admissible exhaust temperature

简明释义

容许排气温度

英英释义

例句

1.The engine's performance is optimized when the admissible exhaust temperature 允许的排气温度 is maintained within specified limits.

当发动机的允许的排气温度保持在规定范围内时，性能会得到优化。

2.The manufacturer specifies the admissible exhaust temperature 允许的排气温度 in the user manual for optimal operation.

制造商在用户手册中指定了最佳操作的允许的排气温度。

3.If the admissible exhaust temperature 允许的排气温度 exceeds the limit, the system will trigger an alarm.

如果允许的排气温度超过限制，系统将触发警报。

4.Regular maintenance helps ensure that the admissible exhaust temperature 允许的排气温度 remains within safe levels.

定期维护有助于确保允许的排气温度保持在安全水平内。

5.Monitoring the admissible exhaust temperature 允许的排气温度 is crucial for preventing engine damage.

监控允许的排气温度对于防止发动机损坏至关重要。

作文

The concept of admissible exhaust temperature is crucial in various engineering fields, particularly in the design and operation of combustion engines and industrial furnaces. Understanding this term requires a deep dive into the principles of thermodynamics and material science. The admissible exhaust temperature refers to the maximum temperature that exhaust gases can reach while still ensuring the safe and efficient operation of machinery. Exceeding this temperature can lead to significant damage to components, decreased efficiency, and increased emissions, which are critical factors in today's environmentally conscious world.In combustion engines, the admissible exhaust temperature is determined by the materials used in the engine components, such as the exhaust valves and turbochargers. These parts must withstand high temperatures without degrading. For instance, if the exhaust temperature exceeds the admissible exhaust temperature, it can cause the exhaust valves to warp, leading to engine failure. Therefore, engineers must carefully calculate and monitor exhaust temperatures during operation to prevent such failures.Moreover, the admissible exhaust temperature plays a vital role in emissions control. Higher exhaust temperatures can lead to incomplete combustion, resulting in increased levels of harmful pollutants being released into the atmosphere. Regulatory standards set by environmental agencies often dictate specific limits on emissions, which are directly influenced by the admissible exhaust temperature. Therefore, maintaining exhaust temperatures within acceptable limits is not only a matter of equipment safety but also a legal requirement for many industries.In industrial applications, such as power plants or manufacturing facilities, the admissible exhaust temperature impacts the overall energy efficiency of the system. When exhaust gases are too hot, valuable energy is wasted, and the system operates less efficiently. Engineers often implement heat recovery systems to capture excess heat and convert it back into usable energy, thus optimizing the performance of the plant. By managing the admissible exhaust temperature, facilities can improve their energy efficiency and reduce operational costs.Furthermore, the concept of admissible exhaust temperature is not static; it can change based on various factors, including fuel type, ambient conditions, and operational practices. For example, using higher-quality fuels can lower the admissible exhaust temperature due to more complete combustion, whereas poor-quality fuels may increase it. This variability necessitates ongoing monitoring and adjustments to operational parameters to ensure compliance with established limits.In conclusion, the admissible exhaust temperature is a fundamental aspect of engineering that affects the performance, safety, and environmental impact of combustion systems. Professionals in the field must grasp this concept thoroughly to design efficient systems that adhere to safety regulations and contribute to sustainability efforts. As technology advances, understanding and managing the admissible exhaust temperature will become even more critical in the quest for cleaner and more efficient energy solutions.

可接受的排气温度是多个工程领域中的一个重要概念，尤其是在内燃机和工业炉的设计与操作中。理解这个术语需要深入探讨热力学和材料科学的原理。可接受的排气温度指的是排气气体可以达到的最大温度，同时确保机械安全和高效运行。超过这个温度可能会导致部件严重损坏、效率降低以及增加排放，这在当今环保意识日益增强的世界中尤为重要。在内燃机中，可接受的排气温度由发动机组件中使用的材料决定，例如排气阀和涡轮增压器。这些部件必须能够承受高温而不会降解。例如，如果排气温度超过可接受的排气温度，可能会导致排气阀变形，从而导致发动机故障。因此，工程师必须在操作过程中仔细计算和监控排气温度，以防止此类故障。此外，可接受的排气温度在排放控制中也起着至关重要的作用。较高的排气温度可能导致不完全燃烧，从而增加有害污染物释放到大气中的水平。环境机构设定的法规标准通常规定了排放的具体限制，而这些限制直接受到可接受的排气温度的影响。因此，保持排气温度在可接受的范围内不仅关乎设备安全，也是许多行业的法律要求。在工业应用中，如发电厂或制造设施，可接受的排气温度影响系统的整体能源效率。当排气气体过热时，宝贵的能源被浪费，系统的运行效率降低。工程师通常会实施热回收系统，以捕获多余的热量并将其转化为可用能量，从而优化工厂的性能。通过管理可接受的排气温度，设施可以提高能源效率并降低运营成本。此外，可接受的排气温度这一概念并不是静态的；它会根据多种因素变化，包括燃料类型、环境条件和操作实践。例如，使用高质量燃料可以降低可接受的排气温度，因为燃烧更完全，而劣质燃料可能会提高它。这种变化性使得持续监测和调整操作参数成为必要，以确保符合既定限制。总之，可接受的排气温度是工程的一个基本方面，它影响着燃烧系统的性能、安全性和环境影响。该领域的专业人士必须透彻理解这一概念，以设计出高效的系统，遵守安全法规，并为可持续发展作出贡献。随着技术的进步，理解和管理可接受的排气温度在追求更清洁、更高效的能源解决方案中将变得更加关键。