The leading manufacturer in High pressure pump
- The specialized company in Air Gas Booster, Air Liquid pump, metering pump, the pressure testing machine, etc.
The document summarizes the use of a gas-lift hybrid system using both electrical submersible pumps (ESPs) and gas lift in offshore wells in Northwest Java. It provides background on the field and outlines the benefits of the hybrid system, including optimizing production rates and ensuring uninterrupted production. It presents an example of implementing the hybrid system on two wells when one ESP failed, allowing continued production. The hybrid system was found to prevent lost production and increase profits compared to conventional methods.
Camco injection-pressure-operated gas lift valves use nitrogen-charged bellows and a hydraulic dampening system to remain closed until overcoming the bellows pressure from injection gas. They are used for continuous or intermittent production through tubing or annular flow. Benefits include uniform operation, extended run life, versatility, and increased reliability and efficiency. Valves are available in 1-inch or 1.5-inch sizes with port options and integral reverse-flow check valves.
Sucker rod pumping short course!!! ~downhole diagnosticenLightNme888
Six-page Petroleum Engineering info-graphic detailing Sucker Rod Pumping of Oil Wells and how to effectively design, operate, and optimize the well's producing efficiency. This is an amazing reference guide for anyone involved with Beam Lift as a means of Artificial Lift!!
www.downholediagnostic.com
This document provides an overview of a training session on air compressors and compressed air systems. It discusses the different types of compressors including reciprocating, rotary, centrifugal and axial compressors. It also covers how to assess compressors and compressed air systems to determine capacity, efficiency and leaks. Finally, it outlines various energy efficiency opportunities such as optimizing pressure settings and intake air conditions, installing intercoolers and aftercoolers, minimizing leaks, and implementing proper maintenance practices.
This document provides information on gas lift valve mechanics, including the three basic types of gas lift valves, how they operate, and the forces involved in opening and closing them. It discusses unloading valves, orifice valves, and how gas lift valves close in sequence from the bottom of the well upward. Diagrams show the components of different gas lift valve designs and the formulas used to calculate valve opening and closing pressures.
This document provides information about gas lift optimization. It discusses the need for gas lift when wells are not producing through natural flow. Gas lift involves injecting natural gas into the well to lift fluids to the surface. The document outlines the basic principles of gas lift and gas lift systems. It describes how gas lift valves work and the process of unloading a well using multiple unloading valves. The goal of optimization is to find the optimal injection point and amount of gas injected to maximize oil production rates. Charts are provided showing well performance curves with injection rate versus oil rate.
The document provides an overview of ASME B&PV Code Section I requirements for pressure relief valves (PRVs). It discusses the history and development of the code, typical boiler configurations that utilize PRVs, PRV performance requirements including set pressure, blowdown and flow coefficients, material selection standards, and applications for PRVs on boilers, heat recovery steam generators, and other vessels. It also summarizes key operating requirements for PRVs regarding overpressure, blowdown, and accumulation limits.
Artificial Lift Products from Evolution Oil ToolsGeoffrey Brennan
In the US, 96 percent of oil and gas wells require artificial lift when they are established. Worldwide only about 5% of today’s wells have enough natural lift to be profitable. Artificial lift refers to the process by which internal pressure of an oil reservoir is raised in order to drive oil to the surface. This system increases the productivity of the well.
Evolution Oil Tools has a complete selection of Artificial Lift Tools and accessories to meet your needs.
The document summarizes the use of a gas-lift hybrid system using both electrical submersible pumps (ESPs) and gas lift in offshore wells in Northwest Java. It provides background on the field and outlines the benefits of the hybrid system, including optimizing production rates and ensuring uninterrupted production. It presents an example of implementing the hybrid system on two wells when one ESP failed, allowing continued production. The hybrid system was found to prevent lost production and increase profits compared to conventional methods.
Camco injection-pressure-operated gas lift valves use nitrogen-charged bellows and a hydraulic dampening system to remain closed until overcoming the bellows pressure from injection gas. They are used for continuous or intermittent production through tubing or annular flow. Benefits include uniform operation, extended run life, versatility, and increased reliability and efficiency. Valves are available in 1-inch or 1.5-inch sizes with port options and integral reverse-flow check valves.
Sucker rod pumping short course!!! ~downhole diagnosticenLightNme888
Six-page Petroleum Engineering info-graphic detailing Sucker Rod Pumping of Oil Wells and how to effectively design, operate, and optimize the well's producing efficiency. This is an amazing reference guide for anyone involved with Beam Lift as a means of Artificial Lift!!
www.downholediagnostic.com
This document provides an overview of a training session on air compressors and compressed air systems. It discusses the different types of compressors including reciprocating, rotary, centrifugal and axial compressors. It also covers how to assess compressors and compressed air systems to determine capacity, efficiency and leaks. Finally, it outlines various energy efficiency opportunities such as optimizing pressure settings and intake air conditions, installing intercoolers and aftercoolers, minimizing leaks, and implementing proper maintenance practices.
This document provides information on gas lift valve mechanics, including the three basic types of gas lift valves, how they operate, and the forces involved in opening and closing them. It discusses unloading valves, orifice valves, and how gas lift valves close in sequence from the bottom of the well upward. Diagrams show the components of different gas lift valve designs and the formulas used to calculate valve opening and closing pressures.
This document provides information about gas lift optimization. It discusses the need for gas lift when wells are not producing through natural flow. Gas lift involves injecting natural gas into the well to lift fluids to the surface. The document outlines the basic principles of gas lift and gas lift systems. It describes how gas lift valves work and the process of unloading a well using multiple unloading valves. The goal of optimization is to find the optimal injection point and amount of gas injected to maximize oil production rates. Charts are provided showing well performance curves with injection rate versus oil rate.
The document provides an overview of ASME B&PV Code Section I requirements for pressure relief valves (PRVs). It discusses the history and development of the code, typical boiler configurations that utilize PRVs, PRV performance requirements including set pressure, blowdown and flow coefficients, material selection standards, and applications for PRVs on boilers, heat recovery steam generators, and other vessels. It also summarizes key operating requirements for PRVs regarding overpressure, blowdown, and accumulation limits.
Artificial Lift Products from Evolution Oil ToolsGeoffrey Brennan
In the US, 96 percent of oil and gas wells require artificial lift when they are established. Worldwide only about 5% of today’s wells have enough natural lift to be profitable. Artificial lift refers to the process by which internal pressure of an oil reservoir is raised in order to drive oil to the surface. This system increases the productivity of the well.
Evolution Oil Tools has a complete selection of Artificial Lift Tools and accessories to meet your needs.
This document provides instructions for performing a heavy-duty gas turbine combustion inspection. It lists the typical combustion hardware that needs to be inspected, including combustion liners, endcovers, fuel nozzles, transition pieces, cross fire tubes, and flow sleeves. Standard inspection intervals are every 8,000 hours or 900 starts. The inspection involves removing, inspecting, and repairing combustion components. Replacement parts should be available for installation after the inspection is complete. A series of 18 operations is outlined to remove the various combustion and fuel system components to allow for inspection.
This document discusses overpressure scenarios and required relief rates for process equipment. It identifies key data needed for the analysis such as P&IDs and equipment specifications. Common overpressure scenarios are described such as fires, control valve failures, thermal expansion, and utility failures. Industry guidelines for analyzing these scenarios are presented. Methods for determining applicable scenarios, calculating relief rates, and addressing special cases like gas blowby are outlined. The document stresses being conservative in initial analysis and reviewing all relevant guidelines.
Production optimization using gas lift techniqueJarjis Mohammed
After completed the drilling, set the tubing and completed the well successfully, Petroleum engineers realize that the hydrocarbon fluid won't lift up from bottom hole to the surface by its reservoir drives which are mainly gas cap or water drive. Simply the gas lift technique is to reduce the density of hydrocarbon fluid inside the well to lift it to the surface by injecting compressed gas.
Monitrol is a turn-key fluid control system including a globe style control valve, a variety of built in sensors for Flow, Pressure and Temperature, a High Precision Electric Actuator, along with controller and an easy to use Touch Screen interface. Monitrol can manage up to three variables (sensors), simultaneously with its control logic. Flexibility allows the control logic in Monitrol to be bypassed if that is desired. A Building Management System can still maintain all control and just make use of the sensor information if that is desired. A full range of I/O signals, feedback and modbus TCP communications are standard.
Gas Lift Optimization and Troubleshooting Bailey LeRoux
This document provides an overview of gas-lift optimization and troubleshooting. It discusses identifying underperforming wells using metrics like the well performance factor and target injection differential. It then covers optimizing wells by adjusting injection gas rates, removing surface restrictions, redesigning the system, and adding secondary lift. Common inlet, outlet, and downhole problems are outlined along with tests and adjustments to address issues. Tuning the well for continuous flow is also described. Finally, tools for surface and subsurface data collection to aid in troubleshooting are listed.
Bullheading is a common non-circulating method for killing live wells prior to workovers. It involves pumping kill fluid into the tubing to displace produced fluids back into the formation. A bullheading schedule is generated using formation pressure, desired overbalance, fracture pressure, tubing specifications, and pump data to safely control pumping pressures within the initial and final maximum pressures. The schedule provides checkpoints to monitor pumping pressure and volume throughout the operation. Special attention should be paid to any increases in casing pressure which could indicate downhole issues.
The document discusses the hydrogen seal oil system on a generator. It describes the purpose of the system as preventing hydrogen gas from escaping along the generator shaft by forming an oil film between the shaft and seal ring. It outlines the normal flow path of oil through the main seal oil pump and other components like the vacuum tank, emergency seal oil pump, and detraining tanks. It also discusses potential failures of components like pumps and the float trap, and the appropriate operator actions to take in response.
Artificial lift technology uses mechanical devices like pumps or velocity strings to increase the flow of liquids like oil or water from production wells. Artificial lift is needed when reservoir pressure is insufficient to lift fluids to the surface. Common artificial lift systems include reciprocating rod lift, progressing cavity pumping, hydraulic lift, gas lift, plunger lift, and electric submersible pumping. The appropriate system depends on factors like well characteristics, reservoir properties, fluids, surface constraints, and economics. Key components include pumping units, motors, sucker rods, pumps and accessories. Benefits include flexibility and ability to optimize production levels. Limitations depend on the specific system but may include depth rating, temperature sensitivity, fluid properties, or need for a
The document provides instructions for various operations at a thermal power plant, including:
1) Charging the PRDS system and opening associated valves.
2) Opening valves in the cooling water system and starting the cooling water pump.
3) Heating the deaerator and establishing feedwater flow to the boiler by regulating valves.
4) Starting the boiler feed pumps and monitoring associated parameters.
5) Charging the main steam lines and monitoring drum level and flue gas temperatures.
6) Building condenser vacuum by opening air vents and valves, starting the ejectors, and admitting gland sealing steam.
Control valves are instruments that control the flow of fluids through passages by varying the size of the passageway. They have a body, actuator, and positioner. The actuator directly controls the opening and closing of the valve body in response to signals from the positioner. Common actuator types include pneumatic, hydraulic, and electric. Pneumatic actuators typically use compressed air and a diaphragm to move the valve stem and vary the flow opening. Positioners receive control signals and ensure the actuator moves the valve to the desired position.
Thermal Power Plant Simulator Hands-on MalfunctionsManohar Tatwawadi
The presentation describes some of the malfunctions in a Power Plant. Many more can be simulated and operators told to handle the situations in the simulator. The trippings of Generator, turbine, boilers and all auxiliaries can be simulated to get hands on practice on the simulator before operating the actual turbogenerator and boiler associated equipment.
MS Lines, Turbine Casings and rotors and other steam lines including Steam Stop Valves, MSV, CV, ESV heating, Turbine Rolling, Flange and Stud heating, Turbovisory and speeding the turbine to 3000 RPM.
Kadant steam jet thermocompressors recirculate or boost lower-pressure steam for reuse in industrial processes. Thermocompressors work by mixing lower-pressure steam with higher-pressure motive steam, transferring momentum to increase the lower steam's pressure. Kadant offers standard and high-efficiency thermocompressor models, with the latter providing up to 25% greater entrainment efficiency through computational fluid dynamics modeling and optimized geometry.
Cunico manufactures high quality Cartridge Valves for Submarine, Aircraft and Carrier Rocket Launcher. Valve Cartridges are Interchangeable within each Valve Body.
This document provides specifications for GB-SD series gas boosters. It lists three models - GB-SD-60, GB-SD-100, and GB-SD-160 along with their key specifications like maximum pressure, inlet and outlet ports, discharge rate, weight, and pressure ratio. The document also contains a performance graph and formulas for theoretical charging time while noting variables that can impact high pressure performance.
This document contains specifications for several gas booster models: GB-DD-14, GB-DD-28, GB-DD-60, and GB-DD-100. It lists key parameters for each model including maximum pressure, inlet pressure, port sizes, discharge rate, weight, pressure ratio, and operating pressure ranges. It also provides a theoretical charging time formula and notes several variables that impact pressure increase under high pressure conditions.
This document provides specifications for a single-stage, air-driven gas booster. It includes details on the type, maximum pressure, inlet/outlet ports, discharge rate, weight, and precautions for different gas booster models. A theoretical charging time formula and graph are also presented to explain the relationship between inlet air pressure, compression ratio, and outlet gas pressure for the GB-SS series gas boosters.
This document provides specifications for several GB-DS type gas booster models. It lists the key specifications for each model including the pressure ratio, inlet and outlet ports, discharge rate, weight, and minimum and maximum operating pressures. It also provides a diagram of the main components of the gas booster, which includes an air driven section, inlet, outlet, poppet valve, high pressure cylinder, and silencer. The document notes that product specifications may vary depending on usage and lists some important variables that affect the gas booster's performance when increasing pressure, such as driven air pressure and flow rate.
This document provides instructions for performing a heavy-duty gas turbine combustion inspection. It lists the typical combustion hardware that needs to be inspected, including combustion liners, endcovers, fuel nozzles, transition pieces, cross fire tubes, and flow sleeves. Standard inspection intervals are every 8,000 hours or 900 starts. The inspection involves removing, inspecting, and repairing combustion components. Replacement parts should be available for installation after the inspection is complete. A series of 18 operations is outlined to remove the various combustion and fuel system components to allow for inspection.
This document discusses overpressure scenarios and required relief rates for process equipment. It identifies key data needed for the analysis such as P&IDs and equipment specifications. Common overpressure scenarios are described such as fires, control valve failures, thermal expansion, and utility failures. Industry guidelines for analyzing these scenarios are presented. Methods for determining applicable scenarios, calculating relief rates, and addressing special cases like gas blowby are outlined. The document stresses being conservative in initial analysis and reviewing all relevant guidelines.
Production optimization using gas lift techniqueJarjis Mohammed
After completed the drilling, set the tubing and completed the well successfully, Petroleum engineers realize that the hydrocarbon fluid won't lift up from bottom hole to the surface by its reservoir drives which are mainly gas cap or water drive. Simply the gas lift technique is to reduce the density of hydrocarbon fluid inside the well to lift it to the surface by injecting compressed gas.
Monitrol is a turn-key fluid control system including a globe style control valve, a variety of built in sensors for Flow, Pressure and Temperature, a High Precision Electric Actuator, along with controller and an easy to use Touch Screen interface. Monitrol can manage up to three variables (sensors), simultaneously with its control logic. Flexibility allows the control logic in Monitrol to be bypassed if that is desired. A Building Management System can still maintain all control and just make use of the sensor information if that is desired. A full range of I/O signals, feedback and modbus TCP communications are standard.
Gas Lift Optimization and Troubleshooting Bailey LeRoux
This document provides an overview of gas-lift optimization and troubleshooting. It discusses identifying underperforming wells using metrics like the well performance factor and target injection differential. It then covers optimizing wells by adjusting injection gas rates, removing surface restrictions, redesigning the system, and adding secondary lift. Common inlet, outlet, and downhole problems are outlined along with tests and adjustments to address issues. Tuning the well for continuous flow is also described. Finally, tools for surface and subsurface data collection to aid in troubleshooting are listed.
Bullheading is a common non-circulating method for killing live wells prior to workovers. It involves pumping kill fluid into the tubing to displace produced fluids back into the formation. A bullheading schedule is generated using formation pressure, desired overbalance, fracture pressure, tubing specifications, and pump data to safely control pumping pressures within the initial and final maximum pressures. The schedule provides checkpoints to monitor pumping pressure and volume throughout the operation. Special attention should be paid to any increases in casing pressure which could indicate downhole issues.
The document discusses the hydrogen seal oil system on a generator. It describes the purpose of the system as preventing hydrogen gas from escaping along the generator shaft by forming an oil film between the shaft and seal ring. It outlines the normal flow path of oil through the main seal oil pump and other components like the vacuum tank, emergency seal oil pump, and detraining tanks. It also discusses potential failures of components like pumps and the float trap, and the appropriate operator actions to take in response.
Artificial lift technology uses mechanical devices like pumps or velocity strings to increase the flow of liquids like oil or water from production wells. Artificial lift is needed when reservoir pressure is insufficient to lift fluids to the surface. Common artificial lift systems include reciprocating rod lift, progressing cavity pumping, hydraulic lift, gas lift, plunger lift, and electric submersible pumping. The appropriate system depends on factors like well characteristics, reservoir properties, fluids, surface constraints, and economics. Key components include pumping units, motors, sucker rods, pumps and accessories. Benefits include flexibility and ability to optimize production levels. Limitations depend on the specific system but may include depth rating, temperature sensitivity, fluid properties, or need for a
The document provides instructions for various operations at a thermal power plant, including:
1) Charging the PRDS system and opening associated valves.
2) Opening valves in the cooling water system and starting the cooling water pump.
3) Heating the deaerator and establishing feedwater flow to the boiler by regulating valves.
4) Starting the boiler feed pumps and monitoring associated parameters.
5) Charging the main steam lines and monitoring drum level and flue gas temperatures.
6) Building condenser vacuum by opening air vents and valves, starting the ejectors, and admitting gland sealing steam.
Control valves are instruments that control the flow of fluids through passages by varying the size of the passageway. They have a body, actuator, and positioner. The actuator directly controls the opening and closing of the valve body in response to signals from the positioner. Common actuator types include pneumatic, hydraulic, and electric. Pneumatic actuators typically use compressed air and a diaphragm to move the valve stem and vary the flow opening. Positioners receive control signals and ensure the actuator moves the valve to the desired position.
Thermal Power Plant Simulator Hands-on MalfunctionsManohar Tatwawadi
The presentation describes some of the malfunctions in a Power Plant. Many more can be simulated and operators told to handle the situations in the simulator. The trippings of Generator, turbine, boilers and all auxiliaries can be simulated to get hands on practice on the simulator before operating the actual turbogenerator and boiler associated equipment.
MS Lines, Turbine Casings and rotors and other steam lines including Steam Stop Valves, MSV, CV, ESV heating, Turbine Rolling, Flange and Stud heating, Turbovisory and speeding the turbine to 3000 RPM.
Kadant steam jet thermocompressors recirculate or boost lower-pressure steam for reuse in industrial processes. Thermocompressors work by mixing lower-pressure steam with higher-pressure motive steam, transferring momentum to increase the lower steam's pressure. Kadant offers standard and high-efficiency thermocompressor models, with the latter providing up to 25% greater entrainment efficiency through computational fluid dynamics modeling and optimized geometry.
Cunico manufactures high quality Cartridge Valves for Submarine, Aircraft and Carrier Rocket Launcher. Valve Cartridges are Interchangeable within each Valve Body.
This document provides specifications for GB-SD series gas boosters. It lists three models - GB-SD-60, GB-SD-100, and GB-SD-160 along with their key specifications like maximum pressure, inlet and outlet ports, discharge rate, weight, and pressure ratio. The document also contains a performance graph and formulas for theoretical charging time while noting variables that can impact high pressure performance.
This document contains specifications for several gas booster models: GB-DD-14, GB-DD-28, GB-DD-60, and GB-DD-100. It lists key parameters for each model including maximum pressure, inlet pressure, port sizes, discharge rate, weight, pressure ratio, and operating pressure ranges. It also provides a theoretical charging time formula and notes several variables that impact pressure increase under high pressure conditions.
This document provides specifications for a single-stage, air-driven gas booster. It includes details on the type, maximum pressure, inlet/outlet ports, discharge rate, weight, and precautions for different gas booster models. A theoretical charging time formula and graph are also presented to explain the relationship between inlet air pressure, compression ratio, and outlet gas pressure for the GB-SS series gas boosters.
This document provides specifications for several GB-DS type gas booster models. It lists the key specifications for each model including the pressure ratio, inlet and outlet ports, discharge rate, weight, and minimum and maximum operating pressures. It also provides a diagram of the main components of the gas booster, which includes an air driven section, inlet, outlet, poppet valve, high pressure cylinder, and silencer. The document notes that product specifications may vary depending on usage and lists some important variables that affect the gas booster's performance when increasing pressure, such as driven air pressure and flow rate.
Catálogo Gas boosters ou propulsores de gás - GLOBE Benelux - Aerodynamic Tec...Júlio Gengo
SC Hydraulic Engineering Corporation is an innovator in hydraulic engineering that has manufactured air-driven liquid pumps for over 50 years. It operates a 65,000 square foot facility in Brea, California and produces a wide range of air and gas boosters, power units, and valves. The company custom designs products that can achieve pressures over 70,000 psig to meet customers' specifications. SC Hydraulic is an international leader in hydraulic engineering and continues developing new products for emerging applications in the United States and abroad.
Established in 1981,Greyhound Chromatography has been supplying high quality Chromatography consumables to Research and Analysis Laboratories around the world for 38 years. Greyhound's Managing Director, Paul Massie founded the company which operates from its UK warehouse and office facility, located in Birkenhead, Merseyside.
Greyhound supplies Certified Reference Standards and Materials, Research Chemicals; including Solvents and Reagents and Laboratory consumables. New products are constantly added to Greyhound's e-commerce website, be sure to register to the website to view product prices.
Greyhound’s extensive range covers all areas of Environmental, Petrochemical, Food, Fragrance, Forensics, Chemical and Pharmaceutical analysis, holding stock of many popular products for prompt delivery via our extensive logistics network.
Greyhound Chromatography offers an extensive range of HPLC and UHPLC pumps for analytical, preparative and fluid-metering applications. With a choice of either stainless steel or inert PEEK flow paths, their precision flows and pressure settings ensure reproducible separations time after time.
The document describes variable displacement vane pumps with hydraulic pressure compensation. It provides details on pump features such as flange dimensions, pressure and flow ratings, and technical specifications. It also discusses combining multiple pumps together using coupling units and controlling them with a single pressure control device to achieve higher displacements. Dimensions for combined pump units are given.
PEC's MPT series high pressure Triplex Plunger Pumps. Generally used for Car Washer, Reverse Osmosis, Chemical Injection, Boilers Feed Service, Hydraulic Testing, Cleaning of heat exchangers, Boilers, Towers, Chemical Vassels and Shop Floors under high pressure.
Capacity UP TO 300 M3/hr.
Pressure UP TO 1000 Kg/Cm2.
A self-actuating pilot operated pressure reducing valve handling air, gas and steam and accurate to within ½% up to 3" and 1% for sizes to 6”
Suitable for use on steam heating lines, dryers, ovens, oil heaters, molding machines, steam jacketed equipment, sterilizers, large capacity kilns, retorts, heat exchangers, paper and board machines, cookers and any other steam, air and gaseous application.
This document outlines the content and topics to be covered in a training course on oil and gas processing plant design and operation. The course will cover rotating equipment including pumps, compressors, turbo-expanders and gas turbines. Specifically, it will discuss pump classification, centrifugal pump performance characteristics, and considerations for pump operation and installation.
The document describes the Metso Neles T5 series top entry rotary control valves. Key features include:
- Wide control rangeability up to a 150:1 turndown ratio and ability to serve as an alternative for globe control valves.
- Stable and accurate control due to load being carried by strong bearings and single-piece stemball construction eliminating lost motion.
- Ability to handle fluids with entrained solids and provide tight shut-off with long life metal or soft seats.
- Noise reduction options like Q-Trim can provide up to 18 dB(A) attenuation and self-flushing for impure fluids.
This document provides information on ISO 5211 pneumatic rotary actuator operated investment casting ball valves. It summarizes that the valves are available in sizes from 1/2" to 14" with various end connection options. The valves use rack and pinion actuators that can be double acting or spring return single acting. Technical specifications are provided for the valve body materials, ball and stem materials, seat packings, and testing pressures for the actuators and valves. Dimensions and weights are listed for each valve size.
The document discusses gas lift, including the concepts, advantages, limitations, types, and design methods. Some key points:
- Gas lift reduces flowing bottom hole pressure and liquid holdup to improve production. Continuous and intermittent flow are the main types.
- Advantages include low cost, adjustable rates, surface control, and independence from downhole conditions. Limitations include needing a gas source and dealing with heavy oils.
- Design methods covered include graphical, unloading line, percent load, and fallback for intermittent lift. Continuous flow uses outflow curves and considers temperature.
- Factors like fluid properties, well configuration, pressure, and correlations affect outflow performance. Gas gradients are calculated based on properties
SPX Flow, under the Pneumatic Products brand, manufactures single and twin tower desiccant dryers designed to remove water vapor from natural gas. The skid mounted units also include particulate and coalescing filters that capture solid contaminants to a submicron level.
You can check the specifications and specifications of our products in the 2019 catalog of pumps, and this renewed catalog shows more information than before with the addition of special gas boosters, bolt tensioners, pressure test facilities, and product applications.
Pumster Packaged systems are suitable for pressurizing or maintaining the pressure various industry fields. It is the customer oriented product for testing such as sealing, leaking, repeating, fatigue, external and internal pressure depending on users’ purpose.
http://www.pumster.com/en/tester_system.html
Pumster Company introduction 2018
We are a leading company in high pressure equipment.
Pumster creats the best profit with transparent management and innovative technology.
http://www.pumster.com/en/
pumspter-Liquidpump lst
Specification by pressure ratio
It is divided into 1 specifications
by pressure ratio following by Pascal's law.
( Pressure Ratio 1 : 1050 )
pumster-Liquidpump
Specification by pressure ratio
It is divided into 5 specifications
by pressure ratio following by Pascal's law.
( Pressure Ratio 1 : 50 / 80 / 150 / 220 / 350 )
Anny Serafina Love - Letter of Recommendation by Kellen Harkins, MS.AnnySerafinaLove
This letter, written by Kellen Harkins, Course Director at Full Sail University, commends Anny Love's exemplary performance in the Video Sharing Platforms class. It highlights her dedication, willingness to challenge herself, and exceptional skills in production, editing, and marketing across various video platforms like YouTube, TikTok, and Instagram.
Best practices for project execution and deliveryCLIVE MINCHIN
A select set of project management best practices to keep your project on-track, on-cost and aligned to scope. Many firms have don't have the necessary skills, diligence, methods and oversight of their projects; this leads to slippage, higher costs and longer timeframes. Often firms have a history of projects that simply failed to move the needle. These best practices will help your firm avoid these pitfalls but they require fortitude to apply.
Part 2 Deep Dive: Navigating the 2024 Slowdownjeffkluth1
Introduction
The global retail industry has weathered numerous storms, with the financial crisis of 2008 serving as a poignant reminder of the sector's resilience and adaptability. However, as we navigate the complex landscape of 2024, retailers face a unique set of challenges that demand innovative strategies and a fundamental shift in mindset. This white paper contrasts the impact of the 2008 recession on the retail sector with the current headwinds retailers are grappling with, while offering a comprehensive roadmap for success in this new paradigm.
Implicitly or explicitly all competing businesses employ a strategy to select a mix
of marketing resources. Formulating such competitive strategies fundamentally
involves recognizing relationships between elements of the marketing mix (e.g.,
price and product quality), as well as assessing competitive and market conditions
(i.e., industry structure in the language of economics).
Understanding User Needs and Satisfying ThemAggregage
https://www.productmanagementtoday.com/frs/26903918/understanding-user-needs-and-satisfying-them
We know we want to create products which our customers find to be valuable. Whether we label it as customer-centric or product-led depends on how long we've been doing product management. There are three challenges we face when doing this. The obvious challenge is figuring out what our users need; the non-obvious challenges are in creating a shared understanding of those needs and in sensing if what we're doing is meeting those needs.
In this webinar, we won't focus on the research methods for discovering user-needs. We will focus on synthesis of the needs we discover, communication and alignment tools, and how we operationalize addressing those needs.
Industry expert Scott Sehlhorst will:
• Introduce a taxonomy for user goals with real world examples
• Present the Onion Diagram, a tool for contextualizing task-level goals
• Illustrate how customer journey maps capture activity-level and task-level goals
• Demonstrate the best approach to selection and prioritization of user-goals to address
• Highlight the crucial benchmarks, observable changes, in ensuring fulfillment of customer needs
How MJ Global Leads the Packaging Industry.pdfMJ Global
MJ Global's success in staying ahead of the curve in the packaging industry is a testament to its dedication to innovation, sustainability, and customer-centricity. By embracing technological advancements, leading in eco-friendly solutions, collaborating with industry leaders, and adapting to evolving consumer preferences, MJ Global continues to set new standards in the packaging sector.
buy old yahoo accounts buy yahoo accountsSusan Laney
As a business owner, I understand the importance of having a strong online presence and leveraging various digital platforms to reach and engage with your target audience. One often overlooked yet highly valuable asset in this regard is the humble Yahoo account. While many may perceive Yahoo as a relic of the past, the truth is that these accounts still hold immense potential for businesses of all sizes.
Storytelling is an incredibly valuable tool to share data and information. To get the most impact from stories there are a number of key ingredients. These are based on science and human nature. Using these elements in a story you can deliver information impactfully, ensure action and drive change.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
Zodiac Signs and Food Preferences_ What Your Sign Says About Your Tastemy Pandit
Know what your zodiac sign says about your taste in food! Explore how the 12 zodiac signs influence your culinary preferences with insights from MyPandit. Dive into astrology and flavors!
SATTA MATKA SATTA FAST RESULT KALYAN TOP MATKA RESULT KALYAN SATTA MATKA FAST RESULT MILAN RATAN RAJDHANI MAIN BAZAR MATKA FAST TIPS RESULT MATKA CHART JODI CHART PANEL CHART FREE FIX GAME SATTAMATKA ! MATKA MOBI SATTA 143 spboss.in TOP NO1 RESULT FULL RATE MATKA ONLINE GAME PLAY BY APP SPBOSS
Navigating the world of forex trading can be challenging, especially for beginners. To help you make an informed decision, we have comprehensively compared the best forex brokers in India for 2024. This article, reviewed by Top Forex Brokers Review, will cover featured award winners, the best forex brokers, featured offers, the best copy trading platforms, the best forex brokers for beginners, the best MetaTrader brokers, and recently updated reviews. We will focus on FP Markets, Black Bull, EightCap, IC Markets, and Octa.
2. C ONTENTS
OVERVIEW
GASBOOSTERS
LIQUID PUMPS
METERING PUMPS
PACKAGED SYSTEMS
- GAS BOOSTER / GB - SS
- GAS BOOSTER / GB - SD
- GAS BOOSTER / GB - DS
- GAS BOOSTER / GB - DD
- LIQUID PUMP / LSS
- LIQUID PUMP / LSD
- LIQUID PUMP / LST
- METERING PUMP / PSMV
- METERING PUMP / PSMH
- METERING PUMP / PSMVT
- LIQUID PUMP SYSTEM - LPS
- GAS BOOSTER SYSTEM - GBS
P.17-19
P.13-16
P. 4 - 8
P. 3
P. 9 - 12
3. GAS BOOSTER LIQUID PUMP METERING PUMP PACKAGED SYSTEM
PUMSTER PRODUCT
PUMSTER FEATURE
Technical supportLonger durabilityEasy access to maintain Dynamic Design
We will be your reliable partner based on Pumster’s technical know-how in Gas & Liquid pump industry.
We are continually developing customer oriented products and will continue to meet more demanding requirements.
The leading manufacturer in High pressure pump
The specialized company in Air Gas Booster, Air Liquid pump, metering pump, the pressure testing machine, etc.,
Ilshin autoclave is the specialized company for high pressure & temperature application equipment.
Pumster is the subsidiary of
4. Gas boosters
Single stage & Single driven Single stage & Double driven
Double stage & Double driven
DRIVEN PRINCIPLES
FEATURES OF PRODUCTS
Double stage & Single driven
4
GB-SS GB-SD
GB-DDGB-DS
Applied in industrial and special gas;
Argon, Helium, Nitrogen, Oxygen, etc.,
No requirement for electricity
Suitable for explosion proof area
Stay cool when working hard due to a cooling jacket
Oil free; no oil replacement & contamination
Available as a complete packaged system
Pumster Air driven Gas Boosters are more efficient in energy and are suitable for explosion proof area.
Pumster Air Driven Gas Boosters work on the principle of Pascal’s law.
Large surfaces are charged with a low pressure(Air piston) and generate high pressure(High pressure piston)
over the small surfaces. The transmission ratio is based on the piston area of the large air piston in relation
to that of the smaller high pressure piston.
5. Gas boosters
Gas booster
Single stage & Single driven
Specification
Type : GB-SS type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
Driven section
Flange
Poppet valve
High pressure cylinder
Silencer
Check valve
Spool valve
①
②
③
④
⑤
⑥
⑦
1 2 3 4 5 6
7
242
442
175
220
200
100
175220 Ø150
Pa
Pl
Pb
Model
Max. pressure (kg/㎠)
Inlet pressure (kg/㎠)
Inlet Port (inch)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
GB-SS-7
1 : 7
5
7
49
4
1/2”PT
1/2”PT
555
16 16
GB-SS-14
1 : 14
5
7
98
7
1/2”PT
1/2”PT
600
17
GB-SS-30
1 : 30
5
7
210
14
9/16”18UNF
9/16”18UNF
564
18
GB-SS-50
1 : 50
5
7
350
21
9/16”18UNF
9/16”18UNF
494
18
GB-SS-75
1 : 75
5
7
525
35
9/16”18UNF
9/16”18UNF
370
SS series
GB-SSseries
5
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formula
*Product specification below is standard information and it may different depending on purpose.
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Performance
Graph
6. 6
Single stage & Double driven
Specification
Type : GB-SD type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
Driven section
Flange
Poppet valve
High pressure cylinder
Silencer
Check valve
Spool valve
SD series
GB-SDseries
GB-SD-60
1 : 60
5
7
420
28
9/16”18UNF
9/16”18UNF
635
20 20
GB-SD-100
1 : 100
5
7
700
31
9/16”18UNF
9/16”18UNF
370
21
GB-SD-160
1 : 150
5
7
1,050
35
9/16”18UNF
9/16”18UNF
530
1 2 3 4 5 6
7
220
175
430
261 50
175
220
200
603
Pa
Pb
Pl
Ø150
Gas boosters
Gas booster
①
②
③
④
⑤
⑥
⑦
Model
Max. pressure (kg/㎠)
Inlet pressure (kg/㎠)
Inlet Port (inch)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Performance
Graph
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
Theoretical charging time formula
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
*Product specification below is standard information and it may different depending on purpose.
7. Type : GB-DS type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
High pressure cylinder
Driven section
Flange
Poppet valve
Silencer
Check valve
Spool valve
7
Double stage & Single driven
Specification
GB-DS-7
1 : 7
5
7
49
4
1/2“PT
1/2“PT
3,180
19 19
GB-DS-14
1 : 14
5
7
98
7
1/2“PT
1/2“PT
4,230
20
GB-DS-30
1 : 30
5
7
210
14
9/16“18UNF
9/16“18UNF
2,470
21
GB-DS-50
1 : 50
5
7
350
21
9/16“18UNF
9/16“18UNF
1,130
21
GB-DS-75
1 : 75
5
7
525
35
9/16“18UNF
9/16“18UNF
1,300
DS series
GB-DSseries
1 2 3 4 5 6
7220
Ø150
283
626 220
175
200
50100
Pa
Pb
Pa
Pl
Pb
Gas boosters
Gas booster
①
②
③
④
⑤
⑥
⑦
Model
Max. pressure (kg/㎠)
Inlet pressure (kg/㎠)
Inlet Port (inch)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Performance
Graph
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formula
*Product specification below is standard information and it may different depending on purpose.
8. GB-DD-14
1 : 14
5
7
98
7
1/2“PT
1/2“PT
6,000
23
5
7
23
GB-DD-28
1 : 28
196
13
1/2“PT
1/2“PT
2,790
24
GB-DD-60
1 : 60
5
7
420
28
9/16“18UNF
9/16“18UNF
2,050
25
GB-DD-100
1 : 100
5
7
700
31
9/16“18UNF
9/16“18UNF
1,130
25
GB-DD-150
1 : 150
5
7
1,050
35
9/16“18UNF
9/16“18UNF
1,410
8
Single stage & Double driven
Specification
Type : GB-DD type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
High pressure cylinder
Driven section
Flange
Poppet valve
Silencer
Check valve
Spool valve
DD series
GB-DDseries
1 2 3 4 5 6
7220
444
50 80
175
220
200
787
Pa
Pb
Pa
Pb
Pl
Ø150
Gas boosters
Gas booster
①
②
③
④
⑤
⑥
⑦
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formula
Performance
Graph
Model
Max. pressure (kg/㎠)
Inlet pressure (kg/㎠)
Inlet Port (inch)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
*Product specification below is standard information and it may different depending on purpose.
9. Liquid pumps
Single stage & Single driven
Single stage & Triple driven
Single stage & Double driven
DRIVEN PRINCIPLES
FEATURES OF PRODUCTS
9
LSS
LST
LSD
Pumster Air Driven Liquid Pumps are more efficient in energy and are suitable for explosion proof area.
Pumster Air Driven Liquid Pumps work on the principle of Pascal’s law.
Large surfaces are charged with a low pressure(Air piston) and generate high pressure(High pressure piston)
over the small surfaces. The transmission ratio is based on the piston area of the large air piston in relation
to that of the smaller high pressure piston.
No requirement for electricity
Suitable for explosion proof area
Stay cool when working hard due to a cooling jacket
Available as a complete packaged system
Oil free; no oil replacement & contamination
10. Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formula
10
Liquid pump
Liquid pumps
Single stage & Single driven
Specification
LSS series
LSSseries
1 2 3 4 5 6
7
220
303
220
175
70
200
50
175
Pa
Pb
Pl
Type : LSS type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
Driven section
Silencer
Flange
Poppet valve
High pressure cylinder
Check valve
Spool valve
LSS-50
1 : 50
5
7
350
1/2”PT
1/2”PT
1.1
12 12
LSS-80
1 : 80
5
7
560
1/2”PT
9/16”18UNF
0.7
12
LSS-150
1 : 150
5
7
1,050
1/2”PT
9/16”18UNF
0.4
12
LSS-220
1 : 220
5
7
1,540
1/2”PT
9/16”18UNF
0.27
12
LSS-350
1 : 350
5
7
2,450
1/2”PT
9/16”18UNF
0.18
*Product specification below is standard information and it may different depending on purpose.
①
②
③
④
⑤
⑥
⑦
Model
Max. pressure (kg/㎠)
Inlet port (inch)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Performance
Graph
Theoretical charging time formula
11. 11
LSD series
Liquid pumps
Single stage & Double driven
Specification
LSD series
LSD-100
1 : 100
5
7
700
1/2”PT
1/2”PT
0.9
17
9/16”18UNF
17
LSD-160
1 : 160
5
7
1,120
1/2”PT
0.6
17
LSD-300
1 : 300
5
7
2,100
1/2”PT
9/16”18UNF
0.3
17
LSD-440
1 : 440
5
7
3,080
1/2”PT
9/16”18UNF
0.22
17
LSD-700
1 : 700
5
7
4,900
1/2”PT
9/16”18UNF
0.15
Type : LSD type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
Driven section
Silencer
Flange
Poppet valve
High pressure cylinder
Check valve
Spool valve
1 2 3 4 5 6
7
220
175
340
50 70
175
220
200
411
Pa
Pb
Pl
Liquid pump
①
②
③
④
⑤
⑥
⑦
Performance
Graph
Max. pressure (kg/㎠)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Model
Inlet port (inch)
*Product specification below is standard information and it may different depending on purpose.
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formulaTheoretical charging time formula
12. 12 Liquid pumps
Single stage & Triple driven
Specification
LST series
LSTseries
LST-1050
1 : 1,050
5
7
7,350
1/2”PT
9/16”18UNF
0.12
25
Type : LST type
Pl – Air driven Inlet
Pa – Inlet
Pb – Outlet
Part name
Driven section
Silencer
Flange
Poppet valve
High pressure cylinder
Check valve
Spool valve
1 2 3 4 5 6
7
220
66
597 220
175
70
80
20070
50
175
Pa
Pl
Pb
Liquid pump
①
②
③
④
⑤
⑥
⑦
Performance
Graph
Max. pressure (kg/㎠)
Outlet Port (inch)
Discharge rate (nl/min)
Weight (kg)
Pressure Ratio
Min. Operating Pressure (kg/㎠)
Max. Operating Pressure (kg/㎠)
Model
Inlet port (inch)
*Product specification below is standard information and it may different depending on purpose.
Reservoir tank x atm = TAL
TAL x Flow rate/sec=Sec
* Outlet pressure (Pb) = I·PI
(Outlet Pressure = Compression ratio · Air drive)
· Many variables when increasing pressure under high pressure
· Driven part – driven air pressure, flow rate
· High pressure part – inflow air pressure, feed rate
· Charging flow rate means average flow rate,
which could be different on purpose.
Precautions for inlet liquids pressure
Theoretical charging time formula
13. PSMVT
Metering pumps
Pumster Metering
Verticality Pump
Pumster Metering
Verticality with Two head Pump
Pumster Metering
Horizontality Pump
13
PSMV PSMH
DRIVEN PRINCIPLES
FEATURES OF PRODUCTS
High pressure volumetric pump
with reciprocating action
Control flow rate during operating or being hold
Easy to operate & maintain
Provide ±1% accuracy range 30-100% of max.
flow rate
Longer durability of main seal
Simply control flow rate
with changeable speed of motor
Pumster Metering Pumps discharge liquids as users set consistently by each stroke.
Additionally, by changing rev of a motor, displacement could be changed
by controlling the speed of plunger widely.
Flow rate stays constant in spite of resistance pressure of discharge part.
14. 14
Metering pumps
Metering pumps
Specification
PSMVseries
Pumster Metering Verticality Pump
Specification
PSMH series
Pumster Metering Horizontality Pump
Model
Max. discharge pressure (kg/㎠)
Max. flow rate (kg/㎠)
Inlet port (inch)
Outlet port (inch)
Motor
Rating
Ambient Temperature (℃)
Power(kW)
Voltage(V)
PSMV-25
1,000
25
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMV-70
500
70
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMV-110
350
110 165
1/4" NPT 1/4" NPT
1/4" NPT
IP55 IP55
-20~+40
0.75~15
Model
Max. discharge pressure (kg/㎠)
Max. flow rate (kg/㎠)
Inlet port (inch)
Outlet port (inch)
Motor
Rating
Ambient Temperature (℃)
PSMV-165
220
1/4" NPT
-20~+40
0.75~15
220/380 220/380
※ Product specification below is standard information and it may different depending on purpose.
※ Product specification below is standard information and it may different depending on purpose.
PSMH-25
1,000
25
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMH-70
500
70
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMH-110
350
110
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
165
1/4" NPT
IP55
PSMH-165
220
1/4" NPT
-20~+40
0.75~15
220/380
331.5
200
458
253
488.5
253
366
Power(kW)
Voltage(V)
15. 15
Metering pumps
Metering pump
PSMVT-25
1,000
25
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMVT-70
500
70
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
PSMVT-110
350
110
1/4" NPT
1/4" NPT
IP55
-20~+40
0.75~15
220/380
165
1/4" NPT
IP55
PSMVT-165
220
1/4" NPT
-20~+40
0.75~15
220/380
Model
Max. discharge pressure (kg/㎠)
Max. flow rate (kg/㎠)
Inlet port (inch)
Outlet port (inch)
Motor
Rating
Ambient Temperature (℃)
Power(kW)
Voltage(V)
※ Product specification below is standard information and it may different depending on purpose.
Pumster Metering Verticality
with Two head Pump
Specification
PSMVTseries
398.5
282
461
253
Detail view
16. Packaged Systems
Liquid pump system Gas booster system
16
LPS GBS
Pumster Packaged systems are suitable for pressurizing or maintaining the pressure various industry fields.
It is the customer oriented product for testing such as sealing, leaking, repeating, fatigue, external and
internal pressure depending on users’ purpose.
DRIVEN PRINCIPLES
FEATURES OF PRODUCTS
Enhanced safety of pressure vessel
Easy access to operate
Available as a custom - made order
Oil free; no oil replacement & contamination
Double safety function in case of over pressure
Available in various options with gas booster & liquid pump
Longer durability of main seal
17. LPS
17
Liquid pump system
Specification
734634
673.5
584
SINGLE STAGE & SINGLE DRIVEN SINGLE STAGE & DOUBLE DRIVEN
Available in damper, calibration, etc.,
Available in damper, calibration, etc.,
Available in damper, calibration, etc.,
-
LPS-350
LSS-50
1:50
350
1.1
LPS-560
LSS-80
1:80
560
-
0.7
(Single stage & Single driven) (Single stage & Single driven)
Product type
Pump model
Pressure ratio
Operating pressure (kg/㎠)
Inlet pressure (kg/㎠)
Discharge rate (nl/min)
Option
Product type
Pump model
Pressure ratio
Operating pressure (kg/㎠)
Inlet pressure (kg/㎠)
Discharge rate (nl/min)
Option
(Single stage & Double driven)
LPS-700
LSD100
1:100
1:700
-
0.9
DRIVE AIR IN
OUT
BOOST IN
DRIVE AIR IN
OUT
BOOST IN
Packaged Systems
18. GBS
Gas booster system
Specification
※ We provide a custom-made order as you requested.
Available in damper, calibration, etc., Available in damper, calibration, etc.,
Available in damper, calibration, etc., Available in damper, calibration, etc.,
GBS-SS210
GB-SS-30
1:30
210
14
564
GBS-SS350
GB-SS-50
1:50
350
21
494
(Single stage & Single driven) (Single stage & Single driven)
SINGLE STAGE & SINGLE DRIVEN
18
GBS-DS210
GB-DS-30
1:30
210
14
2,470
GBS-DS350
GB-DS-50
1:50
350
21
1,130
(Double stage & Single driven) (Double stage & Single driven)
DOUBLE STAGE & SINGLE DRIVEN
734634
673.5
584
OUT
BOOST IN
OUT
BOOST IN
DRIVE AIR INDRIVE AIR IN
OUT
BOOST IN
Packaged Systems
Product type
Pump model
Pressure ratio
Operating pressure (kg/㎠)
Inlet pressure (kg/㎠)
Discharge rate (nl/min)
Option
Product type
Pump model
Pressure ratio
Operating pressure (kg/㎠)
Inlet pressure (kg/㎠)
Discharge rate (nl/min)
Option
19. Application
- Inject viscosity liquid quantitatively under high
pressure
- Inject chemicals Volumetrically
- Fog system
- Water treatment system
Metering (Volumetric) pump
- Jacking
- Lifting
- Control valve actuator
- Operate hydraulic cylinder
- Transfer liquefied gas
- Conjugate film and glass fiber
- Main pump for removing bubble
- Autoclave pressure generator
- Charging oxygen tank for diving
Gas booster
(internal &external pressure, leaking, sealing, stress-rupture)
- Pressure testing
( internal &external pressure testing, leaking testing,
sealing testing, stress-rupture testing )
- Jacking
- Lifting
- Control valve actuator
- Operate hydraulic cylinder
- Transfer liquid
Liquid pump
- Pressure testing
( internal &external pressure, leaking, sealing, stress-rupture )
- Jacking
- Lifting
- Control valve actuator
- Operate hydraulic cylinder
- Transfer liquefied gas
- Conjugate film and glass fiber
- Main pump for removing bubble
- Autoclave pressure generator
- External pressure testing for military & defense
- Charging oxygen tank for diving
Packaged system
- Pressure test
20. 뒷표지
A leading company in High pressure pump
Pusmter Co., Ltd.
40, Daejeon-ro 1291beon-gil, Daedeok-gu, Daejeon, Republic of Korea
Tel: +82-42-716-0085
Fax : +82-42-716-0086
E-mail : pumster@pumster.com
Website: www.pumster.com