High Pressure Gas Booster, Pneumatic-Driven Gas Booster, Air Driven Liquid Pump

High Pressure Gas Booster Pump, Air Driven Liquid Pump

High Pressure Gas Booster Pumps are divided into gas-liquid booster pumps and gas booster pumps. The principle of the gas-liquid booster pump is to use the low pressure of a large-area piston to generate high hydraulic pressure for a small-area piston.

With competitive price and timely delivery, SUNCENTER sincerely hope to be your supplier and partner.

Booster Pumps Classification

1. Gas booster pumps such as nitrogen, argon, oxygen, hydrogen, etc.
2. Liquid booster pumps such as: water, hydraulic oil, etc.
3. Air booster pump
4. Refrigerant booster pump

High Pressure Gas Booster Pump Features

1. High output pressure: liquid pump up to 640MPa, air pump up to 200MPa
2. Wide range of use: the working medium can be hydraulic oil, water and most chemically corrosive liquids, and has high reliability and long maintenance-free life.
3. Wide range of output flow: For all types of pumps, only a small driving air pressure is required to work smoothly. At this time, a small flow is obtained, and different flow can be obtained after adjusting the driving air intake.
4. Flexible application: choose different types of pumps to obtain different pressure areas.
5. Easy to adjust: within the pressure range of the pump, adjust the regulating valve to adjust the intake pressure, and the output hydraulic pressure can be adjusted steplessly accordingly.
6. Automatic pressure maintenance: No matter what causes the pressure of the pressure maintenance circuit to drop, it will automatically start to supplement the leakage pressure and keep the circuit pressure constant.
7. Safe operation: It is driven by gas, without arc and spark, and can be used in dangerous places.

High Pressure Gas Booster Pump Features and Applications

1. Driven by a variety of gases: compressed air, nitrogen, water vapor, natural gas, etc. can be used as the driving source of the pump.
2. Wide range of applications: In the industrial field, it is used for clamping machine tool chucks, accumulator inflation, high-pressure bottle inflation, and conversion of reduced-pressure gas to high-pressure gas, etc. Where the pressure of the air source is not high enough, whether it is a machine or a test device, a booster pump can be used.
3. Automatic pressure maintenance: No matter what causes the pressure of the pressure maintenance circuit to drop, the booster pump will automatically start to supplement the leakage pressure and keep the circuit pressure constant.
4. Safe operation: It is driven by gas, without arc and spark, and is completely used in places with flammable and explosive liquids or gases.
5. Simple maintenance: Compared with other air-driven pumps, booster pumps can do the same work, but with fewer parts and seals, easy maintenance
6. High cost performance: The booster pump is a plunger pump. When working, the booster pump reciprocates rapidly. As the output pressure increases, the reciprocation of the pump slows down until it stops. At this time, the pressure of the pump is constant and the energy consumption is the lowest. All parts stop moving.

Safety Valve Test Bench

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Tube Expansion Machine

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Nitrogen/Oxygen Filling Machine

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LPG filling machine

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Valve Test Bench

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Fire Extinguisher Filling Machine

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Air Driven Gas Booster Pump Composition and principle

1. Gas part This part is composed of a lightweight different-diameter piston equipped with O-ring seals and a sleeve with outer glass fiber winding or duralumin coating and epoxy resin filling in the middle, and the piston is placed in the sleeve. The diameter of this air piston is constant for any series of air pumps. When compressed air is fed into the pneumatic device, the piston is forced into the compression stroke, and then the air drives the piston back for the suction stroke (except for M series pumps with spring automatic return function). Unlike many other pumps, pneumatic lines do not require the use of lubricants due to the inherently low-friction nature of the design and lubrication during assembly.
2. Hydraulic part
   The piston/punch rod of the hydraulic device is directly connected with the piston, and its lower end is loaded into the housing of the hydraulic device. Its diameter determines the compression ratio of the pump and thus the output flow and maximum pressure. Its function is to draw liquid through the inlet control valve and let it flow out through the outlet control valve under higher pressure. The unit is equipped with a spring check valve to control the flow of liquid in and out of the channel. When the piston/ram of the hydraulic unit is on the suction stroke, the inlet control valve opens and the outlet control valve is held closed by a spring to introduce liquid into the pump. During the boost stroke, the inlet control valve is closed and the piston/ram of the hydraulic unit forces fluid out through the outlet control valve. The dynamic seal is located around the piston/ram of the hydraulic unit and is a virtually wear-free part. Its function is to contain liquid under pressure during cycling and prevent external leakage or infiltration of gas installations. According to the medium of the pumped liquid, the operating temperature and the boost ratio, different sealing materials and forms are selected. NOTE: Most pumps use a spacer between the pneumatic and hydraulic sections to allow for complete separation and contamination-free operation.
3. Air circulation valve
   This section consists of a controller and a plunger that causes compressed air to flow to either end of the air piston depending on the position status. The piston pushes the control valve at the upper and lower ends of its stroke to alternately pressurize and ventilate the large area of the slide valve to control the reciprocating movement of the air flow to the air piston to maintain a circulating state. When the air is exhausted from the pump, it needs to pass through the exhaust muffler. Unlike many other pumps, the pump is not designed with a metal-to-metal tight fit, which prevents air leaks that would cause the plunger to cease operation.

Air Driven Gas Booster Pump Selection method

1. What is the pressurized medium?
   Pneumatic gas booster pumps are divided into gas booster pumps and gas-liquid booster pumps. The working principles of the two pumps are the same, but there are differences in structure. The gas booster pump is suitable for the boosting of clean compressed air and high-purity gas, and the gas-liquid booster pump is suitable for water, hydraulic oil, kerosene and other liquids with less impurities and low viscosity. Different media need to choose different seals to suit.
2. Where to use it?
   Pneumatic gas booster pumps are suitable for occasions with high pressure and small flow, suitable for scientific research, testing, testing and other occasions, but not suitable for civil and large flow output occasions.
3. How much traffic?
   Especially for gas pressurization, gas is divided into standard flow and working state flow. Generally speaking, everyone talks about standard flow.
4. What is the inlet pressure of the pressurized medium?
   Gas-liquid booster pumps generally have no requirement for the inlet pressure of the liquid. Most gas booster pumps require a certain pre-pressure of the gas. The size of the pre-pressure will determine whether to use a single-stage gas booster pump or a two-stage gas booster pump first. Pump.
5. Is there compressed air on site?
   Pneumatic booster pumps are driven by compressed air, and compressed air is the key. Choosing a different pump will determine the compressor with a large displacement.

SHANDONG SHINEEAST FLUID CONTROL SYSTEMS CO., LTD.

Shandong Shineeast Fluid Control Systems Co., Ltd., founded in , is a professional manufacturer of highly engineered fluid and gas handling equipment designed to generate, store and control high pressure gases and liquids.

In addition to offering a comprehensive range of air driven liquid pumps, air pressure boosters, air driven gas boosters, high pressure valves, fittings and accessories, pnematic power packs and hydraulic presses, pressure test machines, valve and pipe fittings test equipments, finishing pumps and related equipments, gas cylinder test equipments and the oil and gas field special controls and test equipments, we customize and build pneumatic power packs and test equipment. Our main manufacturing locations are fully registered to ISO and CE.   

Our products are widely used in industry, machine tool industry, diesel engine industry, aerospace industry, automobile manufacturing, household electrical appliances, industrial electronics industry, shipbuilding industry, petrochemical industry, oil and gas field, CNG vehicle conversion industry, pressure test industry and other fields.

Shineeast also has a strong commitment to providing you with high quality products as well as excellent service and technical support; and we have built an enviable reputation for quality in the world market. This helps to keep Shineeast as the best choice for all of your high pressure requirements.

We are here to solve your problems. Please contact us to discuss your requirements or visit our website at www.cnshineeast.com for more information.

FAQ

What are your prices?

Our prices are subject to change depending on supply and other market factors. We will send you an updated price list after your company contact us for further information.

Do you have a minimum order quantity?

Yes, we require all international orders to have an ongoing minimum order quantity. If you are looking to resell but in much smaller quantities, we recommend you check out our website.

Can you supply the relevant documentation?

Yes, we can provide most documentation including Certificates of Analysis / Conformance; Insurance; Origin, and other export documents where required.

What is the average lead time?

For samples of air driven booster pumps, the lead time is about 5-7 working days; for samples of pressure test machines, the lead time is about 15-20 working days. For mass production, the lead time is 25-40 days after receiving the deposit payment. The lead times become effective when (1) we have received your deposit, and (2) we have your final approval for your products. If our lead times do not work with your deadline, please go over your requirements with your sale. In all cases we will try to accommodate your needs. In most cases we are able to do so.

What kinds of payment methods do you accept?

You can make the payment to our bank account, Western Union, or L/C. For orders with small amount less than USD.00, the payment term is 100% T/T in advance; for orders with large amount more than USD.00, the payment is 50% deposit in advance, 50% balance before delivery.

Want more information on pneumatic chemical injection pump? Feel free to contact us.

What is the product warranty?

We warranty our materials and workmanship. Our commitment is to your satisfaction with our products. In warranty or not, it is the culture of our company to address and resolve all customer issues to everyone’s satisfaction.

Do you guarantee safe and secure delivery of products?

Yes, we always use high quality export packaging.

How about the shipping fees?

The shipping cost depends on the way you choose to get the goods. Express is normally the most quickest but also most expensive way. By seafreight is the best solution for big amounts. We can offer you exact freight rates if we know the details of amount, weight and way. Please contact us for further information.

Contacts

China-Europe Intelligent Port, Industrial Development Park, Gaoguanzhai Town, Zhangqiu District,
Jinan, ShanDong, China,

Ms.Karen ChangWeChat/Mobile: +86-
: +86

: -573-
Fax: -573-
Mail: [ protected]
Web: www.cnshineeast.com

The answers to the following questions will provide the parameters for the selection of any gas booster or ProPak booster system.

1. What is the maximum pressure to be attained?

You need to know the pressure that the system will have to reach, either now or sometime in the future. This does not need to be the usual working pressure, but the maximum pressure ever needed.

2. What is the required flow rate?

You need to know the required flow rate at the required discharge pressure. This is not the flow rate at the maximum pressure, but the flow rate at the working pressure. Remember that every booster has a maximum pressure where it will stall and produce no flow, but at any pressure less than that it will produce flow. This flow reduces in quantity as the output pressure approaches the stall pressure.

3. Is the flow rate constant?

Do you have a process application where you need a constant flow at a constant pressure? If so, then this is expressed as “x” SCFM (NM3) @ “y” PSIG (Barg).

4. Is the flow rate decreasing?

Do you have an application where you are filling cylinders or some other vessel from a lower supply pressure to a higher storage pressure. To select the proper booster or booster system, you need to know the size of the vessel to be filled. This can be supplied in any form that can be converted to ACF.

5. What is the required fill time for the vessel?

It is very common to have an initial fill times that is unrealistic. Many people who are not
familiar with gases ask for fill times that will require uneconomic systems. Therefore it is important to think about the longest possible fill time the application can stand.

6. What is the gas supply pressure?

The performance of any gas booster is a function of the incoming gas pressure. Simply stated: “any gas booster will only discharge the amount of gas it takes in”. The higher the inlet gas pressure, the more SCF of gas are squeezed into the gas section and
therefore the more gas discharged. Gas supply can have more than one source. Therefore it can have many combinations of flow, pressure and temperature.

7. What is the drive pressure?

This is not the initial pressure in the system first thing in the morning before all of the uses of air are operational, but rather should be the minimum that the plant experiences throughout the day. The booster may have to provide maximum performance when the drive conditions are at their worst.

8. What is the gas?

Some gases cannot be pumped with standard boosters. They may require special seals, materials of construction, venting and other considerations. This is also important when higher pressures are required in filling applications to determine the compressibility of the gas. Applications involving gas boosters will always fall into one of four categories. It is very important to clearly determine into which category a particular application fits.

a) The supply pressure is at a constant pressure (Ps) and the discharge gas is at a constant flow (Q) and pressure (Po).

b) The supply gas is from a decreasing pressure and the discharge gas is at a constant flow and pressure. It is safe to assume that the supply flow rate will decrease as the supply pressure decreases. To maintain the constant outlet flow the booster will have to increase its cycle rate.

c) The supply gas is at a constant flow and pressure and the discharge gas it at an increasing 8 pressure.. It is safe to assume that the discharge flow rate will decrease as the discharge
pressure Increases.

d) The supply gas is at a decreasing pressure and the discharge gas is at an increasing pressure. It is safe to assume that the flow rate will decrease significantly as the pressures get further apart.