direct-connected turbo-generator
简明释义
直接驱动式涡轮发电机
英英释义
例句
1.The direct-connected turbo-generator is crucial for providing backup power during outages.
在停电期间,直接连接的涡轮发电机对提供备用电源至关重要。
2.The new design of the direct-connected turbo-generator allows for greater efficiency and reduced emissions.
新设计的直接连接的涡轮发电机允许更高的效率和减少排放。
3.In renewable energy applications, a direct-connected turbo-generator can be paired with geothermal systems.
在可再生能源应用中,可以将直接连接的涡轮发电机与地热系统配对。
4.During maintenance, the engineers checked the performance of the direct-connected turbo-generator to ensure optimal operation.
在维护期间,工程师检查了直接连接的涡轮发电机的性能,以确保最佳运行。
5.The power plant utilizes a direct-connected turbo-generator to efficiently convert steam energy into electricity.
该电厂利用一个直接连接的涡轮发电机高效地将蒸汽能转换为电能。
作文
In the world of power generation, efficiency and reliability are paramount. One of the key technologies that have emerged to meet these demands is the direct-connected turbo-generator. This innovative device plays a crucial role in converting mechanical energy into electrical energy, and its design offers several advantages over traditional generator systems.A direct-connected turbo-generator refers to a system where the turbine and generator are directly coupled without any intermediate gearbox. This direct connection minimizes energy losses that often occur in gear systems, making it a highly efficient option for power generation. The simplicity of this design not only enhances efficiency but also reduces maintenance needs, as there are fewer moving parts that can wear out over time.The operation of a direct-connected turbo-generator is based on the principles of thermodynamics. In a typical setup, steam or gas is used to drive the turbine. As the turbine spins, it directly turns the generator rotor, which induces an electric current through electromagnetic induction. This process allows for the immediate conversion of thermal energy into electrical energy, which can then be distributed to the power grid or used for local consumption.One of the significant benefits of using a direct-connected turbo-generator is its ability to operate at high speeds. Because there is no gearbox, these systems can achieve higher rotational speeds, which translates to greater efficiency and output. Furthermore, this design allows for a more compact installation, saving valuable space in power generation facilities.Additionally, direct-connected turbo-generators are increasingly being utilized in renewable energy applications. For instance, in wind power generation, these systems can be directly connected to wind turbines, providing a more streamlined and efficient way to convert wind energy into electricity. This trend is not only beneficial for reducing carbon emissions but also for enhancing the overall sustainability of energy production.However, like any technology, direct-connected turbo-generators come with their own set of challenges. One of the main concerns is related to the thermal stresses that can arise from operating at high speeds. Engineers must carefully design these systems to ensure they can withstand the operational conditions without compromising safety or performance. Additionally, the initial investment for these systems can be higher than for traditional generators, but the long-term savings in maintenance and operational costs often justify the expense.In conclusion, the direct-connected turbo-generator represents a significant advancement in power generation technology. Its direct coupling design enhances efficiency, reduces maintenance needs, and opens up new possibilities for renewable energy applications. As the demand for reliable and sustainable energy continues to grow, technologies like the direct-connected turbo-generator will play an essential role in shaping the future of energy production. Embracing such innovations is crucial for meeting global energy needs while minimizing environmental impact.
在发电的世界里,效率和可靠性是至关重要的。为了满足这些需求,一项关键技术应运而生,那就是直接连接涡轮发电机。这种创新设备在将机械能转化为电能方面发挥着至关重要的作用,其设计相较于传统发电机系统具有多种优势。直接连接涡轮发电机是指涡轮和发电机直接耦合,没有中间齿轮箱。这种直接连接最小化了在齿轮系统中常见的能量损失,使其成为一种高效的发电选项。这种设计的简单性不仅提高了效率,还减少了维护需求,因为移动部件更少,磨损的可能性也相应降低。直接连接涡轮发电机的操作基于热力学原理。在典型的设置中,蒸汽或气体被用来驱动涡轮。当涡轮旋转时,它直接转动发电机转子,通过电磁感应产生电流。这个过程允许热能立即转化为电能,然后可以分配到电网或用于本地消费。使用直接连接涡轮发电机的一个显著好处是其能够以高速度运行。由于没有齿轮箱,这些系统可以达到更高的转速,这意味着更大的效率和输出。此外,这种设计使得安装更加紧凑,节省了发电设施中宝贵的空间。此外,直接连接涡轮发电机越来越多地应用于可再生能源领域。例如,在风能发电中,这些系统可以直接与风力涡轮机连接,提供了一种更简化和高效的方式将风能转化为电能。这一趋势不仅有助于减少碳排放,还有助于增强能源生产的整体可持续性。然而,像任何技术一样,直接连接涡轮发电机也存在自身的一系列挑战。主要问题之一与高速度运行时可能产生的热应力有关。工程师必须仔细设计这些系统,以确保它们能够承受操作条件,而不会影响安全性或性能。此外,这些系统的初始投资可能高于传统发电机,但长期的维护和运营成本节省往往能证明这笔费用是合理的。总之,直接连接涡轮发电机代表了发电技术的一项重大进步。其直接耦合设计提高了效率,减少了维护需求,并为可再生能源应用开辟了新的可能性。随着对可靠和可持续能源的需求不断增长,像直接连接涡轮发电机这样的技术将在塑造未来能源生产方面发挥重要作用。拥抱这样的创新对于满足全球能源需求,同时最小化环境影响至关重要。
