wingoil's blog

Manufacturers will be aware of the actual application range of their equipment or any issues that need to be addressed during the production design phase while producing items. When starting up, they can use a superior design strategy. Gas booster pumps come in a wide variety, and individuals are familiar with these particular conditions and operational components. In the past, they could choose and employ certain models based on the demands of their jobs or the needs of the environment to attain superior efficiency. Naturally, there is a lot of equipment. They must be able to take these issues into account throughout the setting process since they will have very severe criteria on other areas of the process of operation and use.

Currently, the quality issue should be taken into consideration when choosing and using a gas booster pump. The design of each pipeline or the design of each work process is very important and required when the operation is repeated. Stainless steel is used for the high-pressure component's material during the design process, and a double-layer seal is used. By doing this, people may increase the efficiency of the design process in accordance with a particular usage environment or a set of adjustment requirements.

Currently, designers will focus more on the selection and usage of different tools or a few specialized issues, but some of his professional work is also crucial in the factory design process. Some of his work has to be tested beforehand. The production design of these tools is now becoming more sophisticated because to the quick development of intelligence, which can lead to better outcomes for some issues or particular design requirements. As a result, when choosing equipment or comparing them, many individuals will pay close attention to the unique characteristics of these booster pumps.

People can currently use the equipment that these businesses give since they are aware of it and how to use it. Compressed air is employed as a power source without consuming any energy when the gas booster pump may be operated once again. It is frequently used because it uses air or high concentration gases like nitrogen and hydrogen as the pressured medium. People learn about the booster pump's functionality, installation requirements, and a few other things as it is being used.

For situations involving hydraulic fracturing, dissolvable frac plugs are employed. The majority of modern dissolvable materials, however, it only have little strength and rapidly degrade in high-temperature forms.

For such high-temperature formations, where wellbore temperatures typically surpass 250°F, a new high-temperature dissolvable frac plug was created. This brand-new frac plug dissolves fully in higher-temperature wellbore fluids and is made of a high-strength metal with an elastomeric seal.

Traditional frac plugs are made of non-dissolving elastomers and composite materials. These non-dissolving frac plugs must be milled off when fracturing is finished because they restrict output. The requirement for a separate mill run intervention into the wellbore is eliminated by the dissolvable frac plugs, which dissolve in wellbore fluid.

However, in higher-temperature shale formations, the metal and elastomer's dissolution process speeds up. Material strength and elastomer integrity decline while dissolution takes place. In order to construct a frac plug that could effectively provide zonal isolation while completely dissolving in high-temperature formations, a high-strength dissolvable metal and elastomer was designed.

The new high-temperature frac plug is designed to operate at temperatures and with fluids found in Middle Eastern basins. The novel high-temperature dissolvable frac plug's dissolvable metal alloy and elastomer underwent extensive laboratory testing. By adding more material dopant to a few select, non-critical frac plug components, the dissolution performance of the high-temperature frac plug was improved during laboratory testing. The influence of the dopant on the dissolving of the metallic alloy is demonstrated by metallographic analysis, which also shows how rapid dissolution for some components might shorten the time needed for the full dissolution of the frac plug. The hydrolytic breakdown reaction used by the dissolvable elastomer is appropriate for high-temperature fluids.

For some wells in the Middle East region, temperature modeling was done to forecast wellbore temperature throughout the pumping and treatment schedules. By increasing the material dopant for extra frac plug components, a second high-temperature frac plug alternative was created based on these models to improve the dissolution performance in such wells.

Two high-strength frac plugs are the end result, which can be placed anywhere inside the wellbore and fully dissolve in high-temperature formations. The highly soluble substances can dissolve in water-based wellbore fluid, formation fluid, or production fluid.

The unique frac plug is made of high-strength tailored materials and is intended for high-temperature plug-and-perf applications. The requirement for a separate mill run intervention into the wellbore is removed by complete dissolution of the frac plug, which lowers cost, operating time, and personnel danger.

The invention of the dissolvable elastomer, the high-temperature dissolvable frac plug's tested behavior, and the application of wellbore modeling further improve the performance of the high-temperature dissolvable frac plugs are all covered in this study.

The pneumatic booster pump is divided into gas and liquid booster pump. The principle of the gas-liquid booster pump is to use the low pressure of the large-area piston to generate high hydraulic pressure of the small-area piston.

The technical parameters of the pneumatic booster pump are the driving air source pressure: 0.3MPa~0.8MPa

Classification

1. Gas booster pump such as: argon, oxygen, hydrogen, nitrogen booster, etc.

2. Liquid booster pump such as: water, hydraulic oil, etc.

3. Air booster pump

4. Refrigerant booster pump

Advantages of Pneumatic Booster Pumps

1. A variety of gas drives: compressed air, nitrogen, water vapor, natural gas, etc. can be used as the driving gas source of the pump.

2. Wide range of use: used in the industrial field for clamping of machine tool chucks, charging of accumulators, charging of high-pressure bottles, converting low-pressure gas into high-pressure gas, etc. Where the air source pressure is not high enough, a booster pump can be used whether it is a machine or a test device.

3. Automatic pressure maintenance: No matter what the reason causes the pressure of the pressure maintaining circuit to drop, the booster pump will automatically start to supplement the leakage pressure and keep the circuit pressure constant.

4. Operation safety: It is driven by gas, without arcs and sparks, and is completely used in places with flammable and explosive liquids or gases.

5. Simple maintenance: Compared with other air-driven pumps, the booster pump can complete the same work, but its parts and seals are less, and the maintenance is simple

6. High cost performance: The booster pump is a kind of 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. The parts stop moving.

7. High output pressure: up to 640MPa for the liquid pump and 200MPa for the air pump.

8. Wide range of output flow: For all types of pumps, only a small driving air pressure can work smoothly. At this time, a small flow can be obtained, and different flows can be obtained after adjusting the driving air intake.

Selection method

1. What is the pressurized medium?

Pneumatic booster pump is divided into gas booster pump and gas-liquid booster pump. The working principle of the two pumps is the same, but the structure is different. 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 liquids with less impurities and low viscosity such as water, hydraulic oil and kerosene. Different media should choose different seals to suit.

2. Use occasions?

Pneumatic booster pump is suitable for high pressure, small flow occasions, suitable for scientific research, testing, testing and other occasions, not suitable for civil and large flow output occasions.

3. What is the flow rate?

Especially the pressurization of the gas, the gas is divided into the standard flow and the flow in the working state. Generally speaking, everyone talks about the standard flow.

4. What is the inlet pressure of the pressurized medium?

The gas-liquid booster pump generally has no requirement for the inlet pressure of the liquid. Most of the gas booster pumps require a certain pre-pressure of the gas. The size of the pre-pressure will decide whether to use a single-stage gas booster pump or a two-stage gas booster first. Pump.

5. Is there compressed air on site?

The pneumatic booster pump is driven by compressed air. Compressed air is the key. The choice of different pumps will determine how much displacement compressors to choose.

Wingoil is a booster pump manufacturer. We have R&D, design, and manufacturing technologies for special equipment in the field of oil and gas exploration and development, and provide a full range of technical services. With years of experience in equipment development and manufacturing, as well as experience in technical solutions, we provide customers with one-to-one customized products and services according to their actual needs. If you have any needs, please contact us and we will be happy to develop a custom solution for you.