recuperative gas turbine

简明释义

间壁回热式燃气轮机

英英释义

例句

1.A recuperative gas turbine 恢复式燃气涡轮 system can recover waste heat and convert it into useful energy.

恢复式燃气涡轮系统可以回收废热并将其转化为有用的能量。

2.Industries are increasingly adopting recuperative gas turbines 恢复式燃气涡轮 to enhance their energy efficiency.

工业界越来越多地采用恢复式燃气涡轮以提高其能源效率。

3.The efficiency of the recuperative gas turbine 恢复式燃气涡轮 can significantly reduce fuel consumption in power plants.

恢复式燃气涡轮的效率可以显著降低发电厂的燃料消耗。

4.Investing in a recuperative gas turbine 恢复式燃气涡轮 can lead to long-term savings in operational costs.

投资恢复式燃气涡轮可以在运营成本上实现长期节省。

5.The design of a recuperative gas turbine 恢复式燃气涡轮 includes advanced materials for better heat resistance.

恢复式燃气涡轮的设计包括用于更好耐热性的先进材料。

作文

The development of efficient energy systems has become a crucial aspect of modern engineering, especially in the context of rising energy demands and environmental concerns. One notable innovation in this field is the recuperative gas turbine, which plays a significant role in improving the efficiency of gas turbines. The recuperative gas turbine utilizes a heat exchanger to recover waste heat from the exhaust gases and use it to preheat the incoming air before combustion. This process not only enhances the overall efficiency of the turbine but also reduces fuel consumption and emissions, making it an environmentally friendly option compared to traditional gas turbines.In a typical gas turbine system, air is compressed and mixed with fuel before being ignited in the combustion chamber. The high-temperature gases produced then expand through the turbine blades, generating mechanical power. However, a significant amount of energy is lost in the form of heat through the exhaust. The recuperative gas turbine addresses this issue by incorporating a recuperator—a type of heat exchanger that captures some of this waste heat and transfers it to the incoming air. By preheating the air, the recuperative gas turbine requires less fuel for combustion, thereby increasing its thermal efficiency.The benefits of using a recuperative gas turbine are manifold. Firstly, it leads to a reduction in operational costs due to lower fuel requirements. In industries where energy costs constitute a significant portion of operational expenses, implementing a recuperative gas turbine can result in substantial savings. Secondly, the decreased fuel consumption directly correlates with reduced greenhouse gas emissions, contributing to a cleaner environment. This aligns with global efforts to combat climate change and promote sustainable energy practices.Moreover, the recuperative gas turbine technology is versatile and can be integrated into various applications, including power generation, industrial processes, and even in combined heat and power (CHP) systems. Its adaptability makes it an attractive option for businesses looking to enhance their energy efficiency while minimizing their carbon footprint.However, like any technology, the recuperative gas turbine comes with its challenges. The design and manufacturing of recuperators can increase the initial capital investment required for such systems. Additionally, the maintenance of these components is critical to ensure optimal performance over time. Regular inspections and cleaning are necessary to prevent fouling and ensure that the heat exchange process remains efficient.In conclusion, the recuperative gas turbine represents a significant advancement in gas turbine technology, offering improved efficiency and environmental benefits. As the world continues to seek innovative solutions to meet energy demands sustainably, the adoption of recuperative gas turbines may play a pivotal role in shaping the future of energy generation. By harnessing waste heat and converting it into usable energy, this technology not only enhances operational efficiency but also contributes to a more sustainable energy landscape. The ongoing research and development in this area will likely lead to further enhancements and wider applications, solidifying the recuperative gas turbine as a cornerstone of modern energy systems.

高效能源系统的发展已成为现代工程的关键方面，尤其是在能源需求上升和环境问题日益严重的背景下。一个显著的创新是回收式燃气轮机，它在提高燃气轮机效率方面发挥着重要作用。回收式燃气轮机利用热交换器回收废气中的废热，并将其用于在燃烧前预热进入的空气。这一过程不仅提高了涡轮机的整体效率，还减少了燃料消耗和排放，使其成为比传统燃气轮机更环保的选择。在典型的燃气轮机系统中，空气被压缩并与燃料混合，然后在燃烧室中点燃。产生的高温气体随后通过涡轮叶片膨胀，产生机械功。然而，大量能量以热的形式通过排气损失。回收式燃气轮机通过结合一个回收器——一种捕获这些废热并将其转移到进入空气中的热交换器——来解决这个问题。通过预热空气，回收式燃气轮机在燃烧时需要更少的燃料，从而提高了热效率。使用回收式燃气轮机的好处是多方面的。首先，由于燃料需求降低，运营成本减少。在能源成本占运营费用重要部分的行业中，实施回收式燃气轮机可以带来可观的节省。其次，减少的燃料消耗直接与减少温室气体排放相关，有助于创造更清洁的环境。这与全球应对气候变化和促进可持续能源实践的努力一致。此外，回收式燃气轮机技术具有多功能性，可以集成到各种应用中，包括发电、工业过程，甚至是联合供热和电力（CHP）系统。其适应性使其成为希望提高能源效率同时最小化碳足迹的企业的有吸引力的选择。然而，像任何技术一样，回收式燃气轮机也面临挑战。回收器的设计和制造可能会增加这种系统所需的初始资本投资。此外，这些组件的维护对于确保长期最佳性能至关重要。定期检查和清洁是必要的，以防止污垢积聚并确保热交换过程保持高效。总之，回收式燃气轮机代表了燃气轮机技术的重要进步，提供了效率和环境效益的提升。随着世界继续寻求创新解决方案以可持续地满足能源需求，采用回收式燃气轮机可能在塑造未来能源生产中发挥关键作用。通过利用废热并将其转化为可用能源，这项技术不仅提高了运营效率，还有助于创造更可持续的能源格局。该领域的持续研究和开发可能会导致进一步的改进和更广泛的应用，巩固回收式燃气轮机作为现代能源系统的基石。