leakage coefficient

简明释义

漏泄系数

英英释义

例句

1.The engineer calculated the leakage coefficient to determine how much fluid would escape from the system.

工程师计算了泄漏系数以确定系统中会有多少液体泄漏。

2.The leakage coefficient was measured during the testing phase of the new product.

在新产品的测试阶段，测量了泄漏系数。

3.To improve energy efficiency, we need to reduce the leakage coefficient of our HVAC system.

为了提高能效，我们需要降低空调系统的泄漏系数。

4.A high leakage coefficient indicates poor insulation in the building.

高泄漏系数表明建筑物的绝缘性差。

5.Understanding the leakage coefficient helps in designing more effective containment systems.

理解泄漏系数有助于设计更有效的储存系统。

作文

In today's world, where technology and engineering play a crucial role in our daily lives, understanding various technical terms is essential. One such term that often arises in discussions about fluid dynamics and structural integrity is the leakage coefficient. The leakage coefficient (泄漏系数) is a critical parameter used to quantify the amount of fluid that can escape from a system through unintended openings or defects. This concept is particularly important in fields such as civil engineering, mechanical engineering, and environmental science, where the containment of fluids is vital for safety and efficiency.The leakage coefficient serves as a measure of how effectively a system can prevent leaks, which can lead to significant losses or even hazardous situations. For instance, in the context of water supply systems, a high leakage coefficient indicates that a substantial amount of water is lost through leaks, resulting in increased operational costs and reduced efficiency. Engineers and planners must therefore pay close attention to this coefficient when designing pipelines and storage facilities to ensure they can withstand pressure and minimize leakage.Moreover, the leakage coefficient is not only relevant in water systems but also in gas and oil industries. In these sectors, leaks can pose serious environmental risks and safety hazards. A high leakage coefficient could mean that harmful gases are escaping into the atmosphere, potentially leading to air pollution and health issues for nearby communities. Therefore, monitoring and controlling the leakage coefficient is crucial for maintaining environmental integrity and public safety.To accurately calculate the leakage coefficient, engineers often utilize sophisticated modeling techniques and tools. These methods take into account various factors such as the material properties, the geometry of the system, and the operating conditions. By analyzing these elements, professionals can predict how much fluid might escape and implement measures to reduce leakage, thereby improving the overall performance of the system.In addition to its practical applications, the leakage coefficient also has theoretical implications. It is a key parameter in fluid mechanics and thermodynamics, helping researchers and scientists understand the behavior of fluids in different environments. By studying the leakage coefficient, they can develop better models for predicting fluid flow and enhancing the design of systems that rely on fluid containment.In conclusion, the leakage coefficient (泄漏系数) is an essential concept that encompasses both practical and theoretical aspects of engineering and environmental science. Understanding this term enables professionals to design more efficient systems, mitigate risks associated with leaks, and contribute to sustainability efforts. As we continue to innovate and improve our technologies, the importance of the leakage coefficient will only grow, making it imperative for future engineers and scientists to grasp its significance fully.