combined steam and gas turbine electric

简明释义

蒸汽轮和燃气轮机电力推进联合

英英释义

例句

1.The efficiency of the combined steam and gas turbine electric cycle is unmatched in the industry.

在行业中，联合蒸汽和燃气轮机电力循环的效率是无与伦比的。

2.The new power plant utilizes a combined steam and gas turbine electric system for higher efficiency.

新发电厂采用了联合蒸汽和燃气轮机电力系统以提高效率。

3.By implementing combined steam and gas turbine electric technology, we can reduce emissions significantly.

通过实施联合蒸汽和燃气轮机电力技术，我们可以显著减少排放。

4.Investing in combined steam and gas turbine electric systems can lead to long-term savings.

投资于联合蒸汽和燃气轮机电力系统可以带来长期节省。

5.Our latest project features a combined steam and gas turbine electric setup to maximize output.

我们最新的项目采用了联合蒸汽和燃气轮机电力配置，以最大化产出。

作文

In the quest for sustainable and efficient energy production, the concept of combined steam and gas turbine electric systems has emerged as a significant advancement in power generation technology. This innovative approach combines two types of turbines: gas turbines and steam turbines, to maximize energy output and minimize waste. By understanding how these systems work, we can appreciate their role in modern energy solutions and their potential for future developments.The combined steam and gas turbine electric system operates on the principle of utilizing the waste heat generated by a gas turbine to produce steam, which then drives a steam turbine. In simpler terms, the gas turbine burns fuel to create hot gases that spin the turbine blades, generating electricity. However, this process also produces excess heat that would typically be lost in conventional power generation methods. Instead of allowing this heat to escape into the atmosphere, a combined steam and gas turbine electric system captures it and uses it to convert water into steam.This steam is then directed to a steam turbine, where it expands and spins the turbine blades, generating additional electricity. The result is a highly efficient power generation cycle that can achieve efficiencies of over 60%, significantly higher than traditional single-cycle power plants. The ability to harness waste heat not only improves efficiency but also reduces greenhouse gas emissions, making these systems more environmentally friendly.Furthermore, the implementation of combined steam and gas turbine electric technology can lead to lower operational costs. While the initial investment in such systems may be higher than traditional power generation methods, the long-term savings from improved fuel efficiency and reduced emissions can offset these costs. Additionally, as global energy demands continue to rise, the need for efficient and reliable power sources becomes increasingly critical. The adaptability of combined steam and gas turbine electric systems allows them to be integrated into various energy infrastructures, including renewable energy sources like biomass or solar thermal energy.The versatility of combined steam and gas turbine electric systems extends beyond their operational efficiency. They can be designed to run on a variety of fuels, including natural gas, coal, and even hydrogen, providing flexibility in fuel choice and helping to mitigate the impacts of fluctuating fuel prices. As the world shifts towards cleaner energy sources, the ability to transition between different fuels without significant modifications makes these systems particularly attractive.In conclusion, the combined steam and gas turbine electric technology represents a crucial step forward in the evolution of power generation. By integrating gas and steam turbines, this innovative system enhances efficiency, reduces emissions, and offers greater operational flexibility. As we move towards a more sustainable energy future, understanding and investing in technologies like combined steam and gas turbine electric will be essential in meeting the growing demand for clean and reliable energy. The potential for further advancements in this field promises a brighter, more efficient energy landscape for generations to come.

在追求可持续和高效能源生产的过程中，联合蒸汽和燃气轮机电力系统的概念作为发电技术的重要进步而出现。这种创新的方法结合了两种类型的涡轮机：燃气涡轮和蒸汽涡轮，以最大化能量输出并最小化浪费。通过理解这些系统的工作原理，我们可以欣赏它们在现代能源解决方案中的作用及其未来发展的潜力。联合蒸汽和燃气轮机电力系统的工作原理是利用燃气涡轮产生的废热来产生蒸汽，从而驱动蒸汽涡轮。简单来说，燃气涡轮燃烧燃料以产生热气体，这些气体旋转涡轮叶片，产生电力。然而，这个过程还会产生多余的热量，通常在传统发电方法中会被浪费。相反，在联合蒸汽和燃气轮机电力系统中，这种热量被捕获并用于将水转化为蒸汽。然后，这些蒸汽被导向蒸汽涡轮，在那里它膨胀并旋转涡轮叶片，产生额外的电力。结果是一个高效的发电循环，可以实现超过60%的效率，显著高于传统的单循环发电厂。利用废热不仅提高了效率，还减少了温室气体排放，使这些系统更具环保性。此外，实施联合蒸汽和燃气轮机电力技术可以降低运营成本。虽然此类系统的初始投资可能高于传统发电方法，但由于燃料效率提高和排放减少，长期节省可以抵消这些成本。此外，随着全球能源需求的不断上升，对高效可靠电源的需求变得越来越重要。联合蒸汽和燃气轮机电力系统的适应性使其能够融入各种能源基础设施，包括生物质或太阳能热能等可再生能源。联合蒸汽和燃气轮机电力系统的多功能性不仅限于其操作效率。它们可以设计为使用多种燃料，包括天然气、煤甚至氢气，提供燃料选择的灵活性，并有助于缓解燃料价格波动的影响。随着世界向更清洁的能源来源转变，能够在不同燃料之间无重大修改地过渡，使这些系统特别具有吸引力。总之，联合蒸汽和燃气轮机电力技术代表了发电演变的关键一步。通过整合燃气和蒸汽涡轮，这一创新系统提高了效率，减少了排放，并提供了更大的操作灵活性。随着我们朝着更可持续的能源未来迈进，理解和投资于像联合蒸汽和燃气轮机电力这样的技术，对于满足对清洁和可靠能源日益增长的需求至关重要。该领域进一步发展的潜力为未来几代人提供了更加光明、更高效的能源格局。