Since they were developed over sixty years ago,
customers have come to trust the compact, heavy-duty
design of Flygt submersible pumps. The Flygt brand
was the first to provide a practical, heavy-duty electric
submersible pump that could withstand the severe
demands of construction site and mine dewatering
and yet still offer total portability
Klaus P. Redmann is the Director of Quality at Disc Spring Technology, LLC. He was born in Germany and received his Masters in Chemical Engineering in 1977. His first job after university brought him to the US, where he has resided for 36 years. In addition to his role at DST, Klaus owns Redmann Quality Engineering Services, which performs quality assurance services for nuclear fuel fabrication. Klaus has extensive experience in quality systems auditing and is certified in quality engineering.
The document summarizes Flygt N-pump series self-cleaning pumps. It describes their patented self-cleaning impeller technology which allows solids to pass through the pump without reducing efficiency over time. This sustained high efficiency lowers energy costs compared to conventional pumps. The pumps have a broad capacity range from 2.2 to 870 horsepower and can handle various applications like wastewater, stormwater, and industrial processes. Key features highlighted include modular components, durable seals and bearings, compliance with industry standards, and different installation methods.
This document provides guidance for inspectors on paints and coatings. It outlines approved coating systems for various applications and services, including internal and external pipe coatings for buried, insulated, and atmospheric exposure conditions. It also provides standards on surface preparation, coating application, thickness measurement, and repair. Inspectors are instructed to follow the coating manufacturer's recommendations and use properly calibrated equipment to ensure coatings meet thickness and cure requirements.
This document is a presentation from US Bellows about expansion joint basics. It contains information about US Bellows' facilities and certifications. It also provides details on bellows movement and motion, types of expansion joints, bellows fabrication, testing procedures, and applications for expansion joints. The presentation aims to educate attendees on fundamental expansion joint topics.
This document provides design calculations for the seismic and wind loading of an oil storage tank. It calculates the overturning moment due to seismic forces and wind forces acting on the tank. It then calculates the required strength of the tank shell, bottom plate, and anchorage to resist these overturning forces, taking into account the weight and distribution of the tank, contents, roof and supporting structures. Design requirements including allowable stresses and load factors are considered to ensure the structural integrity of the tank under the specified loading conditions.
The document describes different types of tank heads available from Baker Tank Head including:
1) 2:1 Semi-Elliptical tank heads available in sizes from 6-5/8 to 192 inches in diameter and thicknesses from 3/16 to 2 inches.
2) ASME flanged and dished tank heads in standard and intermediate sizes from 14 to 250 inches with thicknesses from 3/16 to 1-3/8 inches.
3) The document provides specifications on several other types of ASME and non-ASME compliant tank heads varying in size, thickness, and construction.
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
Klaus P. Redmann is the Director of Quality at Disc Spring Technology, LLC. He was born in Germany and received his Masters in Chemical Engineering in 1977. His first job after university brought him to the US, where he has resided for 36 years. In addition to his role at DST, Klaus owns Redmann Quality Engineering Services, which performs quality assurance services for nuclear fuel fabrication. Klaus has extensive experience in quality systems auditing and is certified in quality engineering.
The document summarizes Flygt N-pump series self-cleaning pumps. It describes their patented self-cleaning impeller technology which allows solids to pass through the pump without reducing efficiency over time. This sustained high efficiency lowers energy costs compared to conventional pumps. The pumps have a broad capacity range from 2.2 to 870 horsepower and can handle various applications like wastewater, stormwater, and industrial processes. Key features highlighted include modular components, durable seals and bearings, compliance with industry standards, and different installation methods.
This document provides guidance for inspectors on paints and coatings. It outlines approved coating systems for various applications and services, including internal and external pipe coatings for buried, insulated, and atmospheric exposure conditions. It also provides standards on surface preparation, coating application, thickness measurement, and repair. Inspectors are instructed to follow the coating manufacturer's recommendations and use properly calibrated equipment to ensure coatings meet thickness and cure requirements.
This document is a presentation from US Bellows about expansion joint basics. It contains information about US Bellows' facilities and certifications. It also provides details on bellows movement and motion, types of expansion joints, bellows fabrication, testing procedures, and applications for expansion joints. The presentation aims to educate attendees on fundamental expansion joint topics.
This document provides design calculations for the seismic and wind loading of an oil storage tank. It calculates the overturning moment due to seismic forces and wind forces acting on the tank. It then calculates the required strength of the tank shell, bottom plate, and anchorage to resist these overturning forces, taking into account the weight and distribution of the tank, contents, roof and supporting structures. Design requirements including allowable stresses and load factors are considered to ensure the structural integrity of the tank under the specified loading conditions.
The document describes different types of tank heads available from Baker Tank Head including:
1) 2:1 Semi-Elliptical tank heads available in sizes from 6-5/8 to 192 inches in diameter and thicknesses from 3/16 to 2 inches.
2) ASME flanged and dished tank heads in standard and intermediate sizes from 14 to 250 inches with thicknesses from 3/16 to 1-3/8 inches.
3) The document provides specifications on several other types of ASME and non-ASME compliant tank heads varying in size, thickness, and construction.
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
The document discusses the design of storage tanks. It covers general considerations for tank design codes, types of tanks, selection of tanks, material specifications, and design of various tank components like shells, bottoms, roofs, foundations. It also discusses seismic analysis, anchorage requirements, venting, and floating roof tank accessories. Key aspects covered include allowable stresses and corrosion allowances for materials, thickness calculations using different methods, wind girder design, and anchorage design considering uplift forces.
This document provides an overview and index for a conveyor belt handbook. It describes various belt reinforcement materials and their properties, including fabrics made from polyester, nylon, cotton, and steel cord. It also discusses belt cover compounds made from materials like natural rubber, polybutadiene, styrene butadiene, and nitrile rubber that are suitable for general service, high heat, chemicals, and fire resistance. The index previews topics that will be covered in the handbook such as belt capacity calculations, power and tension, construction, pulley design, and special belt types for applications like mining.
Analysis of Stress in Nozzle/Shell of Cylindrical Pressure Vessel under Inter...IJERA Editor
This work a comparative study of the methods of analysis of stress in vessel/nozzle, due to external loads. The
methods of analysis compared are WRC 107, WRC 297 and Method of Finite Elements. To make the
comparison between the methods, one model of nozzle has been developed without reinforcement plate. In this
nozzle it was applied external loads and after the application of the loads, compared the results of stress for the
three methods of analyses considered in this study.
1. The document describes Viking's Motor Speed internal gear pump series, which can operate at motor speeds up to 1150 RPM, allowing for direct coupling to motors.
2. Key features include sealed-for-life bearings, mechanical seals, pressure lubricated idler pins, and opposite porting for easy in-line mounting.
3. The pumps are suitable for thin liquids with viscosities up to 25,000 SSU and temperatures from -40 to 350°F, and can handle flows from 1 to 580 GPM and pressures up to 250 PSI.
S 000-1360-0001 v-1_0001_general specification for pipingDO VAN SON
This document provides specifications for piping design, layout, and installation for refinery and petrochemical projects. It specifies requirements for piping components, design stress criteria, pipe supports, piping layout within process units and at site boundaries, and pipe installation, cleaning, and testing. Attachments provide additional guidelines for pipe spacing, clearances, access, elevations, and modular and stick-built plant layouts.
This document is a piping material specification for a project located in Padur. It includes 3 pages of content listing abbreviations, a table of contents, an index of piping classes and materials, and 4 sheets providing details on pipe sizes, materials, and fitting types for Pipe Class A13A. The document specifies material types, standards, and notes for a 150# carbon steel piping system conveying corrosive hydrocarbons.
The document discusses design requirements for a vessel according to ASME VIII Div. 1. It provides information on the applicable sections of the code for design. The main design topics covered include requirements for internal pressure design of shells and heads, external pressure on shells, nozzle compensation, and nozzle weld sizing. The document then gives an example calculation for minimum shell thickness according to the code's internal pressure equations in section UG-27.
Refinery mechanical piping systems a fundamental overviewChetan vadodariya
This paper is based on experience gained by the author in fabrication, design and installation in multinational
manufacturing, contracting and client companies in India, Saudi Arabia and Bahrain. Piping systems in
any oil refinery is the most critical mechanical hardware for the transportation of feed product i.e. crude oil to
processing units, process piping intra and inter process units and further movement of intermediate distillates
from one processing unit to another for the purpose of processing, blending, value addition and maximization of
recovery from feed stock to finish products. Pipelines are the ultimate transportation solution for despatch of final
product to storage tank farms and to the shipping terminal for internal consumption and for export. This paper lists
proven and established international design
This document provides specifications for coating and wrapping underground carbon steel piping for corrosion protection. It describes the materials, application procedures, and testing requirements for applying a double layer of polyethylene wrapping tape to the pipes. The wrapping material is a laminated polyethylene tape with self-adhesive backing. Application involves surface preparation including cleaning, priming, and shaping around fittings. The tape is then spirally wrapped around the pipe with 55% overlap. Handling and storage procedures are outlined to prevent damage to the coated pipes prior to installation.
This document provides guidance on designing pipe hangers and supports. It discusses determining hanger locations based on pipe size and configuration. It describes calculating hanger loads based on the weight of pipe, fittings, valves, and insulation. It also addresses calculating thermal movement of piping at hanger locations. The document provides information on selecting appropriate hangers based on the loads and movements, including spring hangers. It includes sample problems demonstrating how to apply the guidance. An extensive section lists the weights of common piping materials to aid in load calculations. The document is intended as a reference for engineers involved in pipe hanger and support design.
This document provides instructions for assembling a cable gland. It includes:
1) An overview of the cable gland components and their assembly order.
2) Detailed steps for preparing the cable and gland, including stripping lengths, spreading the armour, and tightening nuts.
3) Notes on accessories that may be required like shrouds or locknuts.
4) Specifications for the cable gland such as temperature range, certification standards, and cable acceptance sizes.
Anvil is a leading manufacturer of pipe hangers and supports with a long history of design excellence and quality products. They have state-of-the-art manufacturing facilities in the US that produce a wide range of hangers, clamps, braces and other products to support pipes. Anvil offers comprehensive design services and stocks products globally to support customers in industries like power, oil/gas, marine, and more.
This document provides an overview of piping materials and selection guidelines. It defines key piping terms like pipe and tubing. It describes various types of pipes based on the manufacturing method, such as electric resistance welded pipe, furnace butt welded pipe, seamless pipes, and more. The document outlines factors to consider for material selection like design life, temperature, pressure, corrosion allowance, service conditions, and economics. It provides specific guidelines for material selection for high temperature exposures above 232°C and ambient/intermediate temperatures from 0°C to 232°C. The focus is on selecting materials that will be resistant to various deterioration modes over the design life of the piping system.
This document provides an overview of an online training on pressure vessels. It begins with a safety message and then outlines the training objectives which are to introduce the ASME code, design a simple pressure vessel, and instill a desire to learn more about pressure vessels. It then defines what a pressure vessel is and provides examples. It discusses the typical equipment found in an ethylene plant and the percentage that are pressure vessels. It also gives an overview of the structure of the ASME Boiler and Pressure Vessel Code with a focus on Section VIII for pressure vessels. The training covers aspects of Subsection A on general requirements, Subsection B on fabrication methods, and Subsection C on material classes. It concludes with an example design
Pressure Safety Valve Sizing - API 520/521/526Vijay Sarathy
No chemical process facility is immune to the risk of overpressure to avoid dictating the necessity for overpressure protection. For every situation that demands safe containment of process gas, it becomes an obligation for engineers to equally provide pressure relieving and flaring provisions wherever necessary. The levels of protection are hierarchical, starting with designing an inherently safe process to avoid overpressure followed by providing alarms for operators to intervene and Emergency Shutdown provisions through ESD and SIL rated instrumentation. Beyond these design and instrument based protection measures, the philosophy of containment and abatement steps such as pressure relieving devices, flares, physical dikes and Emergency Response Services is employed
This document discusses different types of storage tanks used in refineries and chemical plants. It describes atmospheric storage tanks, which operate at approximately atmospheric pressure, including fixed-roof tanks, floating-roof tanks, and fixed-roof tanks with an internal floating roof. Low-temperature and low-pressure storage tanks are also discussed. Standards for storage tank design include API-650 for atmospheric tanks and API-620 for low-pressure tanks. Floating roof tanks are described as minimizing vapor losses by maintaining a small vapor space or eliminating it completely.
This document provides an overview and contents of an online course about ASME Section I and Section VIII fundamentals. It includes:
- An introduction to the ASME Boiler and Pressure Vessel Code which contains 12 sections covering various topics like power boilers, materials, pressure vessels, welding qualifications, and piping codes.
- Summaries of the scopes and requirements of key sections like Section I (power boilers), Section VIII (pressure vessels), and the B31 piping codes.
- Information on ASME certification and inspection procedures for pressure equipment.
- A note on converting between imperial and metric units in the ASME codes.
- An introduction to the fundamentals and design requirements
This document provides an overview of ASME Boiler and Pressure Vessel Codes. It discusses the objectives and benefits of codes and standards, and describes the ASME Code system and some of its key sections. It focuses on introducing ASME Section VIII Division 1, covering the scope and exclusions of this section. Key topics covered include design requirements, material specifications, fabrication methods, weld joint categories, non-destructive examination methods, and hydrostatic and pneumatic testing requirements.
The document discusses Flygt hydro turbines produced by Xylem. It provides an overview of Flygt's history in developing submersible pumps and turbines since 1947. Flygt offers a range of submersible hydro turbines that are reliable, efficient, and easy to install. Their turbines can be used across a variety of site conditions and applications. The document provides specifications for Flygt's turbine models and details their design features. It also discusses Xylem's aftermarket support services to optimize turbine performance.
The document summarizes the specifications and features of the Caterpillar 320D/320D L Hydraulic Excavator. It has a Cat 3066TA engine producing 103 kW of power. Standard operating weight is 20,300 kg for the 320D and 21,500 kg for the 320D L. It provides complete customer support and service. Key features include durable structures, a variety of boom and stick options for flexibility, efficient hydraulics and engine, easy service access, and a comfortable operator station.
The document discusses the design of storage tanks. It covers general considerations for tank design codes, types of tanks, selection of tanks, material specifications, and design of various tank components like shells, bottoms, roofs, foundations. It also discusses seismic analysis, anchorage requirements, venting, and floating roof tank accessories. Key aspects covered include allowable stresses and corrosion allowances for materials, thickness calculations using different methods, wind girder design, and anchorage design considering uplift forces.
This document provides an overview and index for a conveyor belt handbook. It describes various belt reinforcement materials and their properties, including fabrics made from polyester, nylon, cotton, and steel cord. It also discusses belt cover compounds made from materials like natural rubber, polybutadiene, styrene butadiene, and nitrile rubber that are suitable for general service, high heat, chemicals, and fire resistance. The index previews topics that will be covered in the handbook such as belt capacity calculations, power and tension, construction, pulley design, and special belt types for applications like mining.
Analysis of Stress in Nozzle/Shell of Cylindrical Pressure Vessel under Inter...IJERA Editor
This work a comparative study of the methods of analysis of stress in vessel/nozzle, due to external loads. The
methods of analysis compared are WRC 107, WRC 297 and Method of Finite Elements. To make the
comparison between the methods, one model of nozzle has been developed without reinforcement plate. In this
nozzle it was applied external loads and after the application of the loads, compared the results of stress for the
three methods of analyses considered in this study.
1. The document describes Viking's Motor Speed internal gear pump series, which can operate at motor speeds up to 1150 RPM, allowing for direct coupling to motors.
2. Key features include sealed-for-life bearings, mechanical seals, pressure lubricated idler pins, and opposite porting for easy in-line mounting.
3. The pumps are suitable for thin liquids with viscosities up to 25,000 SSU and temperatures from -40 to 350°F, and can handle flows from 1 to 580 GPM and pressures up to 250 PSI.
S 000-1360-0001 v-1_0001_general specification for pipingDO VAN SON
This document provides specifications for piping design, layout, and installation for refinery and petrochemical projects. It specifies requirements for piping components, design stress criteria, pipe supports, piping layout within process units and at site boundaries, and pipe installation, cleaning, and testing. Attachments provide additional guidelines for pipe spacing, clearances, access, elevations, and modular and stick-built plant layouts.
This document is a piping material specification for a project located in Padur. It includes 3 pages of content listing abbreviations, a table of contents, an index of piping classes and materials, and 4 sheets providing details on pipe sizes, materials, and fitting types for Pipe Class A13A. The document specifies material types, standards, and notes for a 150# carbon steel piping system conveying corrosive hydrocarbons.
The document discusses design requirements for a vessel according to ASME VIII Div. 1. It provides information on the applicable sections of the code for design. The main design topics covered include requirements for internal pressure design of shells and heads, external pressure on shells, nozzle compensation, and nozzle weld sizing. The document then gives an example calculation for minimum shell thickness according to the code's internal pressure equations in section UG-27.
Refinery mechanical piping systems a fundamental overviewChetan vadodariya
This paper is based on experience gained by the author in fabrication, design and installation in multinational
manufacturing, contracting and client companies in India, Saudi Arabia and Bahrain. Piping systems in
any oil refinery is the most critical mechanical hardware for the transportation of feed product i.e. crude oil to
processing units, process piping intra and inter process units and further movement of intermediate distillates
from one processing unit to another for the purpose of processing, blending, value addition and maximization of
recovery from feed stock to finish products. Pipelines are the ultimate transportation solution for despatch of final
product to storage tank farms and to the shipping terminal for internal consumption and for export. This paper lists
proven and established international design
This document provides specifications for coating and wrapping underground carbon steel piping for corrosion protection. It describes the materials, application procedures, and testing requirements for applying a double layer of polyethylene wrapping tape to the pipes. The wrapping material is a laminated polyethylene tape with self-adhesive backing. Application involves surface preparation including cleaning, priming, and shaping around fittings. The tape is then spirally wrapped around the pipe with 55% overlap. Handling and storage procedures are outlined to prevent damage to the coated pipes prior to installation.
This document provides guidance on designing pipe hangers and supports. It discusses determining hanger locations based on pipe size and configuration. It describes calculating hanger loads based on the weight of pipe, fittings, valves, and insulation. It also addresses calculating thermal movement of piping at hanger locations. The document provides information on selecting appropriate hangers based on the loads and movements, including spring hangers. It includes sample problems demonstrating how to apply the guidance. An extensive section lists the weights of common piping materials to aid in load calculations. The document is intended as a reference for engineers involved in pipe hanger and support design.
This document provides instructions for assembling a cable gland. It includes:
1) An overview of the cable gland components and their assembly order.
2) Detailed steps for preparing the cable and gland, including stripping lengths, spreading the armour, and tightening nuts.
3) Notes on accessories that may be required like shrouds or locknuts.
4) Specifications for the cable gland such as temperature range, certification standards, and cable acceptance sizes.
Anvil is a leading manufacturer of pipe hangers and supports with a long history of design excellence and quality products. They have state-of-the-art manufacturing facilities in the US that produce a wide range of hangers, clamps, braces and other products to support pipes. Anvil offers comprehensive design services and stocks products globally to support customers in industries like power, oil/gas, marine, and more.
This document provides an overview of piping materials and selection guidelines. It defines key piping terms like pipe and tubing. It describes various types of pipes based on the manufacturing method, such as electric resistance welded pipe, furnace butt welded pipe, seamless pipes, and more. The document outlines factors to consider for material selection like design life, temperature, pressure, corrosion allowance, service conditions, and economics. It provides specific guidelines for material selection for high temperature exposures above 232°C and ambient/intermediate temperatures from 0°C to 232°C. The focus is on selecting materials that will be resistant to various deterioration modes over the design life of the piping system.
This document provides an overview of an online training on pressure vessels. It begins with a safety message and then outlines the training objectives which are to introduce the ASME code, design a simple pressure vessel, and instill a desire to learn more about pressure vessels. It then defines what a pressure vessel is and provides examples. It discusses the typical equipment found in an ethylene plant and the percentage that are pressure vessels. It also gives an overview of the structure of the ASME Boiler and Pressure Vessel Code with a focus on Section VIII for pressure vessels. The training covers aspects of Subsection A on general requirements, Subsection B on fabrication methods, and Subsection C on material classes. It concludes with an example design
Pressure Safety Valve Sizing - API 520/521/526Vijay Sarathy
No chemical process facility is immune to the risk of overpressure to avoid dictating the necessity for overpressure protection. For every situation that demands safe containment of process gas, it becomes an obligation for engineers to equally provide pressure relieving and flaring provisions wherever necessary. The levels of protection are hierarchical, starting with designing an inherently safe process to avoid overpressure followed by providing alarms for operators to intervene and Emergency Shutdown provisions through ESD and SIL rated instrumentation. Beyond these design and instrument based protection measures, the philosophy of containment and abatement steps such as pressure relieving devices, flares, physical dikes and Emergency Response Services is employed
This document discusses different types of storage tanks used in refineries and chemical plants. It describes atmospheric storage tanks, which operate at approximately atmospheric pressure, including fixed-roof tanks, floating-roof tanks, and fixed-roof tanks with an internal floating roof. Low-temperature and low-pressure storage tanks are also discussed. Standards for storage tank design include API-650 for atmospheric tanks and API-620 for low-pressure tanks. Floating roof tanks are described as minimizing vapor losses by maintaining a small vapor space or eliminating it completely.
This document provides an overview and contents of an online course about ASME Section I and Section VIII fundamentals. It includes:
- An introduction to the ASME Boiler and Pressure Vessel Code which contains 12 sections covering various topics like power boilers, materials, pressure vessels, welding qualifications, and piping codes.
- Summaries of the scopes and requirements of key sections like Section I (power boilers), Section VIII (pressure vessels), and the B31 piping codes.
- Information on ASME certification and inspection procedures for pressure equipment.
- A note on converting between imperial and metric units in the ASME codes.
- An introduction to the fundamentals and design requirements
This document provides an overview of ASME Boiler and Pressure Vessel Codes. It discusses the objectives and benefits of codes and standards, and describes the ASME Code system and some of its key sections. It focuses on introducing ASME Section VIII Division 1, covering the scope and exclusions of this section. Key topics covered include design requirements, material specifications, fabrication methods, weld joint categories, non-destructive examination methods, and hydrostatic and pneumatic testing requirements.
The document discusses Flygt hydro turbines produced by Xylem. It provides an overview of Flygt's history in developing submersible pumps and turbines since 1947. Flygt offers a range of submersible hydro turbines that are reliable, efficient, and easy to install. Their turbines can be used across a variety of site conditions and applications. The document provides specifications for Flygt's turbine models and details their design features. It also discusses Xylem's aftermarket support services to optimize turbine performance.
The document summarizes the specifications and features of the Caterpillar 320D/320D L Hydraulic Excavator. It has a Cat 3066TA engine producing 103 kW of power. Standard operating weight is 20,300 kg for the 320D and 21,500 kg for the 320D L. It provides complete customer support and service. Key features include durable structures, a variety of boom and stick options for flexibility, efficient hydraulics and engine, easy service access, and a comfortable operator station.
This document provides specifications for an Aurora model 383 vertical inline centrifugal fire pump. It lists the pump components and materials which include a bronze impeller, bronze case wear ring, packing gland, and shaft sleeve. Dimensions and performance details are also given, along with standard and optional features. The pump is listed by Underwriter's Laboratory and approved by Factory Mutual. An engineering specification is provided to describe the pump for procurement.
The document discusses Pacific Wedgeplug valves, including:
1) Key features of Wedgeplug valves like simple construction, metal sealing surfaces, and bi-directional sealing capability.
2) Typical applications in refineries and petrochemical plants, including isolation valves in various units.
3) Design details like the plug, body, seats, bonnet, and Wedgetorque operator. Purging and flushing processes are described to enhance performance.
The document summarizes Flygt 2600 sludge pump series. Key points:
- The pumps are designed to handle sludge and liquids with solids up to 80 mm in size and 20% solids concentration, ensuring maximum uptime.
- Features like a hardened impeller, wear-resistant lining, and large inlet/discharge enable it to handle tough applications.
- It is easy to service with components like a single-cartridge seal and external inspection ports.
Kammer valves are designed to handle a wide range of service conditions: pressures from vacuum to 4000 bar and temperatures from minus 269 degrees C to plus 400 degrees C. Body materials include all common stainless steels, in addition to plastics and exotic alloys.
The document provides information on Teikoku, the world's largest manufacturer of canned motor pumps. It describes key features of Teikoku canned motor pumps including their sealless and leak-proof design, compact size requiring no alignment, ability to handle toxic and hazardous fluids, quiet operation, and field repairability. The pumps are suitable for applications involving vacuum, high pressure, high temperatures, and hazardous materials.
The document provides information about Audex submersible pumps that are designed for use in abrasive and harsh industrial applications. It summarizes the industries the pumps are used in, including mining, quarrying, recycling, cement plants, and dewatering. It also provides brief descriptions of the different pump series available from 2-inch to 8-inch sizes and their specifications.
Flowserve Valves - Kammer Control ValvesSwanson Flo
FLOWSERVE Kämmer manufactures special application and general service control
valves and actuators, which are used extensively in the chemical, petrochemical, power, petroleum, pulp & paper, pharmaceutical, food processing and cryogenic industries.
FLOWSERVE Kämmer pneumatic actuators are widely known for their versatile diaphragm design, easy installation and simplified maintenance. When compared to other manufacturers’ diaphragm actuator designs, Kämmer actuators have much higher thrust capabilities, feature a very compact design and are lighter in weight. They also feature a field reversible design that requires no additional
parts.
HI-TECH Industries manufactures mechanical seals, rotary joints, and pumps located in Nashik, India. The document provides details on the various types of seals produced, including conical spring seals, Alfa Laval seals, multi spring seals, Dura seals, PTFE bellow seals, TEX seals, rubber bellow seals, compressor seals, vacuumed seals, and agitator seals. Each seal is designed for specific applications in industries such as sugar, paper, textiles, dairy, distilleries, and pharmaceuticals.
Ram Pump Brochure - Latham International
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1. The document provides specifications for three soil compactor models (CS-663E, CP-663E, CS-683E) manufactured by Caterpillar, including their engine, propulsion system, vibratory system, operator station, and serviceability features.
2. Key features highlighted are the Cat 3056 engine, dual propel pump system, pod-style vibratory weight system, ergonomic operator station with optional cab, and one-piece hood providing excellent visibility and service access.
3. The models are designed for reliability, serviceability, and operator comfort, with enhancements to production capabilities.
We at Cosmos Pumps are on a mission to be the number one choice for all dewatering needs across the globe. And we are fulfilling this need by manufacturing state of the art dewatering pumps and providing top-notch sales, rental and turnkey services of dewatering pumps all over.
Demystifying Excellence: What is a Flygt PumpJefferyMason1
Have you ever wondered about the unsung heroes that toil away below the surface to keep our sewage systems operating smoothly and our construction sites dry? Presenting the Flygt Pump, the water management enchantress. Today, we solve the enigmas surrounding the following query: A Flygt Pump: What Is It?
This document summarizes the details of two unused stainless steel evaporative condensers. Each unit is rated at 827 tons and was manufactured by Evapco with model ATW-207C. The units feature stainless steel construction, enclosed fan motors, quick connect piping, sloped access ladders, and elliptical coil designs. Additional details are provided on optional accessories and each unit's dimensions and electrical specifications.
The document provides information on the Caterpillar 5130B hydraulic shovel/backhoe. It can be configured as a front shovel or backhoe and is matched to haul with Cat 777D, 773D, or 775D trucks. Key features summarized are:
- It has an operating weight of 181,000-182,000 kg and bucket capacity of 9.0-11.0 m3 or 8.5-18.3 m3. It is powered by a 641 kW Cat 3508B engine.
- The document discusses the machine's hydraulics, powertrain, structures, undercarriage, operator station, monitoring system, buckets, and modular design.
Started to create milestones, we Sawant High Vac Industries Mumbai marked our presence in the year 2010 and operates in the manufacturing/servicing of Vacuum Pumps, Vacuum Pumps Accessories, Liquid Ring Vacuum Pump System, Cavity Pumps Slicer since 2 years. Our quality services/products have always won us many appreciations from our clients. Our spontaneous performance and confident approach in offering the excellent range of Vacuum Pumps, Vacuum Pumps Accessories, Liquid Ring Vacuum Pump System, Cavity Pumps that has made us to deepen our roots in the market. We Sawant High Vac Industries Mumbai breathe with the aim to satisfy our clients with our smart products/services. We are a unit of highly experienced professionals who all contribute best of their potentials to offer high efficiency.
Marathon Electric manufactures large induction motors from 125 to 5,000 horsepower that are suitable for demanding industrial applications. Their motors feature robust enclosures for outdoor use and hazardous environments, along with standard features like anti-friction bearings, corrosion protection, and form wound stator coils vacuum pressure impregnated with epoxy resin. Marathon Electric can modify motors and provide accessories to meet specific application needs.
The document provides instructions for repairing and maintaining Walinga Chrome Blowers models 510 and 614. It discusses lubrication requirements, describes how to retime the blowers by adjusting impeller clearances, and provides step-by-step instructions for disassembling and reassembling the blowers. Key maintenance tasks include checking oil levels regularly, draining and refilling the gear case every 100 hours, and retiming the blowers if knocking occurs to reset the impeller clearances.
The document provides information on various centrifugal pump models from different manufacturers, including their key features and specifications. It summarizes 14 pump models ranging from general duty centrifugal pumps to specialized pumps for industries like chemical, food processing, and oil and gas. The pumps listed are suitable for applications handling abrasive liquids, corrosive chemicals, and solids. Materials of construction include cast iron, stainless steel, plastic, and exotic alloys. Drive types include mechanical seals, magnetic drives, and canned motors.
It’s a fact that pumps on construction sites and in mines are often left
operating day and night. Usually they end up snoring most of the
time, causing unnecessary wear to pump parts and wasting electric
power. The result is increased service costs and high electric bills.
Control systems using external floats or level sensors are often
impractical in rough temporary surroundings.
Pumps work only when needed
FPC 100 automatic pump controller is the solution to overcome these problems.
Side entry agitator SIDE JET has been designed to equip large capacity tanks (up to 50,000 m³). Those tanks are currently integrated to processes in chemical, petrochemical, agro food and water treatment industries. Blended products are often hazardous, viscous and corrosive.This type of agitator complies with ATEX standard. JET turret guides agitation shaft and holds sealing system box.
Treated water flows by gravity to filter cassettes from the central influent pipe.
The filter assembly is idle at the beginning of the filter cycle
– it does not rotate. Impurities larger than the mesh opening
size are caught on the inner side of the filter media
cassettes.
When you purchase an ARO Pit Boss pneumatic diaphragm pump, you can be confident that you’re getting industry-proven durability, reliability, and value.
They’re the ideal solution for general transfer,
dewatering, and solids-handling applications.
With its wide range of 4” to 12”
borehole pumps offer advanced
water supply solutions for residential,
municipal, irrigation and industrial
applications.
All EXP Series pumps are enhanced with electronic interface capability, providing accurate, electronically controlled dosing. Combine our pump with the ARO Controller or a PLC or PC based system and switch from inaccurate, inefficient manual processes to intelligent fluid management.
The extensive range of Flygt wastewater pumps ensures flexible
configurations to match any pumping requirements. This comprehensive
selection of pump options will provide optimal performance and power,
while reducing operating costs and simplifying maintenance.
Visit our booth at “Infra Africa And Middle East Expo 2017”
October 17-19th , 2017, You might be our LUCKY visitor!
Register your name at Rheoserve’s booth (B26+B27) registration point and enter withdraw on iPhone 8
The APP pumps provide unsurpassed efficiency and great flexibility for configuration. The simple construction of the axial piston pump with fewer parts allows highly reliable operation with long service intervals and easy maintenance.
The APP pumps provide unsurpassed efficiency and great flexibility for configuration. The simple construction of the axial piston pump with fewer parts allows highly reliable operation with long service intervals and easy maintenance.
Xylem provides a wide range of water handling pumps and solutions for building services applications. This includes end suction centrifugal pumps, self-priming pumps, split case pumps, inline pumps, circulators, and more. Xylem participates throughout a project from design to installation and offers product selection tools to ensure the correct pump is chosen.
HYDROVAR جيل جديد من وحدات التحكم الذكية للمضخات متغيرة السرعة
خفض إستهلاك الطاقة حتى 70% فهى أنظمة تحكم ذكية فى السرعة يتم تثبيتها مباشرة على محرك المضخة حيث تتكيف بدقة تبعا لمتطلبات النظام التشغيلي وتدعم النظام بمرونه عالية فى التشغيل بتضمين حتى 8 مضخات دون الحاجة إلى وحدات تحكم إضافية خارجية وتأتى وحدات التحكم لتوفر مزايا عديدة منها الحماية ضد التشغيل الجاف إضافة إلى إيقاف التشغيل عند حدوث كسر أو تلف فى الأنابيب مع إمكانية التحكم اليدوي فى مستويات السرعة
http://rheoserve.com/hydrova_control_panels.html
The Spektron UV series from WEDECO uses ultraviolet (UV) light to disinfect drinking water in an environmentally friendly way. It features highly efficient ECORAY UV lamp technology and advanced flow distribution designs to effectively disinfect water across a wide range of applications and conditions. The Spektron series meets various regulatory standards and offers minimized energy consumption through variable power control and automatic cleaning functions. It provides reliable disinfection performance monitoring and flexible installation options suited for modern water treatment facilities.
هى أنظمة صديقة للبيئة تستخدم الأشعة الفوق بنفسجية لقتل الكائنات الحيه الدقيقة لتمنعها من التكاثر مثل البكتريا, الفيروسات و الخمائر, تتم فيها عملية المعالجة بطريقة آمنه بدون إستخدام مواد كيميائية فهى بديلة للكلورين كما أنها إقتصادية وفعالة, تستخدم بصفة عامة فى التطبيقات الصناعية وصناعة الأغذية و المشروبات إضافة إلى تطبيقات معالجة مياه الشرب,تطهير مياه الصرف الصحى و المياه المعالجة لأغراض إعادة الإستخدام
تتميز لمبات الأشعة الفوق بنفسجية لهذا الطراز بإرتفاع إنتاجيتها للضوء مع إنخفاض الطاقة الحرارية المولدة عنها فتصل درجة حرارتها أثناء العملية التشغيلية إلى 100 درجة مئوية فى حين تصل مثيلاتها إلى 600-800 درجة مئوية, هذه الأنظمة نظيفة و صديقة للبيئة, إقتصادية و موفره للطاقة بأعلى كفاءة و قدرة على التحكم
http://rheoserve.com/index.html#portfolio
هى أنظمة صديقة للبيئة تستخدم الأشعة الفوق بنفسجية لقتل الكائنات الحيه الدقيقة لتمنعها من التكاثر مثل البكتريا, الفيروسات و الخمائر, تتم فيها عملية المعالجة بطريقة آمنه بدون إستخدام مواد كيميائية فهى بديلة للكلورين كما أنها إقتصادية وفعالة, تستخدم بصفة عامة فى التطبيقات الصناعية وصناعة الأغذية و المشروبات إضافة إلى تطبيقات معالجة مياه الشرب,تطهير مياه الصرف الصحى و المياه المعالجة لأغراض إعادة الإستخدام
http://rheoserve.com/index.html#portfolio
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.
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.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
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.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
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.
2. 2
Your Task. Our Force.
Xylem offers a broad range of Flygt pumps for construction, mining, municipalities, and
other markets. We provide an industry-leading rental fleet, world-class engineering
support, and true 24/7 service and support.
Our great pumps are available to meet all of your needs—with MHSA approval, in
stainless steel, and in hard iron options—and available for rental and sale.
3. 3
Table of Contents
Pump Features............................................................ 5
2600 Series Dewatering Pumps............................... 8-9
2600 Series Sludge Pumps....................................... 10
VORTEX Impellers
BIBO 2800 Series Dewatering Pumps..................... 14-15
2000 Series Dewatering Pumps............................... 16-18
Stainless Steel 2700 Series Dewatering Pumps..... 19
Stainless Steel 2700 Series Sludge Pumps
VORTEX Impellers.................................................. 20
Stainless Steel 3000 Series Sludge and
Solids-Handling Sewage Pumps.............................. 22
3000 Series Solids-Handling Sewage Pumps
Closed Impellers.................................................. 23
3000 Series N-Pump Sewage Pumps
N–Impellers.............................................................. 25-27
3000 Series Heavy-Duty Sewage Pumps
for Rental..................................................................... 28-29
5000 Series Heavy-Duty Slurry Pumps.................... 31-33
Flygt Accessories........................................................ 34-35
4. 4
Over 60 years of dependable pumping
Since they were developed over sixty years ago,
customers have come to trust the compact, heavy-duty
design of Flygt submersible pumps. The Flygt brand
was the first to provide a practical, heavy-duty electric
submersible pump that could withstand the severe
demands of construction site and mine dewatering
and yet still offer total portability. Over time, these early
submersibles became the prototype for a full range of
other hardworking Flygt submersible pumps, all built in
the same tradition of dependability.
We know from years of experience what it takes
to design and manufacture the finest heavy-duty
submersible equipment. High tolerance machining is a
standard manufacturing process for all parts that make
up our products. It takes many precise steps, along with
quality O-rings, to achieve the exceptional “fit” needed
to keep a submersible motor dry. This includes critical
sealing areas, such as where the power cable enters
the pump. All parts are machined so the right amount
of compression force is applied between the sealing
grommet, cable, and pump body, each and every
time the cable entry bolts are tightened. The result is a
dependable compression cable seal, which can easily
be serviced in the field, and does not require epoxy
sealers.
Precision machining with the outer stator core diameter
and inner motor housing surface allows us to precisely
shrink-fit the motor stator core into the housing. This
feature provides a uniform metal-to-metal contact
between the heat producing motor and its housing,
resulting in exceptional cooling without the need for
messy, expensive cooling oil.
The 2600 Series
Continuing its tradition of excellence, Xylem has
recently introduced the 2600 Series, the newest
line of Flygt dewatering pumps. This series features
innovative hydraulics, fewer components, new
materials, and a practical, ergonomic design. The
patented DuraSpin™ hydraulic system and newly
designed impeller improves wear resistance and
sustains performance over time. The wear-resistant
closed impellers are made from high-chrome cast
iron. A single screw enables fast and easy adjustment
for maximum pump performance. During scheduled
maintenance, a moderately worn hydraulic end can
be quickly adjusted back to virtually full performance.
The unique one-piece Plug-In™ seal incorporates two
mechanical seals for double protection against liquid
penetration.
The results of these features together in one pump:
• Unmatched wear resistance
• Consistent long-term performance
• Less downtime resulting in the lowest possible
cost of ownership
• Three times more wear-resistant compared to
traditional dewatering pumps
Xylem’s Flygt brand continues to offer the most
complete range of heavy-duty submersible pumps,
backed by a nationwide network of service centers
stocked with genuine Flygt pumps and parts. When
dependability counts, specify the best... specify Flygt
pumps.
The original submersible
pumps had a distinctive
bell-like shape.
The earliest electric submersible dewatering pump, developed by Flygt,
was called the “Parrot Cage” after its unusual look. In 1948 the first
practical version, model B-80, went into full production and became
the prototype for a complete line of other hardworking submersibles, all
built in the same tradition of dependability.
5. 5
Flygt submersible pumps are routinely used to remove abrasive,
dirty water from quarries with steep embankments and severe
heights. When equipped with high-head impellers, check valves,
and optional tandem coupling kits, submersible pumps offer an
excellent solution. Quarry installations can also include mounting the
pump from a floating raft to keep it off the rough or soft bottom
and accommodate varying water depths.
Compact Flygt pumps can be installed virtually anywhere dewatering
is required. Multiple pumps equipped with high volume impellers
allow large amounts of water to be pumped quickly. Flygt’s exclusive
motor design places the heat producing stator in direct contact with
the motor housing, which provides optimum cooling even under
non-submerged conditions.
The pumps in the 2600 series cover almost any dewatering application at worksites of all sizes, including construction sites, mines,
quarries, and other harsh environments. The slim design allows the pumps to be installed in pipes used for active dewatering. High
wear-resistance and ease of service make 2600 series pumps the clear choice for contractors.
6. 6
Just let it run
You don’t want to spend your time babysitting pumps. You just want to switch it on
and let it pump. That´s why the pumps have dry running capabilities.
A
B
C
Air valve
The cooler the motor, the better the performance. The air valve opens when
the pump is running dry.
Class H motor
Highly efficient to reduce generated heat.
Aluminum stator housing & generous oil volume
Improves heat transfer from the motor.
Bring it on!
The innovative design of the Flygt 2600 protects the hydraulic and seal system
like never before. The Flygt 2600 series has robustness built-in to keep your
operations moving in even the harshest environments.
D
E
F
Dura-Spin™
The unique closed impeller and the suction cover with Dura-Spin™ grooves
work together sweeping abrasive particles away from the impeller neck.
Spin-Out™
This patented design protects the outer seal and extends service life by
expelling abrasive particles from the seal.
Hard-Iron™
Specially designed Hard-Iron™ impeller (60 HRC) and suction cover reduces
wear and increases uptime.
Open Impeller alternative
The open impeller with its back-swept vanes effectively prevents string
solids from obstructing the pump and increases uptime.
At first glance you might not see what’s fantastic about
the Flygt 2600 series. That’s OK. Maybe you need to be
as much into pumps as we are to see the innovation in
the Flygt 2600’s unique design. A design that we’re proud
to say brings a high level of reliability and robustness to
the dewatering world.
G
Dura-Spin™
With an open impeller, wear will increase the clearance between the impeller vanes and the suction
cover, resulting in a loss of performance. With Dura-Spin, the unique closed impeller (1) and suction
cover with grooves (2) work together sweeping abrasive particles away from the impeller neck (3).
This makes the hydraulics at least three times more wear resistant than pumps with open
impellers. With the single impeller-adjustment screw you can easily restore pump performance.
1
3
2
H
A
D K
B
E
F
Spot the innovations
7. 7
Service with a smile
You want to spend as little time as possible servicing your pumps. Thanks to easy
impeller adjustment and few parts, the Flygt 2600 series brings a high level of
simplicity to service. Once you know one pump in the series you’ll know them all.
K
L
M
Single impeller-adjustment screw
Fast and easy impeller-adjustment restores clearances to near-original
condition, thereby increasing pump performance.
Plug-inTM
seal with aluminum housing
The unique aluminum one-piece Plug-in™ seal provides a perfect fit and fast,
simple replacement. It features Active Seal™ for zero leakage into the stator
housing, and uses superior quality seal ring materials.
Inspection cover
No need to loosen the top from the stator with fast access to the junction box.
External inspection and oil plugs
Quick service check, less downtime, no unnecessary disassembly.
Built for reliability
You need your pump to keep pumping, in all environments and in all situations.
We know what you need and here are some features that experience tells us
you´re going to like.
H
I
Sealed off terminal board
Protecting the pump from consequential damage.
Strainer bottom with shock absorbers
Rubber shock absorbers provide impact protection. Strainer holes prevent
obstruction due to large debris while the strainer bottom offers an easy-to-grip
design with less risk of a drop.
Flygt SUBCAB®
Superior mechanical strength for dependable long-term sealing in the
cable entry.
J
N
Spin-OutTM
Aluminium Plug-InTM
Seal Single adjustment screw
External inspection
Air valve
K
C
G
I
J
N
L
M
Flygt 2600 Series
8. 8
2600 Series Dewatering Pumps
H
W
Model number: 2610.172 / 2610.160
Motor rating: .172: 1ø: 1.3HP@3420RPM
.172: 3ø: 1.9HP@3365RPM
.160: 1ø: 1.8HP@3475RPM
Voltage (1ø): 115V 230V
Full load amps: 11A/15A 5.6A /7.4A
Voltage (3ø): 230V 460V 575V
Full load amps: 5.2A 2.6A 2A
Versions: 2” Standard
Imp. Code 235, 292 (1ø): 236 (3ø)
Hose connection: Male NPT
Pump dimensions: .172: 77
/8” W (max.) x 22” H (max.)
.160: 77
/8” W (max.) x 24” H (max.)
Max. weight (lbs.): .172: 47 / .160: 55
Description: Aluminum and stainless steel
construction; open non-clog
impeller, rests on bottom strainer.
Options: Warm liquid 70ºC version available;
2610.082 MSHA approved version.
60
70
50
40
30
20
10
0 50 100 150 250
200
TOTAL
HEAD
FEET
FLOW GPM
236
235
292
These are popular Flygt dewatering pumps, known for job site dependability. Most models have strong, lightweight
aluminum and stainless steel body parts and feature hardened impellers with nitrile rubber adjustable wear parts for
long life. These tough pumps do not require total submersion and will operate under snore conditions if necessary.
Many are available in MSHA-certified, explosion-proof versions for use in mining or landfill dewatering.
KS 2610
K235
K236
B228
105
90
75
60
45
30
15
0 50 100 150 250
200 300
TOTAL
HEAD
FEET
FLOW GPM
H
W
Model number: 2620.172
Motor rating: 1ø: 2.4HP@3420RPM
3ø: 3.5HP@3410RPM
Voltage (1ø): 230V
Full load amps: 9.9A
Voltage (3ø): 230V 460V 575V
Full load amps: 9.5A 4.7A 3.6A
Versions: 3” Standard
Imp. Code K235 (1ø), K236, B228 (3ø)
Hose connection: Male NPT
Pump dimensions: 91
/2” W (max.) x 25” H (max.)
Max. weight (lbs.): 66
Description: Aluminum and stainless steel
construction; open non-clog (K)
or extra wear resistant (B) closed
impellers, rests on bottom strainer.
Options: Warm liquid 70ºC version available;
2620.082 MSHA approved version.
BS/KS2620
H
W
B228
B253
K236
140
120
100
80
60
40
20
0 100 200 300 500
400 600
TOTAL
HEAD
FEET
FLOW GPM
Model number: 2630.181
Motor rating: 5.9HP@3490RPM
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 15A 14A 7.1A 5.8A
Versions: 3” High head
Imp. Code B253
4” Standard
Imp. Code K236, B228
Hose connection: Male NPT
Pump dimensions: 111
/4” W (max.) x 29” H (max.)
Max. weight (lbs.): 106
Description: Aluminum and stainless steel
construction; open non-clog (K)
or extra wear resistant (B) closed
impellers, rests on bottom strainer.
Options: Warm liquid 70ºC version available;
2630.081 MSHA approved version.
BS/KS2630
9. 9
B253
B228
K236
180
140
160
120
100
80
60
40
20
0 100 200 300 500 600
400 700
TOTAL
HEAD
FEET
FLOW GPM
B252
B227
BS/KS2640
H
W
Model number: 2640.181
Motor rating: 1ø: 6 HP @ 3475 RPM
3ø: 8.9HP@3495RPM
Voltage (1ø): 230V
Full load amps: 17A
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 24A 22A 11A 8.5A
Versions: 3” High head
Imp. Code B252 (1ø), B253 (3ø)
4” Standard
Imp. Code K235 (1ø), K236, B228 (3ø)
Hose connection: Male NPT
Pump dimensions: 111
/4” W (max.) x 29” H (max.)
Max. weight (lbs.): 110
Description: Aluminum and stainless steel
construction; open non-clog (K)
or extra wear resistant (B) closed
impellers, rests on bottom strainer.
Options: Warm liquid 70ºC version available;
2640.081 MSHA approved version.
200 400 600 1200
1000
50
150
100
200
300
250
0 800
TOTAL
HEAD
FEET
FLOW GPM
B278SH
B253HT
B228MT
K236MT
H
W
BS/KS 2660
Model number: 2660.181
Motor rating: 15HP@3495RPM
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 39A 35A 18A 14A
Versions: 3” High head
Imp. Code 253 (HT), 278 (SH)
4” & 6” Standard
Imp. Code B228 (MT), K236 (MT)
Hose connection: Male NPT
Pump dimensions: 133
/4” W (max.) x 32” (35” SH) H (max.)
Max. weight (lbs.): 172 (212 SH)
Description: Aluminum and stainless steel
construction; extra wear resistant
closed impellers, rests on
bottom strainer.
Options: Warm liquid 70ºC version available;
2660.081 MSHA approved version.
253
228
240
180
210
150
120
90
60
30
0 250 500 1250
1000
750 1500
TOTAL
HEAD
FEET
FLOW GPM
H
W
BS 2670
Model number: 2670.181
Motor rating: 27HP@3490RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 61A 31A 25A
Versions: 4” High head
Imp. Code 253
6” Standard
Imp. Code 228
Hose connection: Male NPT
Pump dimensions: 16” W (max.) x 38” H (max.)
Max. weight (lbs.): 289
Description: Aluminum and stainless steel
construction; extra wear resistant
closed impellers; rests on
bottom strainer.
Options: Warm liquid 70ºC version available;
2670.081 MSHA approved version.
10. 10
2600 Series Sludge Pumps
VORTEX Impellers
Pumps equipped with a vortex impeller are suited for pumping water containing moderately abrasive or stringy
solid materials which tend to clog conventional centrifugal impellers. The “open” impeller is located and turns at the
top of the pump chamber, causing a powerful vortex that induces a pumping action in the water below it. Since most
of the pumped water does not actually pass through the impeller, wear and clog-potential are minimized.
DS2630
DS2620
D236
D235
50 100 150 250
20
10
30
50
40
60
0 200
TOTAL
HEAD
FEET
FLOW GPM
Model number: 2620.281
Motor rating: 1ø: 2.4HP@3420RPM
3ø: 3.5HP@3410 RPM
Voltage (1ø): 230V
Full load amps: 9.9A
Voltage (3ø): 230V 460V 575V
Full load amps: 9.5A 4.7A 3.5A
Versions: 3” Standard
Imp. Code 235 (1ø), 236 (3ø)
Discharge conn.: Male NPT threaded
Pump dimensions: 16” W (max.) x 28” H (max.)
Max. weight (lbs.): 73
Description: DS: Aluminum and stainless
steel construction; vortex
type impeller with open inlet
area. Rests on stand.
H
W
436
500
400
200 300
5
10
15
35
20
25
30
0 100
TOTAL
HEAD
FEET
FLOW GPM
Model number: 2630.281
Motor rating: 3ø: 6.0HP@1675RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 18A 8.6A 6.9A
Versions: 4” Standard
Imp. 436MT
Discharge conn.: Male NPT threaded
Pump dimensions: 19” W (max.) x 34” H (max.)
Max. weight (lbs.): 119
Description: DS: Aluminum and stainless
steel construction; vortex
type impeller with open inlet
area. Rests on stand.
H
W
DS2640
261
236
50 100 150 300
20
40
60
80
140
120
100
0 200 250
FLOW GPM
TOTAL
HEAD
FEET
Model number: 2640.281
Motor rating: 3ø: 8.9 HP@3415RPM
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 24A 22A 11A 8.4A
Versions: 4” Standard
Imp. Code 261 (HT), 236 (MT)
Discharge conn.: Male NPT threaded
Pump dimensions: 19” W (max.) x 34” H (max.)
Max. weight (lbs.): 123
Description: DS: Aluminum and stainless
steel construction; vortex
type impeller with open inlet
area. Rests on stand.
H
W
12. 12
It still has the iconic look; a shape that means stability
and robustness. We took our proven hydraulic design
and merged it with features that once set the standard
in dewatering pumping.
Just let it run
You don’t want to spend your time babysitting pumps. You just
want to switch it on and let it pump. That´s why the pump has dry
running capabilities.
A
B
C
Air valve
The cooler the motor, the better the performance. The air
valve opens when the pump is running dry.
Class H motor
Highly efficient to reduce generated heat.
Aluminum stator housing & generous oil volume
Improves heat transfer from the motor.
Tougher than the rest
The Flygt BIBO design protects the hydraulic and seal parts like never before.
The Flygt BIBO series has robustness built-in to keep your operations moving
in even the harshest environments.
D
E
F
G
H
Dura-Spin™
With an open impeller, wear will increase the clearance between the impeller vanes and the suction
cover, resulting in a loss of performance. With Dura-Spin, the unique closed impeller (1) and suction
cover with grooves (2) work together sweeping abrasive particles away from the impeller neck (3).
This makes the hydraulics at least three times more wear resistant than pumps with open
impellers. With the single impeller-adjustment screw you can easily restore pump performance.
1
3
2
J
I
M
C
D
R
N
Where innovation
meets tradition
Dura-Spin™
The unique closed impeller and the suction cover with Dura-Spin™ grooves work
together sweeping abrasive particles away from the impeller neck.
Spin-Out™
This patented design protects the outer seal and extends service life by expelling
abrasive particles from the seal.
PolyLife™ coated wear parts
Wear-resistant polylife coating on certain wear parts. (Nitrile rubber available as option)
Hard-Iron™
Specially designed Hard-Iron™ impeller (60 HRC) and suction cover reduces wear
and increases uptime.
Open Impeller alternative
The open impeller with its back-swept vanes effectively prevents string solids
from obstructing the pump and increases uptime.
13. 13
Service with a smile
You want to spend as little time servicing your pumps as possible. Thanks to easy
impeller adjustment and few parts, the Flygt BIBO series brings a high level of
simplicity to service. Once you know one pump in the series you’ll know them all.
O
P
Q
Single impeller-adjustment screw
Fast and easy impeller-adjustment restores clearances to near-original
condition, thereby increasing pump performance.
Plug-inTM
seal with aluminum housing
The unique aluminum one-piece Plug-in™ seal provides a perfect fit
and fast, simple replacement. It features Active Seal™ for zero leakage
into the stator housing and uses superior quality seal ring materials.
Inspection cover
No need to loosen the top from the stator with fast access to the
junction box.
External inspection and oil plugs
Quick service check, less downtime, no unnecessary disassembly.
R
Last pump standing
You need your pump to keep pumping; in all environments and in all situations.
We know what you need and here are some features that experience tells us
you´re going to like.
I
J
K
Wide base and low discharge
More stability with less risk of the pump tipping over.
Sealed off terminal board
To protect the pump from consequential damage.
Strainer bottom with shock absorbers
Rubber shock absorbers provide impact protection. Strainer holes
prevent obstruction due to large debris while the strainer bottom
offers an easy-to-grip design with less risk of a drop.
Adjustable handle
Change height to suit lifting device.
Protected cable entry
Less risk of cable damage when handling the pump.
Flygt SUBCAB®
Superior mechanical strength for dependable long-term sealing in
the cable entry.
L
M
N
K
L
A
B
E
G
P
O
Q
F
H
Flygt BIBO
2800 Series
Spin-OutTM
Aluminium Plug-InTM
Seal Single adjustment screw
External inspection
Air valve
14. 14
BIBO 2800 Series Dewatering Pumps
H
W
H
W
Model number: 2830.180
Motor rating: 5.9HP@3475 RPM
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 17A 15A 7.3A 5.8A
Versions: 3” High head
Imp. Code B253
4” Standard
Imp. Code K236, B228
Hose connection: Male NPT
Pump dimensions: 141
/2” W (max.) x 30” H (max.)
Max. weight (lbs.): 119
Description: Aluminum and stainless steel
construction; open non-clog (K)
or extra wear resistant (B) closed
impellers, rests on bottom strainer.
Options: Warm liquid 70ºC version available.
BS/KS2830
B253
B228
K236
180
140
160
120
100
80
60
40
20
0 100 200 300 500 600
400 700
TOTAL
HEAD
FEET
FLOW GPM
B252
B227
BS/KS2840
Model number: 2840.180
Motor rating: 1ø: 6 HP @ 3480 RPM
3ø: 8.9HP@3495RPM
Voltage (1ø): 230V
Full load amps: 25A
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 24A 22A 11A 8.5A
Versions: 3” High head
Imp. Code B252 (1ø), B253 (3ø)
4” Standard
Imp. Code B227 (1ø), K236, B228 (3ø)
Hose connection: Male NPT
Pump dimensions: 111
/2” W (max.) x 30” H (max.)
Max. weight (lbs.): 123
Description: Aluminum and stainless steel
construction; open non-clog (K)
or extra wear resistant (B) closed
impellers, rests on bottom strainer.
Options: Warm liquid 70ºC version available.
B228
B253
K236
140
120
100
80
60
40
20
0 100 200 300 500
400 600
TOTAL
HEAD
FEET
FLOW GPM
Flygt BIBO pumps cover medium, high, and super-high pressures to handle almost any application. They still have
the iconic look; a shape that means stability and robustness. We took our proven hydraulic design and merged it with
features that once set the standard in dewatering pumping.
15. 15
200 400 600 1200
1000
50
150
100
200
300
250
0 800
TOTAL
HEAD
FEET
FLOW GPM
B278SH
B253HT
B228MT
K236MT
BS/KS 2860
Model number: 2860.180
Motor rating: 15HP@3465 RPM
Voltage (3ø): 208V 230V 460V 575V
Full load amps: 39A 35A 18A 14A
Versions: 3” High head
Imp. Code B253 (HT), B278 (SH)
4” & 6” Standard
Imp. Code B228 (MT), K236 (MT)
Hose connection: Male NPT
Pump dimensions: 163
/4” W(max.)x 35” (381
/2” SH)H(max.)
Max. weight (lbs.): 201 (234 SH)
Description: Aluminum and stainless steel
construction; extra wear resistant
closed impellers, rests on
bottom strainer.
Options: Warm liquid 70ºC version available.
253
228
240
180
210
150
120
90
60
30
0 250 500 1250
1000
750 1500
TOTAL
HEAD
FEET
FLOW GPM
BS 2870
Model number: 2870.180
Motor rating: 27HP@3490RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 61A 31A 25A
Versions: 4” High head
Imp. Code 253
6” Standard
Imp. Code 228
Hose connection: Male NPT
Pump dimensions: 20” W (max.) x 39” H (max.)
Max. weight (lbs.): 339
Description: Aluminum and stainless steel
construction; extra wear resistant
closed impellers; rests on
bottom strainer.
Options: Warm liquid 70ºC version available.
H
W
H
W
16. 16
H
W
231
212
216
236
200
150
175
125
100
75
50
25
0 50 100 150 300
250
200 350
TOTAL
HEAD
FEET
FLOW GPM
Model number: 2071.010
Motor rating: 1ø: 4.1HP@3425RPM
3ø: 6HP@3335RPM
Voltage (1ø): 230V
Full load amps: 17A
Voltage (3ø): 230V 460V 575V
Full load amps: 16A 8.1A 6.5A
Versions: 2” Standard (2 stage)
Imp. Code 236 (1ø), 231 (3ø)
3” High volume
Imp. Code 216 (1ø), 212 (3ø)
Hose connection: Male NPSM threaded
Pump dimensions: 71
/4” W (max.) x 27” H (max.)
Max. weight (lbs.): 68
Description: Aluminum construction; open
impeller, adjustable wear plate;
rests on bottom strainer.
Options: SS impellers
Model number: 2075.324
Motor rating: 3ø: 5.4 HP@3425RPM
8.9 HP@3410RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 14/23A 7.2/12A 5.8/9.4A
Versions: 2” Super High head
Imp. Code 272
3” High head
Imp. Code 234
3” Standard
Imp. Code 232
Hose connection: Male NPSM threaded
Pump dimensions: 12” W (max.) x 22” H (max.)
Max. weight (lbs.): 88
Description: Cast iron construction, open
impeller, adjustable wear plate;
rests on bottom strainer
BS 2071
BS 2075.324
BS 2125
234
270
210
240
180
150
120
90
60
30
0 50 100 350
150 200 300
250 400
TOTAL
HEAD
FEET
FLOW GPM
50
100
150
350
200
250
300
TOTAL
HEAD
FEET
FLOW GPM
0 50 100 350
150 200 300
250 400
B 272
B 234
B 232
H
W
H
W
Model number: 2125.181
Motor rating: 13HP@3470RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 32A 16A 13A
Versions: 3” High head (2 stage)
Imp. Code 234
Hose connection: Male NPSM threaded, or slip-on
Pump dimensions: 18” W (max.) x 33” H (max.)
Max. weight (lbs.): 176
Description: Aluminum construction; open
impeller, adjustable wear plate;
rests on bottom strainer.
* Cast iron version 2125.320 available.
2000 Series Dewatering Pumps
Flygt 2000 pumps easily handle chemically aggressive, mechanically abrasive, or highly viscous fluids laden with
particles. Flygt 2000 products are available in lightweight aluminum or corrosion-resistant cast iron. Some models are
available in MSHA-approved versions.
17. 17
BS 2140
412
232
244
234
350
300
250
200
150
100
50
0 1000 3000
2000 4000
TOTAL
HEAD
FEET
FLOW GPM
BS 2201
H
W
Model number: 2201.011, 2201.320
Motor rating: 58HP@3450RPM (High head,Std.)
50HP@1760RPM (High volume)*
Voltage: 460V 575V
Full load amps: 66/65A 52/ 48A
Versions: 4” High head, Imp. Code 234, 244
6” & 8” Standard, Imp. Code 232
6” & 8” High vol., Imp. Code 412
Hose connection: 4” Male NPSM threaded
6” & 8” Female NPT threaded
Pump dimensions: 19” W (max.) x 48” H (max.)
Max. weight (lbs.): 617 - Aluminum, 1000 - Cast iron
Description: Aluminum (.011) or cast iron (.320)
construction; open impeller(s),
adjustable wear plate; rests on
bottom strainer.
Options: SS impellers
2201.590 MSHA approved version.
432
434
280
240
200
160
120
80
40
0 1000 4000
3000
2000 5000
TOTAL
HEAD
FEET
FLOW GPM
Model number: 2250.011
Motor rating: 87HP@1770RPM
Voltage (3ø): 460V 575V
Full load amps: 103A 83A
Versions: 6” High head
Imp. Code 434
8” & 10” Standard
Imp. Code 432
Hose connection: 6” & 8” Female NPT threaded
10” Male NPT threaded
Pump dimensions: 37” W (max.) x 49” H (max.)
Max. weight (lbs.): 1190
Description: Aluminum construction; open
impeller, adjustable wear plate;
rests on bottom strainer.
H
W
BS 2250
B 234
350
300
250
200
150
100
50
0 200 300
100 400
TOTAL
HEAD
FEET
FLOW GPM
H
W
Model number: 2140.010
Motor rating: 19HP@3480RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 46A 23A 18A
Versions: 3” High head (2 stage)
Imp. Code 234
Hose connection: Male NPSM threaded, or slip-on
Pump dimensions: 18” W (max.) x 33” H (max.)
Max. weight (lbs.): 186
Description: Aluminum construction; open
impeller, adjustable wear plate;
rests on bottom strainer.
18. 18
432
434
280
240
200
160
120
80
40
0 1000 4000
3000
2000 5000
TOTAL
HEAD
FEET
FLOW GPM
BS 2290
Model number: 2290.010
Motor rating: 110HP@1775RPM
Voltage (3ø): 460V 575V
Full load amps: 131A 105A
Versions: 6” High head
Imp. Code 434
8” & 10” Standard
Imp. Code 432
Hose connection: 6” & 8” Female NPT threaded
10” Male NPT threaded
Pump dimensions: 37” W (max.) x 49” H (max.)
Max. weight (lbs.): 1190
Description: Aluminum construction; open
impeller, adjustable wear plate;
rests on bottom strainer.
H
W
244
800
700
600
500
400
300
200
100
0 500 1000 1500 2000 2500
TOTAL
HEAD
FEET
FLOW GPM
BS 2400 HT
H
W
Model number: 2400.402
Motor rating: 140HP@3560RPM
Voltage (3ø): 460V 575V
Full load amps: 148A 118A
Versions: 4” High head
Imp. Code 244
Discharge conn.: 250# Flange
Pump dimensions: 27” W (max.) x 49” H (max.)
Max. weight (lbs.): 1984
Description: Cast iron construction; open (MT)
or closed (HT) impeller, adjustable
wear plates, strainer, rests on
bottom.
Options: SS impellers, SS wet end
2400.490 MSHA approved version.
* including stand
232
800
700
600
500
400
300
200
100
0 500 1000 1500 2000 2500
TOTAL
HEAD
FEET
FLOW GPM
BS 2400 MT
H
W
Model number: 2400.402
Motor rating: 140HP@3560RPM
Voltage (3ø): 460V 575V
Full load amps: 148A 118A
Versions: 4” High head
Imp. Code 244
6” High volume
Imp. Code 232
Discharge conn.: 125# Flange
Pump dimensions*: 30” W (max.) x 49” H (max.)
Max. weight (lbs.)*: 2167
Description: Cast iron construction; open (MT)
or closed (HT) impeller, adjustable
wear plates, strainer, rests on
bottom.
Options: SS impellers, SS wet end
2400.490 MSHA approved version.
* including stand
19. 19
Stainless Steel 2700 Series Dewatering Pumps
473
80
70
60
50
40
30
20
10
0 50 100 150 200 250 300 350 400
TOTAL
HEAD
FEET
FLOW GPM
The all stainless steel Flygt 2700 series handles corrosive and abrasive liquids with wide variances in pH levels.
These pumps are built to tackle the toughest dewatering challenges. These drainage pumps can handle lightly
contaminated liquids. Ideal for pH values between 2 and 10, these pumps are tough enough to handle both highly
acidic and highly alkaline media.
BS2720 (SS)
H
W
Model number: 2720.390
Motor rating: 3.1HP@3315RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 8.5 4.2 3.4
Versions: 3” Standard
Imp. Code 242
Discharge conn.: Male NPT
Pump dimensions: 93
/8” W x 233
/4” H
Max. weight (lbs.): 97
Description: Stainless steel construction; open
impeller; rests on bottom strainer.
267
242
160
120
140
100
80
60
40
20
0 100 200 600
500
400
300 700
TOTAL
HEAD
FEET
FLOW GPM
BS2740 (SS)
H
W
Model number: 2740.390
Motor rating: 9HP@3455RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 21A 11A 8.6A
Versions: 3” High head
Imp. Code 267
4” Standard
Imp. Code 242
Hose connection: Male NPT
Pump dimensions: 11” W (max.) x 283
/4” H (max.)
Max. weight (lbs.): 165
Description: Stainless steel construction;
open impellers; rests on
bottom strainer.
267
242
240
180
210
150
120
90
60
30
0 125 250 750 875
625
500
375 1000
TOTAL
HEAD
FEET
FLOW GPM
BS2750 (SS)
H
W
Model number: 2750.390
Motor rating: 13HP@3455RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 31A 15A 12A
Versions: 3” High head
Imp. Code 267
4” Standard
Imp. Code 242
Hose connection: Male NPT
Pump dimensions: 11” W (max.) x 31” H (max.)
Max. weight (lbs.): 198
Description: Stainless steel construction;
open impellers; rests on
bottom strainer.
20. 20
Stainless Steel 2700 Series Sludge Pumps
VORTEX Impellers
442
40
30
35
25
20
15
10
5
0 100 200 500
400
300 600
TOTAL
HEAD
FEET
FLOW GPM
DS2730 (SS)
H
W
Model number: 2730.280
Motor rating: 6.8HP@1675RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 18A 9A 7.3A
Versions: 4” Standard
Imp. Code 442
Hose connection: Male NPT
Pump dimensions: 161
/2” W (max.) x 283
/8” H (max.)
Max. weight (lbs.): 209
Description: Stainless steel construction; vortex
impeller; rests on bottom stand.
80
70
60
50
40
30
20
10
0 50 100 150 200 250 300 350 400
TOTAL
HEAD
FEET
FLOW GPM
242
DS2720 (SS)
H
W
Model number: 2720.280
Motor rating: 3.1HP@3315RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 8.5 4.2 3.4
Versions: 3” Standard
Imp. Code 242
Hose connection: Standard
Pump dimensions: 16 1/2’ W x 28 H
Max. weight (lbs.): 111
Description: Stainless steel construction; open
impeller; rests on bottom strainer.
244
80
60
70
50
40
30
20
10
0 60 90 210
180
150
120 240
TOTAL
HEAD
FEET
FLOW GPM
30
DS2740 (SS)
H
W
Model number: 2740.280
Motor rating: 9HP@3455RPM
Voltage (3ø): 230V 460V 575V
Full load amps: 21A 11A 8.6A
Versions: 3” High head
Imp. Code 244
Hose connection: Male NPT
Pump dimensions: 161
/2” W (max.) x 283
/8” H (max.)
Max. weight (lbs.): 209
Description: Stainless steel construction; vortex
impeller; rests on bottom stand.
21. 21
Flygt 3000 Series
The Flygt Plug-in™ seal is a seal unit
that eliminates the risks associated
with incorrect installation and
careless handling. It comprises the
Active Seal™ system in one easy-to-
handle unit.
The Active Seal™ system is a
patented zero-leakage double-seal
system that actively prevents liquid
from entering the motor cavity,
thereby reducing the risk for bearing
and stator failure. It comprises a
unique inner seal that acts as a micro-
pump and an outer seal that prevents
leakage of pumped media into the
buffer chamber.
Laser-cut grooves on the inner seal
create a hydrodynamic pumping
effect that prevents any leakage from
entering the motor.
This translates into enhanced sealing
reliability, reduced downtime, and
fewer unscheduled maintenance
checks. In addition, regular service
inspections can be prolonged in
many applications.
Inspection chamber
To increase operational reliability, an inspection
chamber between the seal unit and the bearings
enables rapid spot checks and maintenance. In the
case of a seal failure, a built-in sensor provides an
early warning of any fluid build-up, thus reducing
the risk of expensive repair work.
Efficient cooling
These pumps are cooled either by the surrounding
liquid or, in more demanding applications, with an
internal closed-loop cooling system.
Long-life bearings
Durable bearings provide a
minimum service life of
50,000 hours.
Cable entry
Water-resistant cable entry
provides both sealing and
strain relief functions to ensure
a safe installation.
Enduring seals
The Flygt Plug-in™ seal with
the Active Seal™ system offers
increased sealing reliability and
zero leakage into the motor,
thereby reducing the risk of
bearing and stator failure.
Sensors
Thermal sensors embedded
in the stator windings prevent
overheating, and a leakage
sensor in the inspection
chamber minimizes the risk
for bearing and stator failure.
Compliance
Each pump is tested and
approved in accordance with
national and international
standards, including IEC 34-1
and CSA. Pumps are available
in explosion-proof versions for
use in hazardous environments,
and are approved by the
Factory Mutual, European
Standard and IEC.
Better heat transfer
Our specially designed and manufactured motor
provides enhanced cooling because heat losses are
concentrated around the stator. Trickle impregnated
in resin (Class H insulation), the stator windings are
rated at 180°C (355°F) and enable up to 30 starts
per hour.
Flygt Plug-inTM
seal with
Active SealTM
system
Inner seal with
laser-cut
spiral
grooves.
22. 22
Stainless Steel 3000 Series Sludge and Solids-Handling
Sewage Pumps
226
222
274
276
105
90
75
60
45
30
15
0 50 100 150 250
200 300
TOTAL
HEAD
FEET
FLOW GPM
821
175
150
125
100
75
50
25
0 1300 2600 3900 5200 6500
TOTAL
HEAD
FEET
FLOW GPM
636
452
642
804
807
646
464
225
175
200
150
125
100
75
50
25
0 1500 3000 4500 6000 7500 9000
TOTAL
HEAD
FEET
FLOW GPM
CS/DS 3060 (SS)
H
W
Model number: 3060.390
Motor rating: 1ø: 2.5HP@3400RPM
3ø: 3.7HP@3300RPM
Voltage (1ø): 230V
Full load amps: 11A
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 10.8A 9.4A 4.7A 3.8A
Versions: CS: 3” Standard
Imp. Code 226 (1ø), 222 (3ø)
DS: 3” Vortex
Imp. Code 276 (1ø), 274 (3ø)
Hose connection: Slip-on
Pump dimensions: 161
/2” W (max.) x 231
/2” H (max.)
Max. weight (lbs.): 95
Description: CS/DS: Stainless steel
construction; rests on bottom
strainer. CS: Open impeller, with
diffuser. DS: Vortex type impeller.
H
W
CS3300 (SS)
Model number: 3300.280
Motor rating: 60HP@1170RPM & 875RPM
45HP@875RPM
77, 88HP@1170RPM
Voltage (3ø, 60HP): 460V 575V
Full load amps: 73/80A 58/65A
Voltage (3ø,
45/77/88HP): 460V 575V
Full load amps: 60/91/108A 48/ 73/86A
Versions: 6” High hd.,Imp.Code 464 (88HP)
8” Standard
Imp. Code 646 (60HP), 642 (77HP)
10” High volume
Imp. Code 807 (45HP), 804 (60HP)
Hose connection: Slip-on
Pump dimensions: 563
/4” W (max.) x 753
/4” H (max.)
Max. weight (lbs.): 2590
Description: Stainless steel construction;
closed, solids handling impeller,
wear rings; rests on bottom stand.
Model number: 3201.280
Motor rating: 30HP@860RPM
35HP@1170RPM
47HP@1760RPM
Voltage (3ø): 230V
Full load amps: 82/94/116A
460V 575V
41/47/58A 33/38/46A
Versions: 6” High hd.,Imp.Code 452 (47HP)
8” Std., Imp. Code 636 (35HP)
10” High volume
Imp. Code 821 (30HP)
Hose connection: Slip-on
Pump dimensions: 56” W (max.) x 63” H (max.)
Max. weight (lbs.): 1600
Description: Stainless steel construction;
closed, solids handling impeller,
wear rings; rests on bottom stand.
Options: Explosion proof (FM approved)
variant 3201.290
H
W
CS3201 (SS)
23. 23
434
436
45
40
35
30
25
20
15
10
5
0 100 200 300 400 500 600 700
TOTAL
HEAD
FEET
FLOW GPM
CS 3085
H
W
Model number: 3085.183
Motor rating: 1ø: 2.4HP@1750RPM
3ø: 2.2, 3HP@1750RPM
Voltage (1ø): 230V
Full load amps: 10A
Voltage (3ø): 200V 230V
Full load amps: 7.8/10A 6.7/9A
460V 575V
3.4/4.5A 2.7/3.6A
Versions: 3” Std., Imp. Code 436 (1ø, 3ø)
434 (3ø, 3HP only)
Hose connection: NPSM threaded, or slip-on
Pump dimensions: 19” W (max.) x 233
/4” H (max.)
Max. weight (lbs.): 175
Description: Cast iron construction; closed
solids handling impeller with
thrulet, wear ring; rests on stand.
Options: Explosion proof (FM approved)
variant 3085.092
Warm liquid versions available
253
255
105
90
75
60
45
30
15
0 50 100 150 200 250 300
TOTAL
HEAD
FEET
FLOW GPM
CF/CS 3068
H
W
Model number: 3068.180
Motor rating: 1ø: 2.3HP@3300RPM
3ø: 2.7, 3.8HP@3300RPM
Voltage (1ø): 230V
Full load amps: 10A
Voltage (3ø): 200V 230V
Full load amps: 8.5/12A 7.5/10.4A
460V 575V
3.7/5.2A 2.9/4A
Versions: 2” High head
Imp. Code 255 (1ø), 253 (3ø)
Hose connection: Female NPT, Slip-on (optional)
Pump dimensions: 141
/8” W (max.) x 223
/8” H (max.)
Max. weight (lbs.): 84
Description: Cast iron construction; closed
solids handling impeller with
thrulet, rests on legs or stand.
Options: Explosion proof (FM approved)
variant 3068.090
3000 Series Solids-Handling Sewage Pumps
Closed Impellers
CS models feature closed wastewater impellers designed for pumping typical wastewater solids as found in many
sewage applications. Usually, a stationary brass or nitrile rubber wear ring is set into the volute bottom, surrounding
the lower part of the impeller, to prevent wear and maintain hydraulic efficiency. Larger models may also utilize a
stainless steel rotating ring, tightly fitted around the lower part of the impeller, to further reduce wear.
CS 3102
H
W
Model number: 3102.181
Motor rating: 1ø: 3.9HP@1730RPM
3ø: 5HP@1730RPM
Voltage (1ø): 230V
Full load amps: 16A
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 15A 13A 6.6A 5.3A
Versions: 4” Standard
Imp. Code 433 (1ø, 3ø), 432 (3ø)
Hose connection: NPSM threaded, or slip-on
Pump dimensions: 24” W (max.) x 273
/4” H (max.)
Max. weight (lbs.): 245
Description: Cast iron construction; closed
solids handling impeller with
thrulet, wear ring; rests on stand.
Options: Explosion proof (FM approved)
variant 3102.090
Warm liquid version available
24. 24
642
804
807
646
464
225
175
200
150
125
100
75
50
25
0 1500 3000 4500 6000 7500 9000
TOTAL
HEAD
FEET
FLOW GPM
H
W
Model number: 3300.181
Motor rating: 60HP@1170RPM & 875RPM
45HP@875RPM
75HP, 88HP@1170RPM
Voltage (3ø,60HP): 460V 575V
Full load amps: 73/80A 58/ 65A
Voltage (3ø,
45/75/88HP): 460V 575V
Full load amps: 60/91/108A 48/ 73/86A
Versions: 6”High head, Imp.Code 464 (88HP)
8” Standard
Imp. Code 646 (60HP), 642 (75HP)
10” High volume
Imp. Code 807 (45HP), 804 (60HP)
Hose connection: Slip-on
Pump dimensions: 66” W (max.) x 753
/4” H (max.)
Max. weight (lbs.): 1915
Description: Cast iron construction; closed
solids handling impeller with
thrulet, wear ring; rests on stand.
Options: Explosion proof (FM approved)
variant 3300.091
CS 3300
433
483
412
90
75
60
45
30
15
0 400 800 1200 1600 2000
TOTAL
HEAD
FEET
FLOW GPM
H
W
H
W
CS 3127
CS3152
Model number: 3127.182
Motor rating: 1ø: 7.5HP@1730RPM
3ø: 10HP@1730RPM
Voltage (1ø): 230V
Full load amps: 30A
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 29A 26A 13A 10A
Versions: 4” High head
Imp. Code 462 (1ø), 483 (3ø)
6” Std.,Imp.Code 433 (1ø), 432 (3ø)
8” Std.,Imp.Code 412 (1ø), 411 (3ø)
Hose connection: 4” & 6” NPSM threaded, or
4”, 6” & 8” slip-on
Pump dimensions: 311
/2” W (max.) x 303
/4” H (max.)
Max. weight (lbs.): 400
Description: Cast iron construction; closed
solids handling impeller with
thrulet, wear ring; rests on stand.
Options: Explosion proof (FM approved)
variant 3127.091
Warm liquid version available
620
454
268
436
240
200
160
120
80
40
0 500 1000 1500 2000 2500 4500
4000
3500
3000
TOTAL
HEAD
FEET
FLOW GPM
Model number: 3152.181
Motor rating: 14HP @ 1160 RPM
15HP @ 1745 RPM
20HP @ 1750 RPM
23HP @ 3500 RPM
Voltage
(3Ø, 14 / 15HP): 200V 230V 460V 575V
Full load amps: 41/45 37/39 18/20 14/16
Voltage
(3Ø, 20 / 23HP): 200V 230V 460V 575V
Full load amps: 58/61 51/53 26/26 20/21
Versions: 4” High head
Imp. Code 454 (20HP), 268 (SH, 23HP)
6” Standard, Imp. Code 436 (15HP)
10” High Volume, Imp. Code 620 (14HP)
Hose connection: 4” & 6” NPSM threaded, or
4”, 6” & 8” slip-on
Pump dimensions: 42” W (max.) x 48-1/4” H (max.)
Max. weight (lbs.): 940
Description: Cast iron construction; closed
solids handling impeller with
thrulet, wear ring; rests on stand.
Options: Explosion proof (FM approved)
variant 3127.091
Warm liquid version available
25. 25
3000 Series N-Pump Sewage Pumps
N–Impellers
40
35
30
25
20
15
10
5
0 100 200 300 400 600
500 700
TOTAL
HEAD
FEET
FLOW GPM
463
(1ø, 3ø)
462
(3ø)
40
35
30
25
20
15
10
5
0 200 400 800
600 1000
TOTAL
HEAD
FEET
FLOW GPM
423
422
These pumps are equipped with Flygt’s innovative “self-cleaning” N-impeller. The open impeller works with
a special relief groove at the bottom of the volute to continually keep it free from solids build-up. This proven
design not only reduces clogging but also ensures continued long-term efficiencies, which significantly reduce
electrical operating costs. An excellent choice where troublesome solids are present in the water to be
pumped.
NS3085
H
W
Model number: 3085.183
Motor rating: 1ø: 2.4HP@1750RPM
3ø: 2.2, 3HP@1750RPM
Voltage (1ø): 230V
Full load amps: 10A
Voltage (3ø): 200V 230V
Full load amps: 7.8/10A 6.7/9A
460V 575V
3.4/4.5A 2.7/3.6A
Versions: 3” Standard
Imp. Code 463 (1ø, 3ø), 462 (3ø)
Hose connection: NPSM threaded, or slip-on
Pump dimensions: 173
/4” W (max.) x 241
/4” H (max.)
Max. weight (lbs.): 175
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3085.092
Warm liquid version available
Model number: 3102.181
Motor rating: 5HP@1730RPM
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 15A 13A 6.6A 5.3A
Versions: 4” & 6” High volume
Imp. Code 422, 423
Hose connection: NPSM threaded, or slip-on
Pump dimensions: 27” W (max.) x 281
/2” H (max.)
Max. weight (lbs.): 118
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3102.090
Warm liquid version available
NS3102
H
W
26. 26
80
90
70
60
50
40
30
20
10
0 300 600 1500
1200
900 1800
TOTAL
HEAD
FEET
FLOW GPM
438
488
489
422
439
421
180
210
240
150
120
90
60
30
0 700 1400 2100 2800
TOTAL
HEAD
FEET
FLOW GPM
274
462
461
433
413
613
435
120
100
80
60
40
20
0 1000 4000
3000
2000 5000
TOTAL
HEAD
FEET
FLOW GPM
NS 3153
NS 3171
H
W
H
W
NS 3127
H
W
Model number: 3153.185
Motor rating: 20HP@1755RPM
23HP@3510RPM
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 59A 52A 26A 21A
Versions: 4” Super high head, Imp. Code 274
4” High head, Imp. Code 461
6” Standard, Imp. Code 433
8” High volume, Imp. Code 413
Hose connection: 4”, 6” & 8” Slip-on
Pump dimensions: 42” W (max.) x 471
/4” H (max.)
Max. weight (lbs.): 840 - High volume, 530 - Standard
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3153.095
Model number: 3171.185
Motor rating: 25HP@1160RPM
30HP@1740RPM
Voltage (3ø): 230V 460V
Full load amps: 64/74 32/37
575V
25/30/31A
Versions: 6” Standard, Imp. Code 435
10” High volume, Imp. Code 613
Hose connection: 6” & 10” Slip-on
Pump dimensions: 451
/2” W (max.) x 511
/4” H (max.)
Max. weight (lbs.): 1060 - High volume, 770 - Standard
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3171.095
Model number: 3127.185
Motor rating: 1ø: 7.5HP@1730RPM
3ø: 10HP@1740RPM
Voltage (1ø): 230V
Full load amps: 30A
Voltage (3ø): 200V 230V 460V 575V
Full load amps: 29A 26A 13A 10A
Versions: 4” & 8” Standard
Imp. Code 420 (1ø), 438 (3ø)
8” High volume
Imp. Code 422 (1ø), 421 (3ø)
4” High head
Imp. Code 489 (1ø), 488 (3ø)
Hose connection: 4” & 6”NPSM threaded, or slip-on
4”, 6” & 8” Slip-on
Pump dimensions: 311
/2” W (max.) x 303
/4” H (max.)
Max. weight (lbs.): 400
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3127.095
Warm liquid version available
27. 27
454
275
300
250
200
150
100
50
0 200 800 1000 1200 1400
600
400 1600
TOTAL
HEAD
FEET
FLOW GPM
150
175
200
125
100
75
50
25
0 2000 4000 6000 8000
TOTAL
HEAD
FEET
FLOW GPM
458
614
640
636
624
462
300
250
200
150
100
50
0 2000 8000
6000
4000 10000
TOTAL
HEAD
FEET
FLOW GPM
H
W
NS 3202
NS 3301
H
W
NS 3171 (Continued)
H
W
Model number: 3202.185
Motor rating: 60HP@1170RPM & 1775RPM
70HP@1775RPM
Voltage (3ø): 460V 575V
Full load amps: 72/68/80A 58/55/63A
Versions: 6” High head
Imp. Code 458
8” Standard
Imp. Code 640
10” High volume
Imp. Code 614
Hose connection: 6”, 8” & 10” Slip-on
Pump dimensions: 521
/2” W (max.) x 62” H (max.)
Max. weight (lbs.): 1985 - High volume
1340 - Standard
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3202.095
Model number: 3301.185
Motor rating: 85HP@1185RPM
105HP@1780RPM
Voltage (3ø): 460V 575V
Full load amps: 109/121A 88/97A
Versions: 6” High head
Imp. Code 462
10” Standard
Imp. Code 636
12” High volume
Imp. Code 624
Hose connection: 6”, 10” & 12” Slip-on
Pump dimensions: 563
/4” W (max.) x 671
/4” H (max.)
Max. weight (lbs.): 1985 - High volume
1340 - Standard
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3301.095
Model number: 3171.185
Motor rating: 30HP@1740RPM
34HP@3525RPM
Voltage (3ø): 230V 460V
Full load amps: 74/79A 37/40A
575V
25/30/31A
Versions: 4” Super high head
Imp. Code 275
4” High head
Imp. Code 454
Hose connection: 4”, 6” & 10” Slip-on
Pump dimensions: 451
/2” W (max.) x 511
/4” H (max.)
Max. weight (lbs.): 1060 - High volume, 770 - Standard
Description: Cast iron construction; semi-open,
backswept multi-vane, self-cleaning
impeller; rests on stand.
Options: Explosion proof (FM approved)
variant 3171.095
28. 28
3000 Series Heavy-Duty Sewage Pumps for Rental
458
300
150
200
250
100
50
0 500 1000 1500 2000 2500 3000
TOTAL
HEAD
FEET
FLOW GPM
670
180
150
90
120
30
60
0 2000 4000 6000 8000 10000
TOTAL
HEAD
FEET
FLOW GPM
When higher capacity is required, these models deliver unprecedented pumping power – reliably and efficiently.
NS 3315
NS 3312
H
W
H
W
Model number: 3315.090
Motor Rating: 160HP @ 1780 RPM
Voltage: 460V
Full load amps: 190
Versions: 6” High Head
Imp. Code 458
Hose connection: NPSM threaded
Pump dimensions: 40 1/8” W x 78 1/2” H
Max. weight (lbs.): 2690
Description: Cast iron construction;
semi-open, backswept
multi-vane, self-cleaning
impeller; rests on bottom stand.
Options: Explosion proof (FM approved)
Model number: 3312/746
Motor Rating: 215HP @ 1185 RPM
Voltage: 460V
Full load amps: 254
Versions: 12” Standard
Imp. Code 670 (455mm trim)
Hose connection: ANSI Flange
Pump dimensions: 52 5/8” W x 93 3/4” H
Max. weight (lbs.): 5126
Description: Cast iron construction;
semi-open, backswept
multi-vane, self-cleaning
impeller; rests on bottom stand.
29. 29
120
80
100
40
60
20
0 2000 10000 12000
8000
4000 6000 14000
TOTAL
HEAD
FEET
FLOW GPM
830
840
140
100
120
80
60
40
20
0 4000 8000 12000 16000 2000 2400
TOTAL
HEAD
FEET
FLOW GPM
CS 3400
CS 3531
Model number: 3400/805
Motor Rating: 240HP @ 890 RPM
Voltage: 460V
Full load amps: 295
Versions: 16” Standard
Imp. Code 830
(510mm trim)
Hose connection: ANSI Flange
Pump dimensions: 63 1/2” W x 102 1/2” H
Max. weight (lbs.): 6350
Description: Cast iron construction;
closed solids-handling
impeller with thrulet,
wear ring; rests on stand.
Model number: 3531/835
Motor Rating: 335HP @ 890 RPM
Voltage: 460V
Full load amps: 430
Versions: 20” Standard
Imp. Code 840
(560mm trim)
Hose connection: 24” ANSI Flange Elbow
Pump dimensions: 102” W x 132” H
Max. weight (lbs.): 13,405 (including stand,
elbow, vortex plate
Description: Cast iron construction;
closed solids-handling
impeller with thrulet,
wear ring; rests on stand.
H
W
H
W
30. 30
Flygt 5000 Series
The main difference between slurry
and wastewater pumps is in the parts that
are in direct contact with the slurry and thus
subject to wear by the slurry’s solid particles.
A chain is only as strong as its weakest link. That’s why we pay attention
to the details: it’s only by eliminating all the weak links that we can
supply pumps our customers really can rely on. Pumps that give them
greater peace of mind.
Inspection chamber
To increase operational reliability, an
inspection chamber between the seal
unit and the bearings enables rapid
spot checks and maintenance. In the
case of a seal failure, a built-in sensor
provides an early warning of any fluid
build-up, thus reducing the risk of
expensive repair work.
Efficient cooling
These pumps are cooled either by the surrounding
liquid or, in more demanding applications, with an
internal closed-loop cooling system.
Long-life bearings
All slurry pumps have two row
angular contact ball bearings as
the main bearing because they
give a high load capability in the
radial as well as the axial direction.
The bearings are well protected
with a lifetime lubrication of high
performance grease.
Cable entry
Water-resistant cable entry
provides both sealing and
strain relief functions to
ensure a safe installation.
Seals
The seals for the slurry pumps
are designed to cope with
highly abrasive pump media.
Only the seal rings are
exposed to the media. Other
parts of the seal, such as
springs and torque locks, are
protected from wear, clogging,
and corrosion inside the seal
housing.
Sensors
Thermal sensors embedded in
the stator windings prevent
overheating, and a leakage
sensor in the inspection
chamber minimizes the risk
for bearing and stator failure.
Agitator
The pump can be equipped with an
agitator. The unique design of Flygt
agitators create a strong vertical
thrust, which forces settled solids
into suspension. This makes the
particles easier to transport and
ensures a cleaner sump at the
end of the pumping cycle. When
pumping coarse slurries, an agitator
mounted on the pump shaft
resuspends settled particles and
makes them possible to transport.
Better heat transfer
Our specially designed and manufactured motor
provides enhanced cooling because heat losses are
concentrated around the stator. Trickle impregnated
in resin (Class H insulation), the stator windings are
rated at 180°C (355°F) and enable up to 30 starts
per hour.
Flygt 5150-series submersible pump equipped with agitator
31. 31
5000 Series Heavy-Duty Slurry Pumps
80
120
60
40
20
0 200 400
TOTAL
HEAD
FEET
FLOW GPM
600 800 1000 1200 1400
100
140
632
630
432
x
x
x Optional Agitator Version
80
120
60
40
20
0 200 400
TOTAL
HEAD
FEET
FLOW GPM
600 800 1000 1200 1400
100
140
632
630
432
430
x
x
x
x Optional Agitator Version
HS 5100/5500 series pumps will easily handle extremely abrasive slurries containing sand, gravel, grit, or ash, without
damage. Both the impeller and pump casing are made of high chrome alloyed cast iron, for maximum abrasion
resistance. The HS 5100 series pumps use a one-piece pump casing, while the HS 5500 series have a replaceable liner
of high chrome alloyed cast iron. Heavy-duty mechanical seals are protected by a unique expeller and pressure isolation
chamber. The optional agitator, when attached to the shaft, resuspends particles around the pump inlet.
HS5100.211
H
W
H
W
HS5100.251
Model number: 5100.211
Motor rating: 15HP@1150RPM
20HP@1755RPM
Voltage (3ø): 230V
Full load amps: 46/52A
460V 575V
22/26A 17/21A
Versions: 4” Std., Imp.
4” High vol., Imp.
Discharge conn: 4” Victaulic
Pump dimensions: 231/2” W (max.),
451
/4” H (max.)
Max. weight (lbs.): 555
Description: Cast iron construction with high
chrome volute; high chrome
multi-vane closed impeller; rests
on stand.
Options: Agitator;
Explosion proof (FM approved)
variant 5100.221
Model number: 5100.251
Motor rating: 25HP@1160RPM
34HP@1760RPM
Voltage (3ø): 230V
Full load amps: 64/81A
460V 575V
32/40A 25/32A
Versions: 4” Std., Imp.
4” High vol., Imp.
Discharge conn: 4” Victaulic
Pump dimensions: 231
/2” W (max.),
501
/4” H (max.)
Max. weight (lbs.): 710
Description: Cast iron construction with high
chrome volute; high chrome
multi-vane closed impeller; rests
on stand.
Options: Agitator;
Explosion proof (FM approved)
variant 5100.261
32. 32
80
120
60
40
20
0 200 400
TOTAL
HEAD
FEET
FLOW GPM
600 800 1000 1200 1400
100
140
632
630
432
430
x
x
x
x
x Optional Agitator Version
150
200
50
0 500 1000
TOTAL
HEAD
FEET
FLOW GPM
1500 2000 2500 3000 3500
100
250
432 x
x Optional Agitator Version
434 x
150
200
50
0 500 1000
TOTAL
HEAD
FEET
FLOW GPM
1500 2000 2500 3000 3500
100
250
432x
x Optional Agitator Version
434x
436x
438x
430x
HS5150.300
HS5150.350
HS5100.300
H
W
H
W
H
W
Model number: 5100.300
Motor rating: 45HP@1170RPM
70HP@1775RPM
Voltage (3ø): 460V 575V
Full load amps: 55/72/80A 44/58/63A
Versions: 4” Standard
Imp.Code 430, 432
4” High volume
Imp. Code 630, 632
Discharge conn: 4” Victaulic
Pump dimensions: 231
/2” W (max.),
573
/4” H (max.)
Max. weight (lbs.): 1095
Description: Cast iron construction with high
chrome volute; high chrome
multi-vane closed impeller; rests
on stand.
Options: Agitator;
Explosion proof (FM approved)
variant 5100.310
Model number: 5150.300
Motor rating: 60HP@1775RPM
Voltage (3ø): 460V 575V
Full load amps: 68/80A 55/63A
Versions: 6” Standard
Imp.Code 432, 434
Discharge conn: 6” Victaulic
Pump dimensions: 341
/2” W (max.),
651
/4” H (max.)
Max. weight (lbs.): 1465
Description: Cast iron construction with high
chrome volute; high chrome
multi-vane closed impeller; rests
on stand.
Options: Agitator;
Explosion proof (FM approved)
variant 5150.310
Model number: 5150.350
Motor rating: 85HP@1775RPM
Voltage (3ø): 460V 575V
Full load amps: 101/125A 80/101A
Versions: 6” Standard
Imp.Code 430, 432, 434,
436, 438
Discharge conn: 6” Victaulic
Pump dimensions: 341
/2” W (max.),
701
/4” H (max.)
Max. weight (lbs.): 2005
Description: Cast iron construction with high
chrome volute; high chrome
multi-vane closed impeller; rests
on stand.
Options: Agitator;
Explosion proof (FM approved)
variant 5150.360
33. 33
436
70
60
50
40
30
20
10
0 100 200 400 500 600
300 700
TOTAL
HEAD
FEET
FLOW GPM
436
80
70
60
50
40
30
20
10
0 200 400 800 1000
600 1200
TOTAL
HEAD
FEET
FLOW GPM
100
60
80
40
20
0 2000 10000 12000
8000
4000 6000 14000
TOTAL
HEAD
FEET
FLOW GPM
434
Model number: 5520.180
Motor rating: 5HP@1735RPM
Voltage (3ø): 460V
Full load amps: 6.6A
Discharge conn: 4” Flange
Impeller code: 436
Pump dimensions: 291
/2” W (max.),
331
/2” H (max.)
Max. weight (lbs.): 380
Stator and pump
housing material: Cast iron
Options: FM approved variant;
Warm liquid version available
HS5530
HS5540
HS5520
H
W
H
W
H
W
Model number: 5530.180
Motor rating: 10HP@1740RPM
Voltage (3ø): 460V
Full load amps: 13A
Discharge conn: 6” Flange
Impeller code: 436
Pump dimensions: 421
/2” W (max.),
40” H (max.)
Max. weight (lbs.): 680
Stator and pump
housing material: Cast iron
Options: Agitator;
FM approved variant;
Warm liquid version available
Model number: 5540.181
Motor rating: 20HP @ 1750 RPM
Voltage (3ø): 460V
Full load amps: 26
Discharge conn: 6” Flange
Impeller code: 434
Pump dimensions: 421
/2” W (max.),
46 1
/4” H (max.)
Max. weight (lbs.): 891
Stator and pump
housing material: Cast iron
Options: Agitator (Imp. Code 435);
FM approved variant;
Warm liquid version available
670
470
320
280
240
200
160
120
80
40
0 1000 3000
2000 5000
4000 6000
TOTAL
HEAD
FEET
FLOW GPM
HS5570
H
W
Model number: 5570.180
Motor rating: 335HP@1760RPM
280HP@1185RPM
Voltage (3ø): 460V 575V
Full load amps: 365/345A 300/266A
Discharge conn: 8” Flange
Impeller code: 470, 670
Pump dimensions: 59” W (max.),
801
/4” H (max.)
Max. weight (lbs.): 3230
Stator and pump
housing material: Cast iron
Options: Agitator;
FM approved variant;
Warm liquid version available
34. 34
Automatic Level Control Systems
Xylem offers a family of automatic controls that allow unattended operation of Flygt
portable pumps. They are available with either two Flygt ENM-10 level sensors or
with FPC 100 controller. The FPC 100 allows for automatic pump operation without
the use of floats or level sensors.
A complete range of manual controls are available for medium and large
portable Flygt submersible pumps. Each NEMA 4X enclosure is equipped with
the correct circuit breaker/overload for pump protection of the model involved.
Manual Control for Medium and Large Portable Pumps
Manual Control for Small Portable Pumps
Zinc Anodes
These strong, rugged units provide easy manual control and full electrical
protection for smaller Flygt portable submersibles. They include Flygt short-
circuit and overload protection, along with starting components for single phase
models, housed in a NEMA 4X watertight and corrosion resistant enclosure.
High grade zinc anode kits are available for most Flygt submersible pumps to
help protect against the damaging effects of galvanic corrosion. The anodes are
easily mounted to the pump with the stainless steel hardware provided. Specify
exact pump model when ordering.
Flygt Accessories
35. 35
Tandem Coupling Kits
Tandem coupling kits are available for most models, allowing the pump to
connect in series with another Flygt submersible pump to overcome severe
vertical heights. The coupling kit is easily installed after the strainer is removed,
allowing the connecting hose from another pump to be attached with clamps.
Consult your nearest Flygt location for pressure limitations and other application
requirements.
Flygt FPC100 Automatic Pump Controller
The Flygt FPC100 Automatic Pump Controller is used primarily for dewatering
pumps in construction and mining applications where ordinary level sensors are not
the ideal choice. The FPC 100 offers entirely automatic pump control without the
need for components built into the pump or separate level sensor arrangements.
Flygt pump flotation modules (PFM) have been developed to provide a lightweight
and cost-effective alternative to traditional steel pontoons. The flotation modules
are prefabricated from strong polyethylene with foam filling. The pump floats close
to the surface, increasing the pump’s service life and reducing maintenance since
the pump is no longer working in a high solids environment.
The Flygt low suction collar removes unwanted water down to very low levels
when required for emergency services. This works with pump models 2610,
2620 and 2640.
Flygt Pump Flotation Modules
Low Suction Collar