compressor and turbine equilibrium running line

简明释义

压缩机涡轮机平衡运转线

英英释义

例句

1.Adjustments were made to the valves to ensure they operated along the compressor and turbine equilibrium running line.

对阀门进行了调整，以确保它们沿着压缩机和涡轮平衡运行线运行。

2.Monitoring the compressor and turbine equilibrium running line is crucial for maintaining system stability.

监测压缩机和涡轮平衡运行线对于维持系统稳定性至关重要。

3.The engineer adjusted the settings to align with the compressor and turbine equilibrium running line to optimize performance.

工程师调整设置以与压缩机和涡轮平衡运行线对齐，以优化性能。

4.When the system deviates from the compressor and turbine equilibrium running line, it can lead to inefficiencies.

当系统偏离压缩机和涡轮平衡运行线时，可能会导致效率降低。

5.The technician explained how to read the compressor and turbine equilibrium running line on the performance chart.

技术员解释了如何在性能图表上读取压缩机和涡轮平衡运行线。

作文

In the field of thermodynamics and fluid mechanics, understanding the relationship between various components of a system is crucial for efficient design and operation. One such critical concept is the compressor and turbine equilibrium running line, which plays a pivotal role in the performance of gas turbines and jet engines. This line represents the balance point where the compressor and turbine operate in harmony, ensuring optimal efficiency and stability within the system.The compressor and turbine equilibrium running line can be visualized as a graphical representation on a performance map, where the operating conditions of both the compressor and turbine are plotted. The compressor is responsible for increasing the pressure of the incoming air, while the turbine extracts energy from the high-temperature, high-pressure exhaust gases to perform work. At the equilibrium running line, the energy produced by the turbine matches the energy consumed by the compressor, leading to a stable and efficient operation.When designing a gas turbine system, engineers must consider various factors that affect the position of the compressor and turbine equilibrium running line. These factors include the inlet temperature, pressure ratio, and the specific design of the compressor and turbine stages. By optimizing these parameters, engineers can ensure that the system operates along this equilibrium line, maximizing efficiency and minimizing losses.Moreover, deviations from the compressor and turbine equilibrium running line can lead to various operational issues. For instance, if the compressor operates at a higher pressure than what the turbine can handle, it may result in compressor stall or surge, which can cause catastrophic failures. On the other hand, if the turbine is unable to extract sufficient energy, the system may become inefficient, leading to increased fuel consumption and reduced overall performance.Understanding the compressor and turbine equilibrium running line is also essential for troubleshooting and maintenance. Engineers often refer to this line when diagnosing issues within the system. By analyzing the performance data and comparing it to the expected equilibrium line, they can identify potential problems and implement corrective measures.In conclusion, the compressor and turbine equilibrium running line is a fundamental concept in the design and operation of gas turbines and jet engines. It represents the delicate balance between the compressor and turbine, ensuring that they work together efficiently. By mastering the intricacies of this equilibrium line, engineers can enhance the performance, reliability, and longevity of turbine systems, ultimately contributing to advancements in aerospace and energy technologies.

在热力学和流体力学领域，理解系统各组成部分之间的关系对于高效设计和操作至关重要。其中一个关键概念是压缩机与涡轮平衡运行线，它在燃气涡轮和喷气发动机的性能中扮演着重要角色。这条线代表了压缩机和涡轮和谐运作的平衡点，确保系统内的最佳效率和稳定性。压缩机与涡轮平衡运行线可以被视为在性能图上的图形表示，其中压缩机和涡轮的工作条件被绘制出来。压缩机负责提高进入空气的压力，而涡轮则从高温、高压的废气中提取能量以进行工作。在平衡运行线上，涡轮产生的能量与压缩机消耗的能量相匹配，从而实现稳定高效的运行。在设计燃气涡轮系统时，工程师必须考虑影响压缩机与涡轮平衡运行线位置的各种因素。这些因素包括进气温度、压力比以及压缩机和涡轮级的具体设计。通过优化这些参数，工程师可以确保系统沿着这一平衡线运行，从而最大化效率并最小化损失。此外，偏离压缩机与涡轮平衡运行线可能导致各种操作问题。例如，如果压缩机的工作压力高于涡轮所能承受的压力，可能会导致压缩机失速或喘振，造成灾难性故障。另一方面，如果涡轮无法提取足够的能量，系统可能变得低效，导致燃料消耗增加和整体性能下降。理解压缩机与涡轮平衡运行线对于故障排除和维护也至关重要。工程师常常在诊断系统问题时参考这条线。通过分析性能数据并将其与预期的平衡线进行比较，他们可以识别潜在问题并实施纠正措施。总之，压缩机与涡轮平衡运行线是燃气涡轮和喷气发动机设计与操作中的基本概念。它代表了压缩机与涡轮之间的微妙平衡，确保它们高效协同工作。通过掌握这一平衡线的复杂性，工程师可以提升涡轮系统的性能、可靠性和使用寿命，最终推动航空航天和能源技术的进步。