auxiliary turbine

简明释义

辅助透平

英英释义

例句

1.The ship's power system includes an auxiliary turbine to provide additional energy during peak loads.

船舶的电力系统包括一个辅助涡轮机，以在峰值负载期间提供额外能量。

2.The auxiliary turbine is designed to run on low-quality fuel, making it cost-effective.

辅助涡轮机设计用于低质量燃料，使其具有成本效益。

3.During maintenance, the engineers inspected the auxiliary turbine for any signs of wear and tear.

在维护期间，工程师检查了辅助涡轮机是否有磨损迹象。

4.In case of a main engine failure, the auxiliary turbine can help maintain essential operations.

如果主发动机故障，辅助涡轮机可以帮助维持基本操作。

5.The power plant was upgraded with a new auxiliary turbine to enhance overall efficiency.

发电厂升级了新的辅助涡轮机以提高整体效率。

作文

In modern engineering, efficiency and reliability are paramount, especially in industries that rely heavily on power generation. One of the critical components in this field is the auxiliary turbine, which plays a significant role in supporting the main power-generating systems. The auxiliary turbine (辅助涡轮) serves as a supplementary unit that helps maintain operational stability and efficiency during various stages of power production.The primary function of an auxiliary turbine is to provide additional power or assist in starting up the main turbines. In many cases, when the main turbine is offline for maintenance or repair, the auxiliary turbine can take over some of the load, ensuring that energy output remains consistent. This capability is especially important in large power plants where fluctuations in power supply can lead to significant operational challenges.Moreover, auxiliary turbines are often used in conjunction with other systems, such as heat recovery steam generators (HRSG). These systems capture waste heat from gas turbines and convert it into usable energy, enhancing overall efficiency. By integrating auxiliary turbines into these setups, engineers can maximize energy recovery and minimize waste, ultimately leading to more sustainable operations.Another essential aspect of auxiliary turbines is their role in emergency situations. For instance, if there is a sudden drop in power generation from the main turbines due to unforeseen circumstances, the auxiliary turbine can quickly engage to stabilize the system. This rapid response capability is vital for maintaining grid stability and preventing blackouts, which can have widespread consequences for both consumers and industries.The design and implementation of auxiliary turbines also reflect advancements in technology. Modern turbines are engineered to be more efficient and reliable than their predecessors. Innovations such as improved materials, aerodynamic designs, and advanced control systems contribute to the enhanced performance of auxiliary turbines. These improvements not only increase the operational lifespan of the turbines but also reduce maintenance costs and downtime.Furthermore, as the world shifts towards renewable energy sources, the role of auxiliary turbines is evolving. In wind and solar energy systems, for example, auxiliary turbines can be used to provide backup power during periods of low generation. This adaptability makes them invaluable in the transition to cleaner energy solutions, ensuring that power generation remains stable even with the intermittent nature of renewable sources.In conclusion, the auxiliary turbine (辅助涡轮) is a crucial component in the landscape of modern power generation. Its ability to provide supplementary power, enhance efficiency, and stabilize operations under varying conditions underscores its importance in energy systems. As technology continues to advance, the role of auxiliary turbines will likely expand, contributing to more efficient and sustainable energy solutions for the future. Understanding the significance of auxiliary turbines is essential for anyone involved in the energy sector, as they represent a key element in achieving reliable and efficient power generation.

在现代工程中，效率和可靠性至关重要，尤其是在那些高度依赖发电的行业中。一个关键的组成部分就是辅助涡轮，它在支持主要发电系统方面发挥着重要作用。辅助涡轮（auxiliary turbine）作为一个补充单元，有助于在发电的各个阶段维持操作的稳定性和效率。辅助涡轮的主要功能是提供额外的动力或协助启动主涡轮。在许多情况下，当主涡轮因维护或修理而停机时，辅助涡轮可以承担部分负载，从而确保能量输出保持一致。这种能力在大型发电厂中尤为重要，因为电力供应的波动可能会导致重大的操作挑战。此外，辅助涡轮通常与其他系统一起使用，例如热回收蒸汽发生器（HRSG）。这些系统捕获燃气涡轮产生的废热并将其转化为可用能量，从而提高整体效率。通过将辅助涡轮集成到这些设置中，工程师可以最大限度地提高能源回收并减少浪费，最终实现更可持续的操作。辅助涡轮的另一个重要方面是它们在紧急情况下的作用。例如，如果由于不可预见的情况导致主涡轮的发电突然下降，辅助涡轮可以迅速介入以稳定系统。这种快速响应能力对于维持电网稳定和防止停电至关重要，停电可能对消费者和工业造成广泛的后果。辅助涡轮的设计和实施也反映了技术的进步。现代涡轮的工程设计比其前身更加高效和可靠。改进的材料、空气动力学设计和先进的控制系统等创新都有助于提高辅助涡轮的性能。这些改进不仅增加了涡轮的操作寿命，还降低了维护成本和停机时间。此外，随着世界向可再生能源转型，辅助涡轮的作用正在演变。例如，在风能和太阳能系统中，辅助涡轮可以用于在发电较低的时期提供备用电源。这种适应性使它们在向更清洁的能源解决方案过渡中变得不可或缺，确保即使在可再生能源间歇性发电的情况下，发电仍然保持稳定。总之，辅助涡轮（auxiliary turbine）是现代发电领域中的一个关键组成部分。它能够提供补充动力、增强效率和在不同条件下稳定操作，突显了其在能源系统中的重要性。随着技术的不断进步，辅助涡轮的作用可能会进一步扩大，为未来更高效和可持续的能源解决方案做出贡献。理解辅助涡轮的重要性对于任何参与能源行业的人来说都是至关重要的，因为它们代表了实现可靠和高效发电的关键要素。