auxiliary turbogenerator

简明释义

辅助涡轮发电机组

英英释义

例句

1.The ship's power system relies on the auxiliary turbogenerator to provide electricity during low-demand periods.

这艘船的电力系统依靠辅助涡轮发电机在低需求期间提供电力。

2.During maintenance of the primary generator, the auxiliary turbogenerator provides backup power to essential equipment.

在主要发电机维护期间，辅助涡轮发电机为重要设备提供备用电源。

3.The auxiliary turbogenerator is designed to start quickly and support the grid during peak loads.

辅助涡轮发电机设计用于快速启动，并在高峰负载期间支持电网。

4.The efficiency of the auxiliary turbogenerator can significantly reduce operational costs for the facility.

辅助涡轮发电机的效率可以显著降低设施的运营成本。

5.In the event of a main generator failure, the auxiliary turbogenerator ensures that critical systems remain operational.

在主发电机故障的情况下，辅助涡轮发电机确保关键系统保持运行。

作文

In modern engineering, the concept of an auxiliary turbogenerator is vital for enhancing the efficiency and reliability of power systems. An auxiliary turbogenerator is a secondary power generation unit that provides additional electrical power to support primary generators, especially during peak loads or emergencies. This system plays a crucial role in various industries, including maritime operations, where ships rely on such generators to ensure uninterrupted power supply while at sea.The operation of an auxiliary turbogenerator typically involves the conversion of thermal energy into mechanical energy, which is then transformed into electrical energy. This process begins with the combustion of fuel, producing high-temperature gases that drive a turbine. The turbine is connected to a generator that produces electricity. By utilizing an auxiliary turbogenerator, operators can maintain a stable power output, reducing the risk of outages and ensuring the smooth functioning of essential systems.One of the significant advantages of employing an auxiliary turbogenerator is its ability to act as a backup power source. In critical applications, such as hospitals or data centers, having a reliable secondary power source is essential. If the main power source fails, the auxiliary turbogenerator can quickly activate to provide the necessary power, thereby safeguarding sensitive equipment and maintaining operations.Moreover, the integration of an auxiliary turbogenerator within a larger power system can enhance overall efficiency. These generators can be designed to operate on alternative fuels, such as biofuels or natural gas, which can reduce emissions and lower operational costs. By optimizing the use of resources, organizations can meet regulatory requirements while also achieving sustainability goals.In the context of renewable energy, auxiliary turbogenerators can complement solar or wind power systems. When renewable sources are insufficient to meet demand, these generators can fill the gap, ensuring a consistent power supply. This hybrid approach not only maximizes the use of clean energy but also provides a reliable fallback when natural conditions are unfavorable.However, the implementation of an auxiliary turbogenerator is not without challenges. Initial investment costs can be substantial, and the maintenance of such systems requires skilled personnel. Additionally, integrating these generators into existing infrastructure may necessitate significant modifications, which can complicate logistics and planning.Despite these challenges, the benefits of incorporating an auxiliary turbogenerator into power generation systems are undeniable. As industries continue to evolve and the demand for reliable energy sources increases, the role of these auxiliary systems will become even more prominent. The ongoing advancements in technology will likely lead to more efficient and environmentally friendly designs, further solidifying the place of auxiliary turbogenerators in future energy strategies.In conclusion, the auxiliary turbogenerator is an essential component of modern power systems, providing backup power, enhancing efficiency, and supporting the integration of renewable energy. As we look toward a future that prioritizes sustainability and reliability, understanding and utilizing auxiliary turbogenerators will be crucial for engineers and industry leaders alike. Their ability to ensure continuous power supply in various applications underscores their importance in the ever-evolving landscape of energy production.

在现代工程中，辅助涡轮发电机的概念对于提高电力系统的效率和可靠性至关重要。辅助涡轮发电机是一个二级发电单元，为主要发电机提供额外的电力，特别是在高峰负荷或紧急情况下。该系统在包括海洋作业等多个行业中发挥着关键作用，船只依赖这样的发电机以确保在海上不间断的电力供应。辅助涡轮发电机的操作通常涉及将热能转化为机械能，然后再转化为电能。这个过程始于燃料的燃烧，产生高温气体驱动涡轮。涡轮与发电机连接，产生电力。通过利用辅助涡轮发电机，操作人员可以保持稳定的电力输出，降低停电风险，确保重要系统的顺利运行。采用辅助涡轮发电机的一个显著优势是其作为备用电源的能力。在医院或数据中心等关键应用中，拥有可靠的备用电源至关重要。如果主电源出现故障，辅助涡轮发电机可以迅速启动，提供必要的电力，从而保护敏感设备并维持运营。此外，将辅助涡轮发电机集成到更大的电力系统中可以提高整体效率。这些发电机可以设计为使用替代燃料，例如生物燃料或天然气，从而减少排放并降低运营成本。通过优化资源的使用，组织可以满足监管要求，同时实现可持续发展目标。在可再生能源的背景下，辅助涡轮发电机可以补充太阳能或风能系统。当可再生资源不足以满足需求时，这些发电机可以填补空白，确保一致的电力供应。这种混合方法不仅最大限度地利用清洁能源，还在自然条件不利时提供可靠的后备。然而，实施辅助涡轮发电机并非没有挑战。初始投资成本可能很高，维护此类系统需要熟练的人才。此外，将这些发电机集成到现有基础设施中可能需要重大修改，这可能会复杂化物流和规划。尽管存在这些挑战，但将辅助涡轮发电机纳入发电系统的好处是不可否认的。随着行业的不断发展和对可靠能源来源的需求增加，这些辅助系统的作用将变得更加突出。技术的持续进步可能会导致更高效和环保的设计，从而进一步巩固辅助涡轮发电机在未来能源战略中的地位。总之，辅助涡轮发电机是现代电力系统的重要组成部分，提供备用电源、提高效率并支持可再生能源的整合。展望一个优先考虑可持续性和可靠性的未来，理解和利用辅助涡轮发电机对工程师和行业领导者来说至关重要。它们在各种应用中确保连续电力供应的能力突显了它们在不断发展的能源生产格局中的重要性。