cross compound trubine

简明释义

并联复式汽轮机

英英释义

例句

1.Engineers are studying the performance of a new cross compound turbine 交叉复合涡轮 design for power plants.

工程师们正在研究一种新的<跨>交叉复合涡轮设计在发电厂中的性能。

2.We need to replace the old cross compound turbine 交叉复合涡轮 with a more efficient model.

我们需要用更高效的型号替换旧的交叉复合涡轮。

3.The efficiency of the cross compound turbine 交叉复合涡轮 has significantly improved in recent years.

近年来，交叉复合涡轮的效率显著提高。

4.The research team presented their findings on the cross compound turbine 交叉复合涡轮 at the conference.

研究小组在会议上展示了他们关于交叉复合涡轮的研究结果。

5.The cross compound turbine 交叉复合涡轮 is essential for maximizing energy output in modern turbines.

交叉复合涡轮对于现代涡轮机最大化能源输出至关重要。

作文

The concept of a cross compound turbine is essential in the field of thermodynamics and mechanical engineering. This type of turbine combines two different types of turbines into one system, allowing for increased efficiency and power generation. Typically, a cross compound turbine consists of a high-pressure turbine and a low-pressure turbine that are connected to a common shaft. This configuration enables the turbine to utilize steam or gas at different pressures, maximizing energy extraction from the working fluid.In modern power plants, the implementation of a cross compound turbine can significantly enhance performance. For instance, in a steam power plant, the high-pressure turbine extracts energy from steam produced in a boiler, while the low-pressure turbine continues to extract energy from the steam after it has passed through the high-pressure stage. This sequential extraction process not only improves the overall thermal efficiency of the plant but also reduces fuel consumption and emissions.One of the key advantages of a cross compound turbine is its ability to operate efficiently across a wide range of load conditions. Unlike single-stage turbines, which may struggle to maintain efficiency at partial loads, a cross compound turbine can adjust more effectively to varying operational demands. This flexibility makes it particularly suitable for applications where load conditions fluctuate frequently, such as in renewable energy systems or peaking power plants.Moreover, the design of a cross compound turbine allows for better thermal management. By separating the high-pressure and low-pressure stages, engineers can optimize cooling and heating processes within the turbine system. This results in improved reliability and longevity of the turbine components, as well as reduced maintenance costs over time.The versatility of a cross compound turbine extends beyond traditional power generation. In the industrial sector, these turbines are used in various applications, including mechanical drives and process heat generation. Their ability to integrate with other systems makes them an attractive option for industries aiming to enhance energy efficiency and reduce operational costs.In conclusion, the cross compound turbine represents a significant advancement in turbine technology. Its unique design and operational capabilities provide numerous benefits, including improved efficiency, adaptability to varying loads, and enhanced thermal management. As the demand for cleaner and more efficient energy solutions continues to grow, the cross compound turbine is likely to play an increasingly important role in the future of energy production. Understanding this technology is crucial for engineers and professionals in the energy sector, as it offers innovative solutions to meet the challenges of modern energy demands.

“交叉复合涡轮”的概念在热力学和机械工程领域至关重要。这种类型的涡轮将两种不同类型的涡轮组合成一个系统，从而提高效率和发电能力。通常，交叉复合涡轮由高压涡轮和低压涡轮组成，它们连接到一个公共轴上。这种配置使得涡轮能够利用不同压力下的蒸汽或气体，最大限度地提取工作流体中的能量。在现代发电厂中，实施交叉复合涡轮可以显著提高性能。例如，在蒸汽发电厂中，高压涡轮从锅炉中产生的蒸汽中提取能量，而低压涡轮则继续从经过高压阶段的蒸汽中提取能量。这种顺序提取过程不仅提高了发电厂的整体热效率，还减少了燃料消耗和排放。交叉复合涡轮的一个主要优点是它能够在广泛的负载条件下高效运行。与单级涡轮不同，后者在部分负载下可能难以维持效率，交叉复合涡轮能够更有效地适应变化的操作需求。这种灵活性使其特别适合于负载条件频繁波动的应用，如可再生能源系统或峰值发电厂。此外，交叉复合涡轮的设计允许更好的热管理。通过分离高压和低压阶段，工程师可以优化涡轮系统内的冷却和加热过程。这导致涡轮组件的可靠性和使用寿命提高，同时也降低了长期维护成本。交叉复合涡轮的多功能性超出了传统发电的范围。在工业领域，这些涡轮被用于各种应用，包括机械驱动和工艺热生成。它们与其他系统的集成能力使其成为希望提高能源效率和降低运营成本的行业的吸引选项。总之，交叉复合涡轮代表了涡轮技术的重要进步。其独特的设计和操作能力提供了许多好处，包括提高效率、适应变化负载的能力以及增强的热管理。随着对更清洁、更高效能源解决方案的需求不断增长，交叉复合涡轮在未来能源生产中的作用可能会越来越重要。理解这项技术对能源领域的工程师和专业人士至关重要，因为它为应对现代能源需求的挑战提供了创新解决方案。