discharge temperature

简明释义

排出温度

英英释义

例句

1.During testing, we observed that the discharge temperature rose significantly under heavy load.

在测试过程中，我们观察到在重负荷下排放温度显著上升。

2.The engineer monitored the discharge temperature to ensure the system was operating within safe limits.

工程师监测了排放温度以确保系统在安全范围内运行。

3.A high discharge temperature can indicate a problem with the compressor.

高排放温度可能表明压缩机存在问题。

4.To optimize performance, the discharge temperature should not exceed 80 degrees Celsius.

为了优化性能，排放温度不应超过80摄氏度。

5.The discharge temperature of the pump needs to be recorded for maintenance purposes.

泵的排放温度需要记录以便进行维护。

作文

Understanding the concept of discharge temperature is crucial in various fields, especially in engineering and environmental science. The term refers to the temperature of a fluid, typically a gas or liquid, as it exits a system, such as a compressor, engine, or other machinery. This parameter is significant because it can impact the efficiency and performance of the equipment involved. For instance, in HVAC (heating, ventilation, and air conditioning) systems, the discharge temperature can indicate how well the system is functioning and whether it is operating within safe limits. If the discharge temperature is too high, it may suggest that the system is overworking, which could lead to mechanical failure or increased energy consumption.In the context of internal combustion engines, the discharge temperature plays a vital role in understanding engine performance. When fuel burns inside the engine, it produces exhaust gases that exit at a certain temperature. Monitoring this temperature helps engineers determine how efficiently the engine is converting fuel into energy. A higher discharge temperature might indicate incomplete combustion or other inefficiencies, prompting further investigation to improve the engine's design or operation.Moreover, in the field of thermodynamics, the discharge temperature is essential for analyzing heat transfer processes. Engineers often use this measurement to calculate heat losses or gains in various systems. For example, in a heat exchanger, the discharge temperature of the working fluid can be compared to its inlet temperature to assess the effectiveness of the heat exchange process. This comparison is critical for ensuring that systems are designed to operate efficiently and meet required performance standards.Additionally, environmental considerations come into play when discussing discharge temperature. In industrial processes, the temperature of waste gases or effluents can affect local ecosystems. High-temperature discharges into bodies of water can harm aquatic life by altering the thermal properties of the water, potentially leading to thermal pollution. Therefore, regulations often dictate acceptable discharge temperature limits to protect the environment.In conclusion, the term discharge temperature encompasses a variety of applications across different industries. Its importance cannot be overstated, as it affects efficiency, performance, and environmental impact. Understanding how to measure and control discharge temperature is essential for engineers and scientists alike, ensuring that systems operate optimally while minimizing negative effects on the environment. As technology continues to advance, the ability to monitor and adjust discharge temperature will likely become even more critical in our pursuit of sustainable practices and improved performance in engineering systems.

理解排放温度的概念在各个领域中至关重要，尤其是在工程和环境科学方面。这个术语指的是流体（通常是气体或液体）离开系统（如压缩机、发动机或其他机械设备）时的温度。这个参数非常重要，因为它会影响相关设备的效率和性能。例如，在暖通空调（HVAC）系统中，排放温度可以表明系统的运行状况以及是否在安全范围内。如果排放温度过高，可能表明系统正在超负荷工作，这可能导致机械故障或能耗增加。在内燃机的背景下，排放温度在理解发动机性能方面起着至关重要的作用。当燃料在发动机内部燃烧时，会产生以一定温度排出的废气。监测这一温度帮助工程师确定发动机将燃料转化为能量的效率。较高的排放温度可能表明燃烧不完全或其他低效现象，从而促使进一步调查以改善发动机的设计或操作。此外，在热力学领域，排放温度对于分析热传递过程至关重要。工程师通常使用此测量值来计算各种系统中的热损失或增益。例如，在热交换器中，工作流体的排放温度可以与其入口温度进行比较，以评估热交换过程的有效性。这种比较对确保系统设计高效并满足所需性能标准至关重要。此外，讨论排放温度时还涉及环境因素。在工业过程中，废气或废水的温度可能会影响当地生态系统。向水体排放高温废物可能会通过改变水的热特性来危害水生生物，可能导致热污染。因此，法规通常规定可接受的排放温度限制，以保护环境。总之，术语排放温度涵盖了不同产业中的多种应用。它的重要性不可低估，因为它影响效率、性能和环境影响。了解如何测量和控制排放温度对工程师和科学家来说至关重要，确保系统以最佳状态运行，同时尽量减少对环境的负面影响。随着技术的不断进步，监测和调整排放温度的能力在我们追求可持续实践和改善工程系统性能方面可能变得更加关键。