combined steam and gas turbine installation

简明释义

蒸汽轮机和燃气轮机联合装置

英英释义

例句

1.The combined steam and gas turbine installation is designed to reduce emissions while maximizing power generation.

该联合蒸汽和燃气轮机装置旨在减少排放，同时最大化发电量。

2.The new power plant features a state-of-the-art combined steam and gas turbine installation, which improves efficiency significantly.

这座新电厂配备了最先进的联合蒸汽和燃气轮机装置，显著提高了效率。

3.Engineers are evaluating the performance of the combined steam and gas turbine installation to optimize energy output.

工程师们正在评估联合蒸汽和燃气轮机装置的性能，以优化能源输出。

4.Our company specializes in the maintenance of combined steam and gas turbine installations across various industries.

我们公司专注于各行业联合蒸汽和燃气轮机装置的维护。

5.The efficiency of the combined steam and gas turbine installation can be enhanced by implementing advanced control systems.

通过实施先进的控制系统，可以提高联合蒸汽和燃气轮机装置的效率。

作文

In the modern world, energy production is a critical issue that affects every aspect of our lives. Among the various methods of generating electricity, the combined steam and gas turbine installation has emerged as a highly efficient and environmentally friendly solution. This technology combines the benefits of both steam and gas turbines to maximize energy output while minimizing waste. Understanding the mechanics and advantages of this system is essential for anyone interested in sustainable energy practices.A combined steam and gas turbine installation operates on the principle of combined cycle power generation. In this system, natural gas is burned in a gas turbine to produce electricity. The high-temperature exhaust gases from the gas turbine are then used to heat water in a heat recovery steam generator (HRSG), which produces steam. This steam is subsequently directed to a steam turbine, where it generates additional electricity. By using both gas and steam turbines, this method significantly increases the overall efficiency of the power plant, often exceeding 60%.One of the primary advantages of a combined steam and gas turbine installation is its ability to utilize waste heat effectively. Traditional power plants typically lose a significant amount of energy in the form of heat during the electricity generation process. However, with the combined cycle approach, much of this waste heat is captured and repurposed for steam production. This not only improves efficiency but also reduces greenhouse gas emissions, contributing to a cleaner environment.Moreover, the flexibility of a combined steam and gas turbine installation makes it an attractive option for energy producers. These systems can be designed to operate at varying loads, allowing them to meet fluctuating energy demands. This adaptability is particularly important in today’s energy landscape, where the integration of renewable sources like solar and wind requires complementary backup systems to ensure a reliable power supply.Economically, investing in a combined steam and gas turbine installation can lead to significant cost savings over time. Although the initial capital investment may be higher compared to traditional plants, the operational efficiencies gained through this technology can result in lower fuel costs and reduced maintenance expenses. Additionally, as global energy markets continue to evolve, the demand for cleaner energy sources will likely drive further investments in such innovative technologies.In conclusion, the combined steam and gas turbine installation represents a remarkable advancement in energy production. By harnessing the strengths of both steam and gas turbines, this technology offers a pathway towards more efficient and sustainable electricity generation. As we face the challenges of climate change and the need for cleaner energy solutions, understanding and implementing systems like the combined steam and gas turbine installation will be crucial for a greener future. Transitioning to such technologies not only benefits the environment but also supports economic growth by creating jobs and fostering innovation in the energy sector.

在现代世界中，能源生产是一个影响我们生活各个方面的关键问题。在各种发电方法中，联合蒸汽和燃气轮机装置作为一种高效且环保的解决方案逐渐崭露头角。这项技术结合了蒸汽和燃气轮机的优点，以最大化能量输出，同时最小化废物。理解这个系统的机制和优势对于任何对可持续能源实践感兴趣的人来说都是至关重要的。联合蒸汽和燃气轮机装置基于联合循环发电的原理。在这个系统中，天然气在燃气轮机中燃烧以产生电力。燃气轮机排放的高温废气随后用于加热热回收蒸汽发生器（HRSG）中的水，从而产生蒸汽。然后，这些蒸汽被引导到蒸汽轮机中，进一步生成电力。通过同时使用燃气和蒸汽轮机，这种方法显著提高了发电厂的整体效率，通常超过60%。联合蒸汽和燃气轮机装置的主要优势之一是其有效利用废热的能力。传统发电厂在发电过程中通常会以废热的形式损失大量能量。然而，通过联合循环的方法，许多废热被捕获并重新利用于蒸汽生产。这不仅提高了效率，还减少了温室气体排放，有助于创造一个更清洁的环境。此外，联合蒸汽和燃气轮机装置的灵活性使其成为能源生产者的一个有吸引力的选择。这些系统可以设计为在不同负载下运行，使其能够满足波动的能源需求。这种适应性在当今的能源格局中尤为重要，因为可再生能源如太阳能和风能的整合需要互补的备用系统，以确保可靠的电力供应。在经济上，投资于联合蒸汽和燃气轮机装置可以随着时间的推移带来显著的成本节约。尽管初始资本投资可能高于传统发电厂，但通过这项技术获得的操作效率可以降低燃料成本和维护费用。此外，随着全球能源市场的不断演变，对清洁能源的需求可能会推动对这种创新技术的进一步投资。总之，联合蒸汽和燃气轮机装置代表了能源生产的显著进步。通过利用蒸汽和燃气轮机的优势，这项技术为更高效和可持续的电力生成提供了一条途径。当我们面临气候变化和对清洁能源解决方案的需求时，理解和实施像联合蒸汽和燃气轮机装置这样的系统对于实现更绿色的未来至关重要。过渡到这些技术不仅有利于环境，而且通过创造就业机会和促进能源领域的创新来支持经济增长。