5
27.6
15.8
11.8
53.2
47.3
41.3
23.6
18.4
82.7
73.5
64.3
36.8
28.9
129.9
115.5
101.1
57.8
36.8
165.4
147.0
128.6
73.5
52.5
236.3
210.0
183.8
105.0
4
5
6
7
8
12.57.□
2.6
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 350 7004
11.5
10.2
8.9
5.1
4.3
19.1
17.0
14.9
8.5
6.0
26.8
23.8
20.8
11.9
8.5
38.3
34.0
29.8
17.0
10.2
45.9
40.8
35.7
20.4
12.8
57.4
51.0
44.6
25.5
19.1
86.1
76.5
66.9
38.3
29.8
133.9
119.0
104.1
59.5
46.8
210.4
187.0
163.6
93.5
59.5
267.8
238.0
208.3
119.0
85.0
382.5
340.0
297.5
170.0
4
5
6
7
8
25.64.□
5.6
Air Pressure (Bar), 1/2" Port Size
Grade 2 7 101 16 34 100 200 400 7004
25.0
22.2
19.4
11.1
9.3
41.6
37.0
32.4
18.5
13.0
58.3
51.8
45.3
25.9
18.5
83.3
74.0
64.8
37.0
22.2
99.9
88.8
77.7
44.4
27.8
124.9
111.0
97.1
55.5
41.6
187.3
166.5
145.7
83.3
64.8
291.4
259.0
226.6
129.5
101.8
457.9
407.0
356.1
203.5
138.8
624.4
555.0
485.6
277.5
185.0
832.5
740.0
647.5
370.0
4
5
6
7
8
25.178.□
15.8
Air Pressure (Bar), 3/4" Port Size
Grade 2 7 101 16 34 100 200 400 7004
70.9
63.0
55.1
31.5
26.3
118.1
105.0
91.9
52.5
36.8
165.4
147.0
128.6
73.5
52.5
236.3
210.0
183.8
105.0
63.0
283.5
252.0
220.5
126.0
78.8
354.4
315.0
275.6
157.5
118.1
531.6
472.5
413.4
236.3
183.8
826.9
735.0
643.1
367.5
288.8
1299.4
1155.0
1010.6
577.5
393.8
1771.9
1575.0
1378.1
787.5
525.0
2362.5
2100.0
1837.5
1050.0
4
5
6
7
8
38.152.□
20.3
Air Pressure (Bar), 1" Port Size
Grade 2 7 101 16 34 100 200 4004
91.1
81.0
70.9
40.5
33.8
151.9
135.0
118.1
67.5
47.3
212.6
189.0
165.4
94.5
67.5
303.8
270.0
236.3
135.0
81.0
364.5
324.0
283.5
162.0
101.3
455.6
405.0
354.4
202.5
151.9
683.4
607.5
531.6
303.8
236.3
1063.1
945.0
826.9
472.5
371.3
1670.6
1485.0
1299.4
742.5
506.3
2278.1
2025.0
1771.9
1012.5
4
5
6
7
8
51.230.□
41.9
Air Pressure (Bar), 2" Port Size
Grade 2 7 101 16 34 100 200 4004
188.3
167.4
146.5
83.7
69.8
313.9
279.0
244.1
139.5
97.7
439.4
390.6
341.8
195.3
139.5
627.8
558.0
488.3
279.0
167.4
753.3
669.6
585.9
334.8
209.3
941.6
837.0
732.4
418.5
313.9
1412.4
1255.5
1098.6
627.8
488.3
2197.1
1953.0
1708.9
976.5
767.3
3452.6
3069.0
2685.4
1534.5
1046.3
4708.1
4185.0
3661.9
2092.5
4
5
6
7
8
51.476.□
86.9
Air Pressure (Bar), 2" Port Size
Grade 2 7 101 16 34 100 200 4004
390.8
347.4
304.0
173.7
144.8
651.4
579.0
506.6
289.5
202.7
911.9
810.6
709.3
405.3
289.5
1302.8
1158.0
1013.3
579.0
347.4
1563.3
1389.6
1215.9
694.8
434.3
1954.1
1737.0
1519.9
868.5
651.4
2931.2
2605.5
2279.8
1302.8
1013.3
4559.6
4053.0
3546.4
2026.5
1592.3
7165.1
6369.0
5572.9
3184.5
2171.3
9770.6
8685.0
7599.4
4342.5
30. Air Pressure (Bar), 2" Port Size
S1
S2
S10
S20
S40
13.5
Air Pressure (Bar), 2" Port Size
Grade 2 7 101 16 34 100 200 4004
84.2
76.5
63.0
27.0
22.5
140.3
127.5
105.0
45.0
31.5
196.4
178.5
147.0
63.0
45.0
280.5
255.0
210.0
90.0
54.0
396.0
306.0
252.0
108.0
67.5
420.8
382.5
315.0
135.0
101.3
631.1
573.8
472.5
202.5
157.5
981.8
892.5
735.0
315.0
247.5
1542.8
1402.5
1155.0
495.0
337.5
2475.0
1912.5
1575.0
675.0
S100
S200 172.1
130.1
286.9
216.8
401.6
303.5
573.8
433.5
810.0
612.0
860.6
650.3
1290.9
975.4
2008.1
1517.3
3155.6
2384.3
5062.5
3825.0
51.230.□
Air Flow Rates
Stainless Steel Filter Elements
CF/2.0/032
Air flow rates in Nm³/hr at stated line pressure with a 0.1 Bar pressure drop
Flow rates will depend on which filter element grade is installed in the filter housing. First check the size of the filter element installed using the
housing data sheets and then use the charts below to read the flow rate at the desired pressure against the element grade. Replace the □in the part
number shown with the required grade, for example 12.57.S2V would be a grade S2 on the charts below.
The maximum flow rate also depends on the flow path though the housing - for housings with a smaller port size please consult us for the exact figure.
Notes (1) The above flow rates are for air at 20ºC. Flow rates for other gases can be derived from relative viscosity data.
(2) Flow rates are generally proportional to pressure drop. If an initial drop of 0.2 bar can be tolerated flow rates can be doubled.
S1
S2
S10
S20
S40
0.5
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 350 7004
2.8
2.6
2.1
0.9
0.8
4.7
4.3
3.5
1.5
1.1
6.5
6.0
4.9
2.1
1.5
9.4
8.5
7.0
3.0
1.8
13.2
10.2
8.4
3.6
2.3
14.0
12.8
10.5
4.5
3.4
21.0
19.1
15.8
6.8
5.3
32.7
29.8
24.5
10.5
8.3
51.4
46.8
38.5
16.5
10.5
77.0
59.5
49.0
21.0
15.0
110.0
85.0
70.0
30.0
S100
S200 5.7
4.3
9.6
7.2
13.4
10.1
19.1
14.5
27.0
20.4
28.7
21.7
43.0
32.5
66.9
50.6
105.2
79.5
157.5
119.0
225.0
170.0
12.32.□
S1
S2
S10
S20
S40
0.8
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 350 7004
4.8
4.3
3.6
1.5
1.3
7.9
7.2
6.0
2.6
1.8
11.1
10.1
8.3
3.6
2.6
15.9
14.5
11.9
5.1
3.1
22.4
17.3
14.3
6.1
3.8
23.8
21.7
17.9
7.7
5.7
35.8
32.5
26.8
11.5
8.9
55.6
50.6
41.7
17.9
14.0
87.4
79.5
65.5
28.1
17.9
130.9
101.2
83.3
35.7
25.5
187.0
144.5
119.0
51.0
S100
S200 9.8
7.4
16.3
12.3
22.8
17.2
32.5
24.6
45.9
34.7
48.8
36.8
73.2
55.3
113.8
86.0
178.8
135.1
267.8
202.3
382.5
289.0
12.57.□
S1
S2
S10
S20
S40
1.8
Air Pressure (Bar), 1/2" Port Size
Grade 2 7 101 16 34 100 200 400 7004
10.9
9.9
8.2
3.5
2.9
18.2
16.6
13.7
5.9
4.1
25.5
23.2
19.1
8.2
5.9
36.5
33.2
27.3
11.7
7.0
51.5
39.8
32.8
14.0
8.8
54.7
49.7
41.0
17.6
13.2
82.0
74.6
61.4
26.3
20.5
127.6
116.0
95.6
41.0
32.2
200.6
182.3
150.2
64.4
43.9
321.8
248.6
204.8
87.8
58.5
429.0
331.5
273.0
117.0
S100
S200 22.4
16.9
37.3
28.2
52.2
39.4
74.6
56.4
105.3
79.6
111.9
84.5
167.8
126.8
261.1
197.2
410.2
310.0
658.1
497.3
877.5
663.0
25.64.□
S1
S2
S10
S20
S40
5.2
Air Pressure (Bar), 3/4" Port Size
Grade 2 7 101 16 34 100 200 400 7004
32.3
29.3
24.2
10.4
8.6
53.8
48.9
40.3
17.3
12.1
75.3
68.4
56.4
24.2
17.3
107.5
97.8
80.5
34.5
20.7
151.8
117.3
96.6
41.4
25.9
161.3
146.6
120.8
51.8
38.8
241.9
219.9
181.1
77.6
60.4
376.3
342.1
281.8
120.8
94.9
591.4
537.6
442.8
189.8
129.4
948.8
733.1
603.8
258.8
172.5
1265.0
977.5
805.0
345.0
S100
S200 66.0
49.9
110.0
83.1
154.0
116.3
219.9
166.2
310.5
234.6
329.9
249.3
494.9
373.9
769.8
581.6
1209.7
914.0
1940.6
1466.3
2587.5
1955.0
25.178.□
S1
S2
S10
S20
S40
6.8
Air Pressure (Bar), 1" Port Size
Grade 2 7 101 16 34 100 200 4004
38.3
31.5
15.8
11.3
63.8
52.5
26.3
15.8
89.3
73.5
36.8
22.5
127.5
105.0
52.5
27.0
153.0
126.0
63.0
33.8
191.3
157.5
78.8
50.6
286.9
236.3
118.1
78.8
446.3
367.5
183.8
123.8
701.3
577.5
288.8
168.8
956.3
787.5
393.8
86.1 143.4 200.8 286.9 405.0 430.3 645.5 1004.1 1577.8 2531.3
S100
S200
65.0
42.1
108.4
70.1
151.7
98.2
216.8
140.3
306.0
198.0
325.1
210.4
487.7
315.6
758.6
490.9
1192.1
771.4
1912.5
1237.5
38.152.□
S1
S2
S10
S20
S40
28.4
Grade 2 7 101 16 34 100 200 4004
176.7
160.7
132.3
56.7
47.3
294.5
267.8
220.5
94.5
66.2
412.3
374.9
308.7
132.3
94.5
589.1
535.5
441.0
189.0
113.4
831.6
642.6
529.2
226.8
141.8
883.6
803.3
661.5
283.5
212.6
1325.4
1204.9
992.3
425.3
330.8
2061.7
1874.3
1543.5
661.5
519.8
3239.8
2945.3
2425.5
1039.5
708.8
5197.5
4016.3
3307.5
1417.5
S100
S200 361.5
273.1
602.4
455.2
843.4
637.2
1204.9
910.4
1701.0
1285.2
1807.3
1365.5
2711.0
2048.3
4217.1
3186.2
6626.8
5006.9
10631.3
8032.5
51.476.□
31. T2 PE2
PE10
T20 PE20
T40 PE40
PE100
51.476.□
9.3
Air Pressure (Bar), 2" Port Size
Grade 2 7 101 16 34 100 200 4004
69.8
60.5
27.9
27.9
15.5
116.3
100.8
69.8
46.5
21.7
162.8
141.1
97.7
65.1
31.0
232.5
201.5
139.5
93.0
37.2
279.0
241.8
167.4
111.6
46.5
348.8
302.3
209.3
139.5
69.8
523.1
453.4
313.9
209.3
108.5
813.8
705.3
488.3
325.5
170.5
1278.8
1108.3
767.3
511.5
232.5
1743.8
1511.3
1046.3
697.5
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
51.230.□
4.5
Air Pressure (Bar), 2" Port Size
Grade 2 7 101 16 34 100 200 4004
33.8
29.3
20.3
13.5
7.5
56.3
48.8
33.8
22.5
10.5
78.8
68.3
47.3
31.5
15.0
112.5
97.5
67.5
45.0
18.0
135.0
117.0
81.0
54.0
22.5
168.8
146.3
101.3
67.5
33.8
253.1
219.4
151.9
101.3
52.5
393.8
341.3
236.3
157.5
82.5
618.8
536.3
371.3
247.5
112.5
843.8
731.3
506.3
337.5
Air Flow Rates
PTFE & PE Filter Elements
CF/2.0/033
Air flow rates in Nm³/hr at stated line pressure with a 0.1 Bar pressure drop
Flow rates will depend on which filter element grade is installed in the filter housing. First check the size of the filter element installed using the
housing data sheets and then use the charts below to read the flow rate at the desired pressure against the element grade. Replace the □in the part
number shown with the required grade, for example 12.57.T20 would be a grade T20 on the charts below.
The maximum flow rate also depends on the flow path though the housing - for housings with a smaller port size please consult us for the exact figure.
Notes (1) The above flow rates are for air at 20ºC. Flow rates for other gases can be derived from relative viscosity data.
(2) Flow rates are generally proportional to pressure drop. If an initial drop of 0.2 bar can be tolerated flow rates can be doubled.
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
12.32.□
0.2
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 400 7004
1.1
1.0
0.7
0.5
0.3
1.9
1.6
1.1
0.8
0.4
2.6
2.3
1.6
1.1
0.5
3.8
3.3
2.3
1.5
0.6
4.5
3.9
2.7
1.8
0.8
5.6
4.9
3.4
2.3
1.1
8.4
7.3
5.1
3.4
1.8
13.1
11.4
7.9
5.3
2.8
20.6
17.9
12.4
8.3
3.5
26.3
22.8
15.8
10.5
5.0
37.5
32.5
22.5
15.0
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
12.57.□
0.3
Air Pressure (Bar), 1/4" Port Size
Grade 2 7 101 16 34 100 200 400 7004
2.0
1.8
1.2
0.8
0.5
3.4
2.9
2.0
1.4
0.6
4.7
4.1
2.8
1.9
0.9
6.8
5.9
4.1
2.7
1.1
8.1
7.0
4.9
3.2
1.4
10.1
8.8
6.1
4.1
2.0
15.2
13.2
9.1
6.1
3.2
23.6
20.5
14.2
9.5
5.0
37.1
32.2
22.3
14.9
6.3
47.3
41.0
28.4
18.9
9.0
67.5
58.5
40.5
27.0
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
25.64.□
0.6
Air Pressure (Bar), 1/2" Port Size
Grade 2 7 101 16 34 100 200 400 7004
4.5
3.9
2.7
1.8
1.0
7.5
6.5
4.5
3.0
1.4
10.5
9.1
6.3
4.2
2.0
15.0
13.0
9.0
6.0
2.4
18.0
15.6
10.8
7.2
3.0
22.5
19.5
13.5
9.0
4.5
33.8
29.3
20.3
13.5
7.0
52.5
45.5
31.5
21.0
11.0
82.5
71.5
49.5
33.0
15.0
112.5
97.5
67.5
45.0
20.0
150.0
130.0
90.0
60.0
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
25.178.□
1.7
Air Pressure (Bar), 3/4" Port Size
Grade 2 7 101 16 34 100 200 400 7004
13.1
11.3
7.8
5.2
2.9
21.8
18.9
13.1
8.7
4.1
30.5
26.4
18.3
12.2
5.8
43.5
37.7
26.1
17.4
7.0
52.2
45.2
31.3
20.9
8.7
65.3
56.6
39.2
26.1
13.1
97.9
84.8
58.7
39.2
20.3
152.3
132.0
91.4
60.9
31.9
239.3
207.4
143.6
95.7
43.5
326.3
282.8
195.8
130.5
58.0
435.0
377.0
261.0
174.0
T2 PE2
PE10
T20 PE20
T40 PE40
PE100
38.152.□
2.3
Air Pressure (Bar), 1" Port Size
Grade 2 7 101 16 34 100 200 4004
16.9
14.6
10.1
6.8
3.8
28.1
24.4
16.9
11.3
5.3
39.4
34.1
23.6
15.8
7.5
56.3
48.8
33.8
22.5
9.0
67.5
58.5
40.5
27.0
11.3
84.4
73.1
50.6
33.8
16.9
126.6
109.7
75.9
50.6
26.3
196.9
170.6
118.1
78.8
41.3
309.4
268.1
185.6
123.8
56.3
421.9
365.6
253.1
168.8
32. Notes (1) The above flow rates are for water ans oil at 20ºC. Flow rates for other liquids can be derived from relative viscosity data.
(2) Flow rates are generally proportional to pressure drop. If an initial drop of 0.2 bar can be tolerated flow rates can be doubled.
(3) Flow rates are generally inversely proportional to liquid viscosity.
(4) Water = 1 centipoise, for higher viscosity liquids divide the flow rates by the actual viscosity in centipoise.
(5) Flow rate limited by the port dimensions. Please contact us to discuss larger port options..
Liquid Flow Rates
Stainless Steel Filter Elements
CF/2.0/034
Liquid flow rates in Lts/hr at 0.15 Bar pressure drop
Flow rates will depend on which filter element grade is installed in the filter housing. First check the size of the filter element using the housing data
sheets and then use the charts below to read the flow rate against the element grade. Replace the □in the part number shown with the required grade,
for example 12.57.S20V
The figures shown here are based on the viscosity of water and oil (32cSt). See note (4) for other liquids.
Water
Oil (32 cSt)
12.57.□
6
Flow Rates in Ltrs/hr for 1/4" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
0.2
12
0.4
31
1.1
61
2.2
122
4.4
183
6.6
244
8.8
489
17.5
Water
Oil (32 cSt)
12.32.□
3.0
Flow Rates in Ltrs/hr 1/8" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
0.1
7.0
0.2
16
0.6
33
1.2
66
2.4
98
3.5
131
4.7
262
9.4
Water
Oil (32 cSt)
25.178.□
41
Flow Rates in Ltrs/hr for 1/2" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
1.5
82
3.0
206
7.4
412
14.8
825
29.6
1080(5)
38.7(5)
1080(5)
38.7(5)
1080(5)
38.7(5)
Water
Oil (32 cSt)
25.64.□
14
Flow Rates in Ltrs/hr for 1/4" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
0.5
29
1.0
72
2.6
144
5.2
287
10.3
481
15.5
575
20.6
720(5)
25.8(5)
Water
Oil (32 cSt)
51.230.□
109
Flow Rates in Ltrs/hr for 1" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
3.9
218
7.8
546
19.6
1091
39.1
2182
78.2
3273
117.3
4364
156.4
6840(5)
245.1(5)
Water
Oil (32 cSt)
38.152.□
53
Flow Rates in Ltrs/hr for 3/4" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
1.9
107
3.8
267
9.6
534
16.1
1067
38.2
1601
57.4
2135
76.5
4269
153.0
Water
Oil (32 cSt)
51.476.□
227
Flow Rates in Ltrs/hr for 2" Port Sizes
S2 S10 S20S1 S40 S100 S200S5
8.1
455
16.3
1137
40.7
2274
81.5
4547
163.0
6821
224.4
9094
325.9
18188
651.8
33. PTFE Membranes
Grades & Dimensions
PTFE porous membranes are manufactured from a pure PTFE. They have a
good strength, but remain flexible for easy installation. PTFE membranes
extremely inert and have very low absorption levels.
CF/2.0/040
Special Sizes
Liquid/Liquid Applications
Sample
Outlet
Inlet
Bypass/Drain
Sample
Outlet
Inlet
Bypass/Drain
Special
Flow Path
Microscopic pores in the membrane allow the gas to flow through easily, but
even the smallest liquid aerosols are prevented. The high surface tension of the
liquid molecules cause them to be formed tightly together making them too
large to fit through the pores of the membrane.
The principles are the same as for the gas application membranes - the higher
surface tension of the water molecules cause them to be formed tightly
together making them too large to fit through the pores of the membrane.
The M8 grade has a special support layer on the reverse of the membrane to
increase the maximum pressure drop.
To ensure water is removed from the liquid hydrocarbon stream the contact
time with the membrane should be maximised and the SML housings feature a
special flow-path to do this.
Special size membranes can also be manufactured in a range of
different diameters.
Please enquire with any specific requirements.
PTFE MembranePTFE membranes are available in a wide range of standard diameters. These
are based on traditional industry standard sizes and allow the elements to be
installed in other proprietary equipment.
MT.19.□ MT.33.□ MT.47.□ MT.61.□ MT.89.□ MT.101.□
Replace the □in the part numbers shown with the grade selected from the tables
below.
Standard Sizes
Gas Applications
Grade Type Pore Size Thickness
M1 Hydrophobic 0.1 μm 50 μm
M2 Hydrophobic 0.8 μm 50 μm
M3 Hydrophobic & Oleophobic 0.1 μm 50 μm
M4 Hydrophobic & Oleophobic 0.8 μm 50 μm
Liquid/Liquid Applications
Grade Type Pore Size Thickness
M8 Hydrophobic with Support Layer 0.8 μm 150 μm
34. Gas Flow Rates
Flow Rates
PTFE Membranes
CF/2.0/041
Gas and Liquid Flow rates in litres/hr at 0.1 Bar pressure drop
Flow rates will depend on which membrane grade is installed in the membrane housing. First check the size of the filter element using the housing data
sheets and then refer to the charts below to read the flow rate against the membrane grade. Replace the □ in the part number shown with the required
grade, for example MT.33.M2
For housings that have two membranes installed the flow rates can be doubled.
Notes (1) Flow rates are generally proportional to pressure drop. If an initial drop of 0.2 bar can be tolerated flow rates can be doubled.
MT.33.□
15
Grade Air
480
15
480
M1
M4
M3
M2
MT.19.□
9
Grade Air
275
9
275
M1
M4
M3
M2
MT.47.□
22
Grade Air
685
22
685
M1
M4
M3
M2
MT.61.□
29
Grade Grade GasolineAir Kerosene Diesel
890
29
890
M8 79 34 29M1
M4
M3
M2
MT.89.□
42
Grade Grade GasolineAir Kerosene Diesel
1290
42
1290
M8 115 49 42M1
M4
M3
M2
MT.101.□
48
Grade Air
1450
48
1450
M1
M4
M3
M2
Liquid/Liquid Flow Rates
Grade Gasolene Kerosene Diesel
M8 24.6 10.6 9.0
Grade Gasoline Kerosene Diesel
M8 42.7 18.4 15.7
Grade Gasoline Kerosene Diesel
M8 60 26 22
Grade Gasoline Kerosene Diesel
M8 130 56 48
35. DIF
Small Disposable In-Line Filters
Materials Polyamide & PVDF
Pressure Up to 8 Bar
Ports 1/4”or 6mm Spigots
Element 12.16.□ & 12.32.□
Disposable In-Line Filters (DIF.M and DIF) consist of
permanently welded housings with encapsulated
microfibre filter elements. This makes them ideal for
portable analysers and other analysis systems requiring a
robust and easily replaceable filter.
A choice of body materials makes them suitable for a
wide range of chemical environments. The units on this
page are designed for particulate removal in gas and
liquid applications. The K type filter element is fitted as
standard, but other element types can also be installed.
Replace the □in the part number with the grade
required, for example DIF.N5K
For larger size DIFs see data sheet CF/2.0/050a.
Notes
(1) Replace the □with the grade required, e.g. DIF.N5K
(2) Material abbreviations, PA = Polyamide, PVDF = Polyvinylidenediflouride
(3) Other binder types available to order
CF/2.0/050
DIF.MN□ DIF.N□
Technical Specifications
Housing Model (1)
Port Spigot Size
Maximum Presure, Bar
Maximum Temperature, oC
At 0 Bar
At Maximum Pressure,
Materials of Construction (2)
Body
Filter Element Size
Standard Element (3)
Principal Dimensions in mm
Diameter
Body Length
Spigot Length
Volume, cc
DIF.MN□
Ø 1/4"
8
110
50
PA
12.16
K Type
25
27.5
7.5
6
DIF.MN□.6mm
Ø 6mm
8
110
50
PA
12.16
K Type
25
27.5
7.5
6
DIF.MK□
Ø 1/4"
4
120
50
PVDF
12.16
K Type
25
27.5
7.5
6
DIF.MK□.6mm
Ø 6mm
4
120
50
PVDF
12.16
K Type
25
27.5
7.5
6
DIF.N□
Ø 1/4"
8
110
50
PA
12.32
K Type
25
43.5
20
11
DIF.N□.6mm
Ø 6mm
8
110
50
PA
12.32
K Type
25
43.5
20
11
DIF.K□
Ø 1/4"
4
120
50
PVDF
12.32
K Type
25
53.5
20
11
DIF.K□.6mm
Ø 6mm
4
120
50
PVDF
12.32
K Type
25
43.5
20
11
36. DIF
Disposable In-Line Filters
Materials Polyamide & PVDF
Pressure Up to 8 Bar
Ports 1/4”or 1/2”Spigots
Element 12.57.□ & 25.64.□
Disposable In-Line Filters (DIF.I & DIF.L) consist of
permanently welded housings with encapsulated
microfibre filter elements. This makes them ideal for
portable analysers and other analysis systems requiring
a robust and easily replaceable filter.
A choice of body materials makes them suitable for a
wide range of chemical environments. The units on this
page are designed for particulate removal in gas and
liquid applications. The K type filter element is fitted as
standard, but other element types can also be installed.
The DIF.IN & DIF.IK can be supplied with a drain port
spigot for coalescing application.
Replace the □in the part number with the grade
required, for example DIF.LN5K
Notes
(1) Replace the □with the grade required, e.g. DIF.IN5K
(2) DIF.IN and DIF.IK has the drain port option when fitted with a coalescing filter element e.g. DIF.IN5CK
(3) Material abbreviations, PA = Polyamide, PVDF = Polyvinylidenediflouride
(4) Other binder types available to order
CF/2.0/050
DIF.IN□ DIF.LK□
Technical Specifications
Housing Model (1&2)
Port Spigot Size
Maximum Presure, Bar
Maximum Temperature, oC
At 0 Bar
At Maximum Pressure,
Materials of Construction (3)
Body
Filter Element Size
Standard Element (4)
Principal Dimensions in mm
Diameter
Body Length
Spigot Length
Volume, cc
DIF.IN□
Ø 1/4"
8
110
50
PA
12.57
K Type
36.5
73.5
20
50
DIF.IK□
Ø 1/4"
4
120
50
PVDF
12.57
K Type
36.5
73.5
20
50
DIF.LN□
Ø 1/2"
8
110
50
PA
25.64
K Type
51
79
24
110
DIF.LN□.201
1/4" NPT(M)
8
120
50
PA
25.64
K Type
51
79
24
110
DIF.LK□
Ø 1/2"
4
110
50
PVDF
25.64
K Type
51
79
24
110
DIF.LK□.201
1/4" NPT(M)
4
120
50
PVDF
25.64
K Type
51
79
24
110
Drain Option
37. DIA
Disposable In-Line Adsorbers
Materials Polyamide & PVDF
Pressure Up to 8 Bar
Ports 1/4”or 1/2”Spigots
Adsorbers Various
Disposable In-Line Adsorbers (DIA) consist of polyamide
or PVDF bodies filled with granular adsorption material
with integral inlet and outlet filter pads. Two body sizes
are available, containing approximately 11cc and 110cc
of adsorbent.
Flow rates are the same as for grade 5 elements in the
same size bodies. However, with adsorption more
important considerations will be the volume of
adsorbent and the contact time.
A range of adsorber materials are available, these are
listed below. Replace the □in the part number with the
type required.
Technical Specifications
Housing Model (1)
Port Size
Maximum Presure, Bar
Maximum Temperature, oC
At 0 Bar
At Maximum Pressure
Materials of Construction (2)
Body
Adsober (see table below)
Principal Dimensions in mm
Diameter
Body Length
Spigot Length
Volume, cc
Notes
(1) Replace the □with the adsorber required, e.g. DIA.N01
(2) Material abbreviations, PA = Polyamide, PVDF = Polyvinylidenediflouride
CF/2.0/051
DIA.N□ DIA.LN□
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
DIA.N□
Ø 1/4" Spigot
8
110
50
PA
25
43.5
20
11
DIA.N□.6mm
Ø 6mm Spigot
8
110
50
PA
25
43.5
20
11
DIA.K□
Ø 1/4" Spigot
4
120
50
PVDF
25
43.5
20
11
DIA.K□.6mm
Ø 6mm Spigot
4
120
50
PVDF
25
43.5
20
11
DIA.LN□
Ø 1/2" Spigot
8
110
50
PA
51
79
24
110
DIA.LN□.201
Ø 1/4" NPT(M)
8
120
50
PA
51
79
24
110
DIA.LK□
Ø 1/2" Spigot
4
110
50
PVDF
51
79
24
110
DIA.LK□.201
Ø 1/4" NPT(M)
4
120
50
PVDF
51
79
24
110
38. Adsorber Cartridges
for Filter Housings
Technical Specifications
Cartridge Type (1)
Maximum Temperature, oC
Materials of Construction
Body
End Caps
Seal
Filter Pads
Spring
Adsorber (see table below)
Notes
(1) Replace the first □with the cartridge size and the second □ with the adsorber required, e.g. 12.57.AS01
CF/2.0/052
□.AD□
50
Microfibre Filters
PA
Viton
-
-
□.AT□
50
Acrylic
PA
Viton
PE
-
□.AS□
50
Acrylic
PA
Viton
PE
SS
AD Type
Cartridge Types
We have three different styles of adsorber cartridge
available - each designed for a particular filter housing.
The AD and AT types can be installed into a standard
housing. The AS is designed for small stainless steel
housings and to install this type the housing tie rod
should be removed.
Refer to the housing data sheets to select the correct size
and type of cartridge required.
Vapour Adsorption
Coalescing filter elements will only remove liquid
aerosols and droplets. If there is a liquid in vapour form to
be removed then an adsorber cartridge should be used in
an additional housing as a final stage.
Adsorption cartridges can also be used to remove
elements of a gas, for example acidic gases. A range of
adsorber materials are available and these are listed
below.
Standard Sizes
12.32. □ 12.57. □ 25.64. □ 25.178. □ 32.152. □ 51.230. □ 51.476. □
AT Type AS Type
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
39. Adsorber Columns
for Granular Media
Technical Specifications
Housing Model
Port Sizes
Maximum Pressure, Bar
Maximum Temperature, oC
Materials of Construction
Body
End Caps
Filter Pads
Principal Dimensions in mm
Diameter
Height
Volume, cc
CF/2.0/053
NAD.38.150
1/4" NPT
6
50
Acrylic
POM
PE
38
150
80
Granular Adsorber Media
A range of granular adsorber materials are available and
these are listed below. together with the principle uses.
We are pleased to advise about any special applications
you may have. The media is supplied in resealable plastic
containers and two sizes are available, 1 litre or 4 litres.
Vapour Adsorption Columns
Our in-line Adsorption Housings are for the adsorption
of various vapours and gas types within a gas stream and
provide a simple, low-cost solution. Adsorption columns
can also be used to remove specific elements of a gas, for
example acidic gases. The media can easily be replaced
as the housings have a threaded connection and o-ring
seals at each end. Replaceable filter pads are included to
contain the media and also remove any loose particles
from the granules. It is recommended to use a coalescing
filter housing as a pre-filter to remove liquid aerosols and
droplets.
NAD.38.150
NAD.38.250
1/4" NPT
6
50
Acrylic
POM
PE
38
250
160
NAD.100.650
1/4" NPT
2
50
Acrylic
POM
PE
100
650
4100
NAD.50.200
1/4" NPT
5
50
Acrylic
POM
PE
50
200
215
NAD.50.350
1/4" NPT
5
50
Acrylic
POM
PE
50
350
440
NAD.70.250
1/4" NPT
3
50
Acrylic
POM
PE
70
250
610
NAD.70.450
1/4" NPT
3
50
Acrylic
POM
PE
70
450
1255
NAD.70.650
1/4" NPT
3
50
Acrylic
POM
PE
70
650
1900
NAD.100.450
1/4" NPT
2
50
Acrylic
POM
PE
100
450
2700
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
40. NN212.AD & NN232.AD
Absorber Housing
Materials Polyamide
Pressure 10 Bar
Ports 1/4”or 1/2”
Technical Specifications
Housing Model
Port Size
Drain
Maximum Pressure, Bar
Maximum Temperature, oC
Materials of Construction
Head, Bowl & Internals
Seals
Filter Pads
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Accessories
Mounting Bracket
CF/2.1/054
NN212.201.AD
1/4" NPT
None
10
50
PA
Viton
PE
65
147
125
0.2
MBSS21
NN212.401.AD
1/2" NPT
None
10
50
PA
Viton
PE
65
147
125
0.2
MBSS21
NN232.201.AD
1/4" NPT
None
10
50
PA
Viton
PE
65
246
250
0.25
MBSS21
NN232.401.AD
1/2" NPT
None
10
50
PA
Viton
PE
65
246
250
0.25
MBSS21
The NN212 & NN232 Adsorber Housings are a simple,
cost effective solution for the adsorption of various
chemical vapours in a gaseous stream. The hollow tube,
with integral filter diverts the gas flow to the base of
the bowl allowing complete passage of gas through the
adsorber granules. Simply remove the filter bowl without
disturbing the line connections to replace the used
adsorber media. It is recommended to use a coalescing
filter housing as a pre-filter to remove liquid aerosols and
droplets.
Housings are available with 1/4" or 1/2" ports and have
NPT ports and Viton seals. Other seal types are available
as an option. BSPT and BSPP port types are also available.
A range of granular adsorber materials are available and
these are listed below. together with the principle uses.
We are pleased to advise about any special applications
you may have. The media is supplied in resealable plastic
containers and two sizes are available, 1 litre or 4 litres.
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
41. SS127.AD
Absorber Housing
Materials 316L Stainless Steel
Pressure 350 Bar
Ports 1/8”or 1/4”
The SS127 Adsorber Housings are a compact, simple but
high performance solution for the adsorption of various
chemical vapours in a gaseous stream. The hollow tube,
with integral filter diverts the gas flow to the base of
the bowl allowing complete passage of gas through the
adsorber granules. Simply remove the filter bowl without
disturbing the line connections to replace the used
adsorber media. It is recommended to use a coalescing
filter housing as a pre-filter to remove liquid aerosols and
droplets.
Housings are available with 1/4" or 1/2" ports and have
NPT ports and Viton seals. Other seal types are available
as an option. BSPT and BSPP port types are also available.
A range of granular adsorber materials are available and
these are listed below. together with the principle uses.
We are pleased to advise about any special applications
you may have. The media is supplied in resealable plastic
containers and two sizes are available, 1 litre or 4 litres.
Technical Specifications
Housing Model
Port Size
Drain
Maximum Pressure, Bar
Maximum Temperature, oC
Materials of Construction
Head, Bowl & Internals
Seals
Filter Disc
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Accessories
Mounting Bracket
CF/2.0/054a
SS127.101.AD
1/8" NPT
None
350
200
316L SS
Viton
316L SS
36
103.5
25
0.5
MBSS11
SS127.201.AD
1/4" NPT
None
350
200
316L SS
Viton
316L SS
36
103.5
25
0.5
MBSS11
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
42. SS215.AD & SS235.AD
Absorber Housing
Materials 316L Stainless Steel
Pressure 100 Bar
Ports 1/4”or 1/2”
The SS215 and SS235 Adsorber Housings are a simple but
high performance solution for the adsorption of various
chemical vapours in a gaseous stream. The hollow tube,
with integral filter diverts the gas flow to the base of
the bowl allowing complete passage of gas through the
adsorber granules. Simply remove the filter bowl without
disturbing the line connections to replace the used
adsorber media. It is recommended to use a coalescing
filter housing as a pre-filter to remove liquid aerosols and
droplets.
Housings are available with 1/4" or 1/2" ports and have
NPT ports and Viton seals. Other seal types are available
as an option. BSPT and BSPP port types are also available.
A range of granular adsorber materials are available and
these are listed below. together with the principle uses.
We are pleased to advise about any special applications
you may have. The media is supplied in resealable plastic
containers and two sizes are available, 1 litre or 4 litres.
Technical Specifications
Housing Model
Port Size
Drain
Maximum Pressure, Bar
Maximum Temperature, oC
Materials of Construction
Head, Bowl & Internals
Seals
Filter Pads
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Accessories
Mounting Bracket
CF/2.0/055
SS215.201.AD
1/4" NPT
None
100
50
316L SS
Viton
PE
60
128.5
110
1.45
MBSS21
SS215.401.AD
1/2" NPT
None
100
50
316L SS
Viton
PE
60
128.5
110
1.45
MBSS21
SS235.201.AD
1/4" NPT
None
100
50
316L SS
Viton
PE
60
241.5
220
1.95
MBSS21
SS235.401.AD
1/2" NPT
None
100
50
316L SS
Viton
PE
60
241.5
220
1.95
MBSS21
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
43. SS218.AD & SS238.AD
Absorber Housing
Materials 316L Stainless Steel
Pressure 400 Bar
Ports 1/4”or 1/2”
The SS218 and SS238 Adsorber Housings are a simple but
high performance solution for the adsorption of various
chemical vapours in a gaseous stream. The hollow tube,
with integral filter diverts the gas flow to the base of
the bowl allowing complete passage of gas through the
adsorber granules. Simply remove the filter bowl without
disturbing the line connections to replace the used
adsorber media. It is recommended to use a coalescing
filter housing as a pre-filter to remove liquid aerosols and
droplets.
Housings are available with 1/4" or 1/2" ports and have
NPT ports and Viton seals. Other seal types are available
as an option. BSPT and BSPP port types are also available.
A range of granular adsorber materials are available and
these are listed below. together with the principle uses.
We are pleased to advise about any special applications
you may have. The media is supplied in resealable plastic
containers and two sizes are available, 1 litre or 4 litres.
Technical Specifications
Housing Model
Port Size
Drain
Maximum Pressure, Bar
Maximum Temperature, oC
Materials of Construction
Head, Bowl & Internals
Seals
Filter Pads
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Accessories
Mounting Bracket
CF/2.0/056
SS218.201.AD
1/4" NPT
None
400
50
316L SS
Viton
PE
85
147
110
2.55
MBSS218
SS218.401.AD
1/2" NPT
None
400
50
316L SS
Viton
PE
85
147
110
2.55
MBSS218
SS238.201.AD
1/4" NPT
None
400
50
316L SS
Viton
PE
85
264
220
5.75
MBSS218
SS238.401.AD
1/2" NPT
None
400
50
316L SS
Viton
PE
85
264
220
5.75
MBSS218
Grade
01
02
03
04
05
05a
06
07
08
Adsorber
Activated Carbon Granules
Activated Carbon Cloth
Molecular Sieve 4A
Molecular Sieve 13X
Silica Gel (Blue)
Silica Gel (Orange)
Mixed Bases (Soda Lime)
Potassium Permanganate
Hopcalite
Principle Uses
Removal of hydrocarbons and other organic vapours
Removal of hydrocarbons and other organic vapours
Removal of CO2, NH3, H2S, SOx
Removal of CO2, NH3, H2S, SOx, aromatics, amines
Removal of water vapour
Removal of water vapour
Removal of acidic gases, CO2, SOX, NOX, HCl
Removal of SOX and other acidic gases
Removal of CO by catalytic conversions to CO2
44. SH017
SP76 Modular Filter Housing
Materials 316L Stainless Steel
Pressure 350 Bar
Ports SP76 & 1/8”
Element 10.32.□
The SH027 series SP76 filter housings are designed for
SP76 compliant modular sample systems. The housings
can be used for particulate or coalescing applications.
Coalescing housings have a drain port. If a housing is
used for coalescing any liquid in the sample will flow to
the 1/8" NPT drain port.
The coalescing housings should only be used on a
substrate that is mounted in the horizontal plane with
the drain port at the lowest point below the inlet and
outlet ports.
The housing design allows a quick change of the element
as all the line connections are arranged in the body of the
housing.
The housings are free from welds and comply with NACE
MR-01-75 and are CE marked in accordance with PED
97/23/EC.
Technical Specifications
Housing Model
Inlet/Outlet Connections
Drain
Maximum Pressure, Bar
Maximum Temperature, oC (1)
Flow Direction
Substrate Plane
Inlet
Outlet
Materials of Construction (2)
Head, Bowl & Internals
Seals (3)
Filter Element Code (4)
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Notes
(1) Above 200oC the pressure rating is reduced, consult us for the exact rating at any specific temperature
(2) Material abbreviations, 316L SS = 316L Stainless Steel
(3) Add suffix for other seal types, PTFE = .T, Chemraz = .C, Nitrile = N, Kalrez = .K, EPDM = .E, Silicone = .S, (e.g. SH027.R11.T)
(4) Replace the □with the grade required, e.g. 10.57.5CK
SH017.L01
SP76
None
350
200
Left to Right
Any
Hole 1
Hole 2
316L SS
Viton
10.32.□
38
82
15
0.3
CF/2.0/057
SH017.R01
SP76
None
350
200
Right to Left
Any
Hole3
Hole 2
316L SS
Viton
10.32.□
38
82
15
0.3
SH017.L11
SP76
1/8" NPT
350
200
Left to Right
Horizontal
Hole 2
Hole 3
316L SS
Viton
10.32.□
38
82
15
0.3
SH017.R11
SP76
1/8" NPT
350
200
Right to Left
Horizontal
Hole 2
Hole 1
316L SS
Viton
10.32.□
38
82
15
0.3
45. SH027
SP76 Modular Filter Housing
Materials 316L Stainless Steel
Pressure 350 Bar
Ports SP76 & 1/8”
Element 10.57.□
The SH027 series SP76 filter housings are designed for
SP76 compliant modular sample systems. The housings
can be used for particulate or coalescing applications.
Coalescing housings have a drain port. If a housing is
used for coalescing any liquid in the sample will flow to
the 1/8" NPT drain port.
The coalescing housings should only be used on a
substrate that is mounted in the horizontal plane with
the drain port at the lowest point below the inlet and
outlet ports.
The housing design allows a quick change of the element
as all the line connections are arranged in the body of the
housing.
The housings are free from welds and comply with NACE
MR-01-75 and are CE marked in accordance with PED
97/23/EC.
Technical Specifications
Housing Model
Inlet/Outlet Connections
Drain
Maximum Pressure, Bar
Maximum Temperature, oC (1)
Flow Direction
Substrate Plane
Inlet
Outlet
Materials of Construction (2)
Head, Bowl & Internals
Seals (3)
Filter Element Code (4)
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Notes
(1) Above 200oC the pressure rating is reduced, consult us for the exact rating at any specific temperature
(2) Material abbreviations, 316L SS = 316L Stainless Steel
(3) Add suffix for other seal types, PTFE = .T, Chemraz = .C, Nitrile = N, Kalrez = .K, EPDM = .E, Silicone = .S, (e.g. SH027.R11.T)
(4) Replace the □with the grade required, e.g. 10.57.5CK
SH027.L01
SP76
None
350
200
Left to Right
Any
Hole 1
Hole 2
316L SS
Viton
10.57.□
38
107
15
0.35
CF/2.0/058
SH027.R01
SP76
None
350
200
Right to Left
Any
Hole3
Hole 2
316L SS
Viton
10.57.□
38
107
15
0.35
SH027.L11
SP76
1/8" NPT
350
200
Left to Right
Horizontal
Hole 2
Hole 3
316L SS
Viton
10.57.□
38
107
15
0.35
SH027.R11
SP76
1/8" NPT
350
200
Right to Left
Horizontal
Hole 2
Hole 1
316L SS
Viton
10.57.□
38
107
15
0.35
46. SG111 & SS112
Filter Housing
Materials 316L SS & Pyrex Glass
Pressure 7 & 10 Bar
Ports 1/8”or 1/4”
Element 12.32.□
SG111 and SS112 series filter housings are specified for
1/8" & 1/4" line size applications at low pressure. For
applications over 10 Bar the SS117 housings are available.
The housings are constructed from 316L stainless steel
with a stainless steel or Pyrex glass bowl. The Pyrex bowl
is also fitted with a bowl guard, this is not shown.
Standard housings have NPT ports and include Viton
seals. Other seal types are available as an option. BSPT
and BSPP port types are also available.
The housings are free from welds and comply with NACE
MR-01-75 and conform to SEP of PED 97/23/EC.
These housings can also be supplied in a wide range of
exotic materials, such as Hastelloy, Monel, Titanium etc.
Technical Specifications
Housing Model
Port Size
Drain
Maximum Pressure, Bar (1)
Maximum Temperature, oC (2)
Materials of Construction (3)
Head & Internals
Bowl
Seals(4)
Filter Element Code (5)
Adsorber Cartridge Code (6)
Principal Dimensions in mm
Diameter
Height
Volume, cc
Weight, kg
Accessories
Support Core
Mounting Bracket
Notes
(1) Above 200oC the pressure rating is reduced, consult us for the exact rating at any specific temperature (not SG types)
(2) Maximum temperature is with standard seals. For temperatures up to 324oC use Chemraz seals
(3) Material abbreviations, 316L SS = 316L Stainless Steel
(4) Add suffix for other seal types, PTFE = .T, Chemraz = .C, Nitrile = N, Kalrez = .K, EPDM = .E, Silicone = .S, (e.g. SG111.221.T)
(5) Replace the □with the grade required, e.g. 12.32.5CK, 12.32.S20V, 12.32.T20
(6) Replace the □ with the type required, e.g. 12.32.AD01
SG111.111
1/8" NPT
1/8" NPT
7
100
316L SS
Pyrex
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
CF/2.0/060
SG111.211
1/4" NPT
1/8" NPT
7
100
316L SS
Pyrex
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
SG111.221
1/4" NPT
1/4" NPT
7
100
316L SS
Pyrex
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
SS112.111
1/8" NPT
1/8" NPT
10
200
316L SS
316L SS
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
SS112.211
1/4" NPT
1/8" NPT
10
200
316L SS
316L SS
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
SS112.221
1/4" NPT
1/4" NPT
10
200
316L SS
316L SS
Viton
12.32.□
12.32.AD□
40
93
25
0.4
SCSS11
MBSS11
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