Pumster Company introduction 2018
We are a leading company in high pressure equipment.
Pumster creats the best profit with transparent management and innovative technology.
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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.
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.
This document discusses gas lift, a method of artificial lift used in oil production. It describes how gas lift works by injecting gas into the wellbore to reduce fluid density and allow the well to flow. The key components of a gas lift system include the gasline, tubing, packer, and gas lift valves. Continuous and intermittent gas lift methods are examined. Advantages include flexibility and ability to handle high production rates, while disadvantages include needing a gas source and potential high installation costs. Troubleshooting techniques and factors that influence gas lift design are also overviewed.
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.
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 discusses various artificial lift technologies used in oil production, including reciprocating rod lift systems, progressing cavity pumps, gas lift systems, plunger lift systems, hydraulic lift systems, and electric submersible pumps. It provides details on the advantages and limitations of each system, as well as parameters for determining appropriate applications, such as operating depth, volume, temperature, and wellbore characteristics. Selection of the optimal artificial lift method involves a systematic evaluation process to maximize return on investment.
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
Boiler feed and pump sizing c-b and grundfos july 2016(1)lorenzo Monasca
Presentacion realizada por la empresa Cleaver Brooks y Grundfos
Pasos a seguir de como seleccionar una bomba de agua de alimentacion a una caldera de media presion.
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.
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.
This document discusses gas lift, a method of artificial lift used in oil production. It describes how gas lift works by injecting gas into the wellbore to reduce fluid density and allow the well to flow. The key components of a gas lift system include the gasline, tubing, packer, and gas lift valves. Continuous and intermittent gas lift methods are examined. Advantages include flexibility and ability to handle high production rates, while disadvantages include needing a gas source and potential high installation costs. Troubleshooting techniques and factors that influence gas lift design are also overviewed.
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.
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 discusses various artificial lift technologies used in oil production, including reciprocating rod lift systems, progressing cavity pumps, gas lift systems, plunger lift systems, hydraulic lift systems, and electric submersible pumps. It provides details on the advantages and limitations of each system, as well as parameters for determining appropriate applications, such as operating depth, volume, temperature, and wellbore characteristics. Selection of the optimal artificial lift method involves a systematic evaluation process to maximize return on investment.
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
Boiler feed and pump sizing c-b and grundfos july 2016(1)lorenzo Monasca
Presentacion realizada por la empresa Cleaver Brooks y Grundfos
Pasos a seguir de como seleccionar una bomba de agua de alimentacion a una caldera de media presion.
Analyzing Multi-zone completion using multilayer by IPR (PROSPER) Arez Luqman
The primary objective of any well drilled and completed is to produce Hydrocarbons; by loading the Hydrocarbon (i.e. Oil and Gas) contained within the well through a conduit of the well and start separating it with surface facilities depending on type and composition of the Hydrocarbon.
Producing oil is simultaneously contained with problems depending on the type and properties of the reservoir.
Furthermore, what makes the problems much more; is when oil and/or gas is produced from multi-zones at the same time, when accumulated problems from all the producer zones occurring at the same time.
To help analyze this problems we are going to use PROSPER software package IPR multilayer, in which helps in identifying the relationship between Flow rate and Reservoir pressure.
Gas Lift Design: Comparative Study of Continuous and Intermittent Gas Lift (C...Nicodeme Feuwo
This document was produced as part of my final year project of training to obtain a petroleum engineering diploma.
The aim of this project is to make a comparative study between continuous and intermittent gas lift systems based on real data from an oil well in Algeria, and to choose the system best suited to increase the production of the well.
This study was carried out by a manual design using the method of “fixed pressure drop” for the continuous gas lift system and “fallback gradient” method for intermittent gas lift system.
We were able to determine at the end of this study that the system best suited to the current conditions of our well would be the intermittent gas lift system and we also proposed that it should be combine with the "plunger lift " system in order to increase the efficiency of the intermittent gas lift system by eliminating problems linked to the phenomenon of" fallback " thus increase the production of our wells.
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.
The document describes the design and construction of a hydraulic ram pump by a group of engineering students in Peru. The general objective is to design and build a pumping system using a hydraulic ram to take advantage of water from rain or rivers. Specifically, the project aims to conduct a study of hydraulic ram technology, design an efficient system based on available resources, select and acquire proper components, assemble the system according to the design, test and evaluate the system's performance. The document provides background on hydraulic ram pumps and their history. It outlines the methodology, components, functioning, and construction process of the hydraulic ram pump built by the students. Testing showed the pump could lift water 2 meters high with an inlet flow of 1.267 L/s
This document summarizes experimental work characterizing the performance of a two-phase flow pump. It describes the experimental loop used to test the pump under single-phase and two-phase flow conditions. The document also outlines instrumentation used to measure pump parameters like pressure, void fraction, and flow rates. Charts show experimental data on the pump's pressure distribution and performance at varying flow rates, pressures, and void fractions, along with comparisons to predictive models of single-phase and two-phase pump behavior. The conclusion calls for more experiments to develop more accurate predictive models of two-phase pump performance.
This document discusses evaluating pumping stations for irrigation. The evaluation aims to: verify current operating conditions through energy efficiency analysis; analyze suitability of pumps for irrigation equipment; assess vibration levels; and provide a detailed report with recommendations. It describes the methodology for determining pump efficiency, including measurements of energy consumption, flow rate, total head, and rotation speed. Formulas are provided to calculate actual and relative efficiency, excess energy consumed, and potential cost reduction. Factors like suction conditions, net positive suction head, and mechanical condition are also assessed to evaluate pump performance and suitability for the irrigation system.
The slide-pack covers a large variety of artificial lift methods. Explanations are supported by breakdown of pros and cons, calculations and questions. Questions will shed light of roughly how to decide which method(s) to use in a specific case.
This document discusses various artificial lift methods used to increase production from oil and gas wells as reservoir pressure declines. It describes the basic principles and components of common artificial lift techniques, including sucker rod pumps, gas lift, electrical submersible pumps, hydraulic jet pumping, plunger lift, and progressive cavity pumping. For each method, it provides information on advantages, limitations, and typical application ranges for operating parameters such as depth, production rate, temperature, and wellbore geometry. The document aims to provide an overview of different artificial lift options and considerations for selecting the appropriate production method.
The document provides information on production optimization through system analysis using nodal analysis. It discusses key components of the production system including reservoir fluid properties, inflow performance, tubing performance, and how to analyze the combined system. The objectives are to understand inflow, vertical lift, and combined performance. Nodal analysis is introduced as a technique to simulate fluid flow by breaking the system into nodes and ensuring pressure continuity. An example application optimizes a well's production rate by analyzing effects of tubing size, wellhead pressure, water cut, and skin on the combined inflow and outflow curves. The optimized design achieves a production rate of 114 MMscf/d with a 6.18" tubing and 2,000 psi
The document discusses various issues encountered with rod pump systems in Agiba oil fields and the remedial actions taken. It covers problems like gas interference, fluid pounding, scale deposition, sucker rod failures, sand production, stuck pumps, and tubing wear. Tests of techniques like gas anchors, variable slippage pumps, hollow sucker rods, and roller guides are summarized. Common troubleshooting indicators and techniques are also outlined, along with practices to avoid.
Sucker rod pumps are a type of artificial lift used in oil wells that involves components both above and below ground. The surface pumping unit is connected via sucker rods to the subsurface pump located downhole. The pumping cycle involves the plunger moving up and down inside the barrel, using the traveling or standing valves to draw fluid into the barrel on the upstroke and push it up on the downstroke. Sucker rod pumps are suitable for shallow wells producing 10-1000 bbl/day but become less effective at greater depths or in wells with high gas levels.
This document summarizes a technical seminar on thermosyphon reboilers and their operational characteristics. It begins with an introduction to reboilers and thermosyphon reboilers. It then discusses the working principles and types of thermosyphon reboilers, including vertical and horizontal designs. The document reviews the operational characteristics of thermosyphon reboilers and how they are influenced by factors like temperature difference, operating pressure, and pipe diameter. It also compares advantages and disadvantages of vertical and horizontal designs. Finally, it discusses common industrial applications of thermosyphon reboilers and concludes with a summary of key points and references.
Eastern Testing Services provides oilfield services including surface well testing, drill stem testing, tubing-conveyed perforation, wireline, and slickline services. They help characterize reservoirs and evaluate well productivity using tools like flow heads, choke manifolds, separators, oil and gas manifolds, sand filters, full bore circulating valves, testers valves, gauge carriers, test packers, hydraulic jars, tension safety joints, and downhole measurement devices conveyed by wireline and slickline. These services provide critical subsurface data to oil and gas companies for production and reservoir management decisions.
Gas Turbine PGT25 DLE Single Gas With Centrifugal Compressor PCL 603PSJamie Boyd
The document discusses gas turbine maintenance and overhaul activities including:
1) Unloading gas turbine auxiliaries and placing them on foundations, checking alignments and clearances.
2) Performing level 1 and level 2 overhauls including boroscope inspections, component replacements, and hot gas path inspections.
3) Ensuring correct installation of piping, instruments, and that packages are aligned to specifications.
The leading manufacturer in High pressure pump
- The specialized company in Air Gas Booster, Air Liquid pump, metering pump, the pressure testing machine, etc.
This thesis investigates production system optimization for submersible pump lifted wells through a case study. A computer program was developed to perform nodal analysis between the reservoir and wellhead, ignoring surface equipment. The program handles pumping of liquid only and liquid with gas. It uses the Hagedorn and Brown correlation to calculate pressures, and the Griffith correlation for bubble flow. The program was applied to 10 wells in the Diyarbakir-GK field, with actual field data input. Outputs were used to evaluate optimum rates, horsepower requirements, and number of pump stages for each well. Comparisons with actual data identified wells operating optimally and inefficiently.
The document discusses the separation process onboard a floating production storage and offloading (FPSO) vessel. It explains the key components of the separation module including slug catchers, sand removal systems, high pressure and low pressure separators, pre-heaters, electrostatic coalescers, and transfer pumps. It also provides a diagram of the separation process inside a three-phase separator where well fluids are separated into oil, water, and gas based on gravity and sensors that control discharge valves.
The turbo expander compressor are used to achieve cryogenic temperature by reducing the enthalpy of high pressure gas in refrigeration cycles of Oil and gas, Refining and Petrochemical Process. These slides covers the working process of Expander compressor, process applications of expander compressor, Preliminary sizing calculations, Auxiliaries associated with Expander compressor mainly focusing on Active magnetic bearing equipment and its control system.
This document provides instructions for using the KIA CRT-3500 Common Rail Injector Tester. It describes the components included with the tester and outlines various tests that can be performed to diagnose issues with common rail diesel engines, including low and high pressure injection comparison tests, high pressure tests, injector back leak tests, cleaning and assembly procedures for injectors, and more. The summaries provided give an overview of the testing capabilities and procedures covered in the user manual.
This document provides information on pilot operated pressure relief valves (POPRVs), including:
- Definitions and basic operation where the pilot controls the main valve opening and closing pressures.
- Types of pilots such as pop action pilots for gas/mixed phase service and modulating pilots.
- Manufacturers, applications, features/benefits, and options like remote sensing and backflow prevention.
- Code status where POPRVs are ASME certified and testing procedures.
- Examples of Anderson Greenwood POPRV models like the Series 200 pop pilot and Series 400 modulating pilot.
Analyzing Multi-zone completion using multilayer by IPR (PROSPER) Arez Luqman
The primary objective of any well drilled and completed is to produce Hydrocarbons; by loading the Hydrocarbon (i.e. Oil and Gas) contained within the well through a conduit of the well and start separating it with surface facilities depending on type and composition of the Hydrocarbon.
Producing oil is simultaneously contained with problems depending on the type and properties of the reservoir.
Furthermore, what makes the problems much more; is when oil and/or gas is produced from multi-zones at the same time, when accumulated problems from all the producer zones occurring at the same time.
To help analyze this problems we are going to use PROSPER software package IPR multilayer, in which helps in identifying the relationship between Flow rate and Reservoir pressure.
Gas Lift Design: Comparative Study of Continuous and Intermittent Gas Lift (C...Nicodeme Feuwo
This document was produced as part of my final year project of training to obtain a petroleum engineering diploma.
The aim of this project is to make a comparative study between continuous and intermittent gas lift systems based on real data from an oil well in Algeria, and to choose the system best suited to increase the production of the well.
This study was carried out by a manual design using the method of “fixed pressure drop” for the continuous gas lift system and “fallback gradient” method for intermittent gas lift system.
We were able to determine at the end of this study that the system best suited to the current conditions of our well would be the intermittent gas lift system and we also proposed that it should be combine with the "plunger lift " system in order to increase the efficiency of the intermittent gas lift system by eliminating problems linked to the phenomenon of" fallback " thus increase the production of our wells.
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.
The document describes the design and construction of a hydraulic ram pump by a group of engineering students in Peru. The general objective is to design and build a pumping system using a hydraulic ram to take advantage of water from rain or rivers. Specifically, the project aims to conduct a study of hydraulic ram technology, design an efficient system based on available resources, select and acquire proper components, assemble the system according to the design, test and evaluate the system's performance. The document provides background on hydraulic ram pumps and their history. It outlines the methodology, components, functioning, and construction process of the hydraulic ram pump built by the students. Testing showed the pump could lift water 2 meters high with an inlet flow of 1.267 L/s
This document summarizes experimental work characterizing the performance of a two-phase flow pump. It describes the experimental loop used to test the pump under single-phase and two-phase flow conditions. The document also outlines instrumentation used to measure pump parameters like pressure, void fraction, and flow rates. Charts show experimental data on the pump's pressure distribution and performance at varying flow rates, pressures, and void fractions, along with comparisons to predictive models of single-phase and two-phase pump behavior. The conclusion calls for more experiments to develop more accurate predictive models of two-phase pump performance.
This document discusses evaluating pumping stations for irrigation. The evaluation aims to: verify current operating conditions through energy efficiency analysis; analyze suitability of pumps for irrigation equipment; assess vibration levels; and provide a detailed report with recommendations. It describes the methodology for determining pump efficiency, including measurements of energy consumption, flow rate, total head, and rotation speed. Formulas are provided to calculate actual and relative efficiency, excess energy consumed, and potential cost reduction. Factors like suction conditions, net positive suction head, and mechanical condition are also assessed to evaluate pump performance and suitability for the irrigation system.
The slide-pack covers a large variety of artificial lift methods. Explanations are supported by breakdown of pros and cons, calculations and questions. Questions will shed light of roughly how to decide which method(s) to use in a specific case.
This document discusses various artificial lift methods used to increase production from oil and gas wells as reservoir pressure declines. It describes the basic principles and components of common artificial lift techniques, including sucker rod pumps, gas lift, electrical submersible pumps, hydraulic jet pumping, plunger lift, and progressive cavity pumping. For each method, it provides information on advantages, limitations, and typical application ranges for operating parameters such as depth, production rate, temperature, and wellbore geometry. The document aims to provide an overview of different artificial lift options and considerations for selecting the appropriate production method.
The document provides information on production optimization through system analysis using nodal analysis. It discusses key components of the production system including reservoir fluid properties, inflow performance, tubing performance, and how to analyze the combined system. The objectives are to understand inflow, vertical lift, and combined performance. Nodal analysis is introduced as a technique to simulate fluid flow by breaking the system into nodes and ensuring pressure continuity. An example application optimizes a well's production rate by analyzing effects of tubing size, wellhead pressure, water cut, and skin on the combined inflow and outflow curves. The optimized design achieves a production rate of 114 MMscf/d with a 6.18" tubing and 2,000 psi
The document discusses various issues encountered with rod pump systems in Agiba oil fields and the remedial actions taken. It covers problems like gas interference, fluid pounding, scale deposition, sucker rod failures, sand production, stuck pumps, and tubing wear. Tests of techniques like gas anchors, variable slippage pumps, hollow sucker rods, and roller guides are summarized. Common troubleshooting indicators and techniques are also outlined, along with practices to avoid.
Sucker rod pumps are a type of artificial lift used in oil wells that involves components both above and below ground. The surface pumping unit is connected via sucker rods to the subsurface pump located downhole. The pumping cycle involves the plunger moving up and down inside the barrel, using the traveling or standing valves to draw fluid into the barrel on the upstroke and push it up on the downstroke. Sucker rod pumps are suitable for shallow wells producing 10-1000 bbl/day but become less effective at greater depths or in wells with high gas levels.
This document summarizes a technical seminar on thermosyphon reboilers and their operational characteristics. It begins with an introduction to reboilers and thermosyphon reboilers. It then discusses the working principles and types of thermosyphon reboilers, including vertical and horizontal designs. The document reviews the operational characteristics of thermosyphon reboilers and how they are influenced by factors like temperature difference, operating pressure, and pipe diameter. It also compares advantages and disadvantages of vertical and horizontal designs. Finally, it discusses common industrial applications of thermosyphon reboilers and concludes with a summary of key points and references.
Eastern Testing Services provides oilfield services including surface well testing, drill stem testing, tubing-conveyed perforation, wireline, and slickline services. They help characterize reservoirs and evaluate well productivity using tools like flow heads, choke manifolds, separators, oil and gas manifolds, sand filters, full bore circulating valves, testers valves, gauge carriers, test packers, hydraulic jars, tension safety joints, and downhole measurement devices conveyed by wireline and slickline. These services provide critical subsurface data to oil and gas companies for production and reservoir management decisions.
Gas Turbine PGT25 DLE Single Gas With Centrifugal Compressor PCL 603PSJamie Boyd
The document discusses gas turbine maintenance and overhaul activities including:
1) Unloading gas turbine auxiliaries and placing them on foundations, checking alignments and clearances.
2) Performing level 1 and level 2 overhauls including boroscope inspections, component replacements, and hot gas path inspections.
3) Ensuring correct installation of piping, instruments, and that packages are aligned to specifications.
The leading manufacturer in High pressure pump
- The specialized company in Air Gas Booster, Air Liquid pump, metering pump, the pressure testing machine, etc.
This thesis investigates production system optimization for submersible pump lifted wells through a case study. A computer program was developed to perform nodal analysis between the reservoir and wellhead, ignoring surface equipment. The program handles pumping of liquid only and liquid with gas. It uses the Hagedorn and Brown correlation to calculate pressures, and the Griffith correlation for bubble flow. The program was applied to 10 wells in the Diyarbakir-GK field, with actual field data input. Outputs were used to evaluate optimum rates, horsepower requirements, and number of pump stages for each well. Comparisons with actual data identified wells operating optimally and inefficiently.
The document discusses the separation process onboard a floating production storage and offloading (FPSO) vessel. It explains the key components of the separation module including slug catchers, sand removal systems, high pressure and low pressure separators, pre-heaters, electrostatic coalescers, and transfer pumps. It also provides a diagram of the separation process inside a three-phase separator where well fluids are separated into oil, water, and gas based on gravity and sensors that control discharge valves.
The turbo expander compressor are used to achieve cryogenic temperature by reducing the enthalpy of high pressure gas in refrigeration cycles of Oil and gas, Refining and Petrochemical Process. These slides covers the working process of Expander compressor, process applications of expander compressor, Preliminary sizing calculations, Auxiliaries associated with Expander compressor mainly focusing on Active magnetic bearing equipment and its control system.
This document provides instructions for using the KIA CRT-3500 Common Rail Injector Tester. It describes the components included with the tester and outlines various tests that can be performed to diagnose issues with common rail diesel engines, including low and high pressure injection comparison tests, high pressure tests, injector back leak tests, cleaning and assembly procedures for injectors, and more. The summaries provided give an overview of the testing capabilities and procedures covered in the user manual.
This document provides information on pilot operated pressure relief valves (POPRVs), including:
- Definitions and basic operation where the pilot controls the main valve opening and closing pressures.
- Types of pilots such as pop action pilots for gas/mixed phase service and modulating pilots.
- Manufacturers, applications, features/benefits, and options like remote sensing and backflow prevention.
- Code status where POPRVs are ASME certified and testing procedures.
- Examples of Anderson Greenwood POPRV models like the Series 200 pop pilot and Series 400 modulating pilot.
Introductory training on fire water pumping systemSabrul Jamil
The document provides an introduction and overview of fire water pumping systems. It discusses the key components of these systems including pumps, drivers, controllers, and accessories. Pumps are the primary component and come in various types depending on the application and flow needs. Drivers power the pumps and can be electric motors or diesel engines. Controllers manage the operation of the pumps and drivers. Accessories include gauges, valves, and flowmeters to monitor and control the water flow and pressure. Standards such as NFPA 20 provide requirements for the installation and operation of fire water pumping systems.
The document provides information about a high pressure cleaner system from PressureJet, including:
1. The system has a pressure of 90 BAR (1740 PSI) and flow rate of 12 LPM (3.2 GPM).
2. PressureJet claims various quality control and testing measures that other manufacturers lack, such as testing pumps for 500 continuous hours.
3. Technical specifications and diagrams of the PJS 12120 high pressure pump model are presented.
4. An overview of PressureJet as a company established in 1996 in India that manufactures high pressure pumps and systems.
This document provides information about a high pressure cleaner system from PressureJet, including:
1. Specifications for a PJS 15250 high pressure pump with 250 bar pressure and 15 LPM flow rate.
2. An overview of PressureJet's quality control processes and features compared to other manufacturers.
3. Details on the components, accessories, and options available for customizing a complete high pressure cleaning system.
High pressure jet cleaner 14 lpm 140 baradmin_PJSPL
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
High Pressure Water Jet cleaner 14 lpm 140 baradmin_PJSPL
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
High pressure jet cleaner 14 lpm 140 baradmin_PJSPL
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
High pressure jet cleaner 14 lpm 140 baradmin_PJSPL
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
High pressure jet cleaner 14 lpm 140 baradmin_PJSPL
This document provides information about a high pressure cleaner system from PressureJet, including:
1. The key specifications of the PJS 14150 high pressure pump, including a pressure of 140 bar and flow rate of 14 LPM.
2. An open challenge from PressureJet claiming they undergo more rigorous testing and quality control than other manufacturers.
3. Details of the components, accessories, and options included in PressureJet high pressure cleaning systems at different price levels.
1. The document describes a high pressure cleaner system from PressureJet including a pump model PJS 14150 with specifications, accessories included in different package options, spare parts, and optional items.
2. It provides details on the pump such as its pressure of 140 bar, flow rate of 14 LPM, dimensions, and weight. Accessories included in the packages include an electric motor, base frame, hoses, valves, gauges, lances, and nozzles.
3. The document explains the purpose and functioning of key accessories like the unloader valve, safety valve, pressure gauge, and different nozzle types. It aims to showcase PressureJet's high pressure cleaner systems and components.
This document provides information on various high pressure and mixing equipment produced by ILSHIN AUTOCLAVE, including:
1. High pressure reactors for reactions up to 8000 psi and 250°C.
2. Pressure ovens for curing and sterilization up to 1000 bar and 120°C.
3. Isostatic presses applying isostatic force in liquids like oil or water up to 6000 bar.
4. Supercritical carbon dioxide systems for extraction and drying using supercritical CO2.
5. Agitators, high shear mixers, and three roll mills for efficient mixing of materials up to 70,000 centipoise viscosity.
Pressure Jet Systems Pvt. Ltd., a leading manufacturer of high pressure reciprocating triplex plunger pumps and complete systems, used for High Pressure Cleaning, Hydro Jetting, Hydro Blasting, Hydro static Pressure Test, Sewer Jetting, Fire Fighting, Misting-Fogging, Paint & Rust removal and many other industrial applications.
We manufacture pumps having pressure up to 1400 bar, flow rate up to 445 lpm and power up to 180 hp, supplying to corporate giants such as NTPC, BHEL, Reliance and many other.
High pressure water cleaner- Pressure Jet Systemaman1312
This document provides information about a high pressure cleaner system from PressureJet, including:
- The model is a PJS 70150 pump with 150 bar pressure and 70 LPM flow rate.
- It lists the basic USPs and features of PressureJet systems, such as rigorous 500-hour testing, over 257 quality checking instruments, use of 3D design software, and more.
- Details of the system are given, including dimensions and specifications of the PJS 70150 pump model. Accessories included in different packages are outlined along with prices.
- Additional information is provided on nozzles, unloader valves, safety valves, pressure gauges, and other accessories. Terms and conditions for
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
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 )
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 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 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 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.
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6. PRODUCT GUIDE
Air Driven Gas Boosters
Air Driven Liquid Pumps
Metering Pumps
Pressure Testing Machines
UHP(Ultra High Pressure) Pumps
Application of Product line
7. PRODUCT GUIDE
AIR DRIVEN GAS BOOSTERS
(Pictures of : Air Driven Gas Boosters)
GB-SS
Single Stage &
Single driven
Max.pressue:
49~525 bar
Max.pressue:
420~1,050 bar
Max.pressue:
49~525 bar
Max.pressue:
98~1,050 bar
GB-DD
Double Stage &
Double Driven
GB-SD
Single Stage &
Double Driven
GB-DS
Double Stage &
Single Driven
6
8. Air cooling part for preventing from
friction heat
Seal Kit – easy for users to replace
the seal
A composite structure of Seal with O-ring
for enhancing the durability of seal
FEATURE OF MAIN SEAL
7
9. LSD
Single Stage & Double driven
LST
Single Stage & Triple Driven
PRODUCT
AIR DRIVEN LIQUID PUMPS
(Pictures of Air Driven Liquid Pumps)
LSS
Single Stage & Single driven
Max. pressure : 350~2,450 bar Max. pressure : 700~4,900 bar Max. pressure : 7,350 bar
8
11. LPS
Liquid Pump System
GBS
Gas Booster System
PRODUCT GUIDE
PRESSURE TESTING MODULES
(Pictures of The Pressure Testing Machines)
10
12. ※ We provode custom-made service to meet user’s request.
PRODUCT GUIDE
PRESSURE TESTING MODULES
(Pictures of The Pressure Testing Machines_2)
for
external
for
rental
for
rupture&leak
11
13. PRODUCT GUIDE
UHP (Ultra High Pressure) PUMP
(Pictures of UHP(Ultra High Pressure) Pump)
Under develoment
※ We provode custom-made service to meet user’s request.
HPP SCE co2waterjet pump
12
14. PRODUCT GUIDE
APPLICATION RANGE
13
Gas booster
Pressure testing
High pressure-1,050 bar
Various gas
Pressure test module or
Customized system
Pressure testing
Hydrostatic testing
Testing pressure changeUltra high pressure range:
0~7000bar ( 700Mpa )
Liquid pump
Pressure testing
15. PRODUCT GUIDE
APPLICATION OF GAS BOOSTER
14
To charge the fire extinguisher
To inspect for gas safety
To increase pressure of Gas
Main part for liminating autoclave
Main part for Gas Booster T/M
16. 15
Main part for CIP / WIP
To charge the vessel by liquid (mainly water)
To increase pressure of liquid
Main part for Liquid Pump T/M
PRODUCT GUIDE
APPLICATION OF LIQUID PUMP
19. Assembled to order
Standard lead time : 2~3 weeks
Order Manufacturing Testing Packaging Delivery
STRENGTH OF PUMSTER
PROCEDURE
18
20. STRENGTH OF PUMSTER
WHAT WE OFFER IS
Price Delivery
Solution
- to give aggressive price for
entering the market - to delivery products within 2~3 weeks
- to suggest optimized products
with customized service
- to provide a full range of technical
support ASAP
A/S
19