closed conduit

简明释义

暗管

英英释义

例句

1.Engineers designed the system using a closed conduit (封闭管道) for better pressure control.

工程师们设计了一个系统，使用closed conduit (封闭管道)以更好地控制压力。

2.A closed conduit (封闭管道) is essential in maintaining the integrity of the gas supply.

在维持燃气供应的完整性方面，closed conduit (封闭管道)是必不可少的。

3.The sewage system relies on closed conduits (封闭管道) to manage waste effectively.

污水系统依赖于closed conduits (封闭管道)来有效管理废物。

4.The water flows through a closed conduit (封闭管道) to prevent contamination.

水通过一个closed conduit (封闭管道)流动，以防止污染。

5.In the project, we installed a closed conduit (封闭管道) to transport electrical wiring safely.

在这个项目中，我们安装了一个closed conduit (封闭管道)以安全运输电线。

作文

In the world of engineering and fluid dynamics, the concept of a closed conduit plays a crucial role in understanding how fluids move through various systems. A closed conduit refers to a pipe or channel that is completely enclosed, allowing for the controlled flow of liquids or gases without exposure to the external environment. This design is essential for numerous applications, including water supply systems, sewage management, and even in industrial processes where the containment of hazardous materials is necessary.One of the primary advantages of using a closed conduit is the ability to maintain pressure within the system. When fluids are contained within a sealed environment, engineers can manipulate variables such as flow rate and pressure more effectively. For instance, in municipal water supply networks, closed conduits ensure that clean water is delivered efficiently to homes and businesses while minimizing the risk of contamination from outside sources.Moreover, closed conduits are designed to prevent leaks and spills, which is particularly important in systems dealing with toxic substances. In chemical manufacturing plants, for example, the use of closed conduits ensures that potentially harmful chemicals do not escape into the atmosphere, thereby protecting both workers and the environment. The integrity of these systems is paramount, and regular inspections and maintenance are required to ensure their reliability.In addition to safety and efficiency, closed conduits also contribute to energy conservation. When fluids travel through open channels, they often lose energy due to friction and turbulence. However, by utilizing a closed conduit, the flow can be streamlined, reducing energy losses and improving overall system performance. This is especially relevant in systems like heating and cooling, where maintaining optimal temperatures is vital for comfort and energy savings.The design and implementation of closed conduits require careful consideration of several factors, including material selection, diameter, and the nature of the fluid being transported. Engineers must choose materials that can withstand the specific pressures and temperatures of the fluids while also being resistant to corrosion and wear over time. Additionally, the diameter of the closed conduit must be appropriate for the expected flow rate, ensuring that the system operates efficiently without causing blockages or excessive pressure drops.Despite their many benefits, there are challenges associated with closed conduits. For instance, if a blockage occurs within the conduit, it can lead to significant problems, including pressure build-up and potential ruptures. Therefore, monitoring systems are often integrated into the design to detect any irregularities in flow or pressure, allowing for timely interventions before issues escalate.In conclusion, the concept of a closed conduit is integral to modern engineering practices involving fluid dynamics. Its applications span across various industries, providing safe, efficient, and reliable means of transporting fluids. Understanding the principles behind closed conduits not only enhances our ability to design effective systems but also underscores the importance of innovation in addressing the challenges of fluid management in an ever-evolving technological landscape.

在工程和流体动力学的世界中，“closed conduit”的概念在理解流体如何在各种系统中移动方面起着至关重要的作用。“closed conduit”指的是完全封闭的管道或通道，允许液体或气体在不暴露于外部环境的情况下进行受控流动。这种设计在许多应用中至关重要，包括供水系统、污水管理，甚至在工业过程中，当需要控制有害材料时。使用“closed conduit”的主要优点之一是能够在系统内维持压力。当流体被封闭在一个密封环境中时，工程师可以更有效地操控流量和压力等变量。例如，在市政供水网络中，“closed conduits”确保干净的水高效地送达家庭和企业，同时最大限度地减少外部污染的风险。此外，“closed conduits”的设计旨在防止泄漏和溢出，这在处理有毒物质的系统中特别重要。在化学制造厂中，例如，使用“closed conduits”确保潜在有害的化学物质不会逃逸到大气中，从而保护工人和环境。这些系统的完整性至关重要，定期检查和维护是确保其可靠性的必要措施。除了安全性和效率之外，“closed conduits”还有助于节能。当流体通过开放通道旅行时，由于摩擦和湍流，它们往往会损失能量。然而，通过利用“closed conduit”，流动可以被简化，从而减少能量损失，提高整体系统性能。这在供暖和制冷系统中尤其相关，在这些系统中，保持最佳温度对舒适性和节能至关重要。“closed conduits”的设计和实施需要仔细考虑多个因素，包括材料选择、直径和所运输流体的性质。工程师必须选择能够承受特定压力和温度的材料，同时还要耐腐蚀和耐磨损。此外，“closed conduit”的直径必须适合预期的流量，以确保系统高效运行，不会导致堵塞或过大的压力下降。尽管有许多好处，但与“closed conduits”相关的挑战也存在。例如，如果导管内发生堵塞，可能会导致重大问题，包括压力升高和潜在破裂。因此，监测系统通常集成到设计中，以检测流动或压力的任何异常，从而在问题升级之前及时干预。总之，“closed conduit”的概念对于现代流体动力学工程实践至关重要。它的应用跨越各个行业，提供安全、高效和可靠的流体运输手段。理解“closed conduits”背后的原理不仅增强了我们设计有效系统的能力，还突显了在不断发展的技术环境中应对流体管理挑战的创新重要性。