gas injection

简明释义

灌注气

英英释义

例句

1.The gas injection technique is often used in the manufacturing of certain plastics.

在某些塑料的制造中，通常使用气体注入技术。

2.The process of gas injection is crucial in enhancing oil recovery from underground reservoirs.

在地下油藏中，气体注入过程对提高石油采收率至关重要。

3.To improve engine performance, the mechanic recommended a gas injection system.

为了提高发动机性能，机械师建议使用气体注入系统。

4.During the experiment, we utilized gas injection to create a controlled environment for the reaction.

在实验过程中，我们利用气体注入来创造反应的受控环境。

5.In geological studies, gas injection helps simulate natural gas reservoir behavior.

在地质研究中，气体注入有助于模拟天然气储层的行为。

作文

Gas injection is a crucial process in various industries, particularly in the field of oil and gas extraction. This technique involves the introduction of gas into a reservoir to enhance the recovery of hydrocarbons. By increasing the pressure within the reservoir, gas injection helps to displace oil and natural gas, making it easier to extract these valuable resources. The most common gases used for this purpose include carbon dioxide (CO2) and natural gas. The effectiveness of gas injection (气体注入) relies heavily on the geological characteristics of the reservoir and the type of gas used. In addition to its applications in oil recovery, gas injection (气体注入) also plays a significant role in other sectors such as manufacturing and environmental management. For instance, in the production of certain metals, gas injection can be used to improve the quality of the final product by controlling the atmosphere in which the metal is processed. Moreover, in waste management, gas injection (气体注入) techniques are employed to facilitate the breakdown of organic materials in landfills, thus reducing greenhouse gas emissions. The technology behind gas injection (气体注入) has evolved significantly over the years. Advanced monitoring and control systems allow operators to optimize the injection process, ensuring that the right amount of gas is injected at the right time. This not only maximizes recovery rates but also minimizes environmental impacts. Furthermore, research is ongoing to explore the potential of using renewable gases, such as biogas, in gas injection (气体注入) processes. This shift could lead to more sustainable practices in the industry. One of the challenges associated with gas injection (气体注入) is the potential for induced seismicity. As gas is injected into the ground, it can alter the stress distribution in the surrounding rock formations, potentially triggering earthquakes. Therefore, it is essential for companies to conduct thorough geological assessments and implement stringent monitoring protocols to mitigate these risks. In conclusion, gas injection (气体注入) is an essential technique with widespread applications across various industries. Its ability to enhance resource recovery and improve production processes makes it a valuable tool in modern engineering. However, as with any technology, it comes with challenges that must be carefully managed. As we move towards a more sustainable future, the continued development and optimization of gas injection (气体注入) technologies will play a vital role in balancing economic growth with environmental stewardship.