loss of working substance

简明释义

工质损耗

英英释义

例句

1.The study focused on minimizing the loss of working substance during the energy conversion process.

研究集中在减少能源转换过程中的工作物质损失。

2.During the inspection, we discovered a loss of working substance in the heat exchanger, necessitating immediate repairs.

在检查过程中，我们发现热交换器中有工作物质损失，需要立即维修。

3.The engineer reported a significant loss of working substance in the turbine, which could lead to decreased efficiency.

工程师报告涡轮机出现了显著的工作物质损失，这可能导致效率降低。

4.The loss of working substance in the chemical reactor was attributed to improper temperature control.

化学反应器中的工作物质损失归因于温度控制不当。

5.To improve the system's performance, we must address the loss of working substance in the pipeline.

为了提高系统性能，我们必须解决管道中的工作物质损失问题。

作文

In the world of thermodynamics, the term loss of working substance refers to a situation where the material that is used to perform work in a system is diminished or depleted. This concept is crucial in understanding how energy systems operate and how efficiency can be maximized. When we think about engines, for example, they rely on a working substance, such as steam or gas, to convert heat energy into mechanical energy. However, if there is a loss of working substance, the engine cannot function optimally, leading to wasted energy and reduced performance.To illustrate this further, consider a steam engine. The steam produced in the boiler acts as the working substance that drives the pistons. If there are leaks in the system, resulting in a loss of working substance, the engine will not be able to generate enough power. This inefficiency not only affects the performance of the engine but also increases fuel consumption, which can have economic implications.Moreover, the loss of working substance can occur in various forms, including evaporation, leakage, or even chemical reactions that consume the working material. For instance, in a refrigeration system, if refrigerant gas escapes due to a faulty seal, there is a loss of working substance, leading to a decrease in cooling efficiency. This highlights the importance of maintaining the integrity of systems to prevent such losses.The implications of loss of working substance extend beyond just mechanical systems. In biological contexts, organisms also experience similar phenomena. For example, when humans sweat, they lose water, which can be seen as a loss of working substance necessary for maintaining homeostasis. If too much water is lost without proper rehydration, it can lead to serious health issues, emphasizing the need for balance in any system.To mitigate the loss of working substance, engineers and scientists continually seek methods to enhance system design and maintenance protocols. Regular inspections, the use of high-quality materials, and innovative technologies can help minimize the chances of losing essential working substances. This proactive approach not only improves efficiency but also extends the lifespan of the equipment, ultimately leading to cost savings.In conclusion, understanding the concept of loss of working substance is vital in both mechanical and biological systems. It serves as a reminder of the importance of maintaining the resources we rely on to perform work efficiently. Whether in an engine, a refrigeration unit, or within our own bodies, preventing the loss of working substance is key to ensuring optimal performance and sustainability. As we continue to advance technology and deepen our understanding of these principles, we must remain vigilant in our efforts to minimize waste and maximize efficiency across all systems.

在热力学的世界中，术语working substance的损失指的是一种情况，其中用于在系统中执行工作的材料减少或耗尽。这个概念对于理解能量系统的运行和如何最大化效率至关重要。当我们考虑发动机时，例如，它们依赖于工作物质，如蒸汽或气体，将热能转化为机械能。然而，如果发生working substance的损失，发动机就无法最佳运行，导致能量浪费和性能下降。为了进一步说明这一点，考虑一个蒸汽机。锅炉中产生的蒸汽作为驱动活塞的工作物质。如果系统存在泄漏，导致working substance的损失，发动机将无法产生足够的动力。这种低效率不仅影响发动机的性能，还增加燃料消耗，从而可能产生经济影响。此外，working substance的损失可以以多种形式发生，包括蒸发、泄漏甚至消耗工作材料的化学反应。例如，在制冷系统中，如果由于密封故障而导致制冷剂气体泄漏，就会发生working substance的损失，导致制冷效率降低。这突显了维护系统完整性以防止此类损失的重要性。working substance的损失的影响不仅限于机械系统。在生物学背景下，有机体也经历类似现象。例如，当人类出汗时，他们失去水分，这可以被视为维持体内平衡所需的working substance的损失。如果在没有适当补水的情况下失去过多的水分，可能会导致严重的健康问题，强调了任何系统中保持平衡的必要性。为了减轻working substance的损失，工程师和科学家不断寻求增强系统设计和维护协议的方法。定期检查、使用高质量材料和创新技术可以帮助尽量减少失去基本工作物质的机会。这种主动的方法不仅提高了效率，还延长了设备的使用寿命，最终带来成本节省。总之，理解working substance的损失的概念在机械和生物系统中都是至关重要的。它提醒我们保持我们依赖的资源以高效执行工作的必要性。无论是在发动机、制冷装置还是我们自己的身体内，防止working substance的损失是确保最佳性能和可持续性的关键。随着我们继续推进技术并加深对这些原则的理解，我们必须在减少浪费和最大化各系统效率的努力中保持警惕。