by-pass steam dump

简明释义

旁路排汽

英英释义

例句

1.During testing, we monitored the by-pass steam dump for any leaks or malfunctions.

在测试期间，我们监测了旁通蒸汽排放是否有泄漏或故障。

2.The by-pass steam dump was activated automatically when the temperature exceeded safe limits.

当温度超过安全限制时，旁通蒸汽排放自动启动。

3.In case of a sudden pressure increase, the by-pass steam dump can effectively relieve excess steam.

在突然的压力增加情况下，旁通蒸汽排放可以有效释放多余的蒸汽。

4.The design of the system includes a by-pass steam dump to prevent overheating.

系统的设计包括一个旁通蒸汽排放以防止过热。

5.The operator decided to activate the by-pass steam dump during the maintenance procedure to ensure safety.

操作员决定在维护过程中启用旁通蒸汽排放以确保安全。

作文

In the world of power generation, efficiency and safety are paramount. One of the critical systems in steam power plants is the management of steam flow. When steam is generated in excess or when a turbine needs to be isolated for maintenance, it is essential to have a system in place that can safely dispose of the excess steam. This is where the concept of a by-pass steam dump comes into play. A by-pass steam dump is a mechanism designed to divert excess steam away from the turbine and safely release it to the atmosphere or to a heat exchanger. This process ensures that the turbine does not experience pressure overload, which could lead to catastrophic failures. The operation of a by-pass steam dump is crucial during various scenarios. For instance, when a turbine is taken offline for maintenance, the steam generated by the boiler must be managed effectively. Without a proper by-pass steam dump, the steam would build up pressure, potentially damaging the turbine or other components of the system. By diverting the steam through the by-pass steam dump, operators can maintain safe pressure levels and protect the integrity of the entire power plant.Moreover, the by-pass steam dump plays a vital role in maintaining operational efficiency. In cases where demand for electricity fluctuates, it is common for power plants to generate more steam than is needed at any given moment. The by-pass steam dump allows for this excess steam to be released without disrupting the overall operation of the plant. This flexibility ensures that the plant can respond to changes in demand while minimizing waste and maximizing efficiency.In addition to its operational benefits, the by-pass steam dump also contributes to environmental sustainability. By efficiently managing steam flow, power plants can reduce emissions associated with steam venting. Instead of allowing steam to escape uncontrollably, the by-pass steam dump system ensures that any released steam is done so in a controlled manner, minimizing the impact on the surrounding environment. Furthermore, understanding the mechanics behind the by-pass steam dump can provide valuable insights for engineers and operators. The design typically includes valves and piping that can handle high-pressure steam, ensuring that the system operates safely under various conditions. Regular maintenance and monitoring of the by-pass steam dump are essential to ensure its reliability and effectiveness. Any failure in this system could lead to significant risks, emphasizing the need for thorough training for personnel involved in power plant operations.In conclusion, the by-pass steam dump is an integral component of steam power plants, serving multiple functions that enhance safety, efficiency, and environmental responsibility. As the energy industry continues to evolve, the importance of such systems will only grow, highlighting the need for ongoing education and innovation in steam management technologies. Understanding and mastering the concept of the by-pass steam dump will equip professionals in the field with the knowledge necessary to maintain safe and efficient power generation processes.

在发电领域，效率和安全至关重要。蒸汽发电厂的一个关键系统是蒸汽流量的管理。当蒸汽产生过多或涡轮机需要停机维护时，必须有一个系统来安全处理多余的蒸汽。这就是旁路蒸汽排放概念的作用。旁路蒸汽排放是一种机制，旨在将多余的蒸汽从涡轮机引导出去，并安全释放到大气中或热交换器中。这个过程确保涡轮机不会经历压力过载，这可能导致灾难性的故障。 旁路蒸汽排放的操作在各种场景中至关重要。例如，当涡轮机因维护而脱机时，锅炉产生的蒸汽必须有效管理。如果没有适当的旁路蒸汽排放，蒸汽会积聚压力，可能会损坏涡轮机或系统的其他组件。通过将蒸汽引导通过旁路蒸汽排放，操作员可以保持安全的压力水平，保护整个发电厂的完整性。此外，旁路蒸汽排放在维持操作效率方面也发挥着重要作用。在电力需求波动的情况下，发电厂在任何给定时刻生成的蒸汽通常会超过所需的量。旁路蒸汽排放允许以不干扰发电厂整体运行的方式释放这些多余的蒸汽。这种灵活性确保了发电厂能够响应需求变化，同时最大限度地减少浪费并提高效率。除了其操作优势外，旁路蒸汽排放还有助于环境可持续性。通过有效管理蒸汽流，发电厂可以减少与蒸汽排放相关的排放。与其让蒸汽不受控制地逃逸，不如通过旁路蒸汽排放系统确保任何释放的蒸汽都是以受控的方式进行，从而最大限度地降低对周围环境的影响。 此外，了解旁路蒸汽排放背后的机械原理可以为工程师和操作员提供宝贵的见解。其设计通常包括能够处理高压蒸汽的阀门和管道，以确保系统在各种条件下安全运行。定期维护和监测旁路蒸汽排放对于确保其可靠性和有效性至关重要。该系统的任何故障都可能导致重大风险，这强调了对参与发电厂运营的人员进行全面培训的必要性。总之，旁路蒸汽排放是蒸汽发电厂的重要组成部分，发挥着多重功能，增强了安全性、效率和环境责任。随着能源行业的不断发展，此类系统的重要性只会增加，突显出在蒸汽管理技术方面持续教育和创新的必要性。理解和掌握旁路蒸汽排放的概念将使该领域的专业人员具备维护安全和高效发电过程所需的知识。