condensing turbine

简明释义

冷凝式透平

英英释义

例句

1.By improving the design of the condensing turbine, we can increase the overall output of the facility.

通过改进凝汽轮机的设计，我们可以提高设施的整体产出。

2.During maintenance, the engineers inspected the condensing turbine for any signs of wear and tear.

在维护期间，工程师检查了凝汽轮机是否有任何磨损迹象。

3.The power plant utilizes a condensing turbine to maximize efficiency by converting steam back into water.

这座发电厂利用凝汽轮机通过将蒸汽转化为水来最大化效率。

4.The condensing turbine is essential for reducing emissions in thermal power plants.

凝汽轮机对于减少热电厂的排放至关重要。

5.A high-efficiency condensing turbine can significantly lower operational costs.

高效的凝汽轮机可以显著降低运营成本。

作文

The concept of a condensing turbine is fundamental in the field of thermodynamics and energy generation. A condensing turbine is a type of steam turbine that operates on the principle of converting thermal energy into mechanical energy, which can then be transformed into electrical energy. This process is essential for power plants that aim to maximize efficiency and output. In a typical power generation cycle, water is heated in a boiler to produce steam. This steam is then directed towards the blades of the condensing turbine, causing it to rotate. As the steam passes through the turbine, it expands and loses pressure, which results in a drop in temperature. This expansion is what drives the turbine's rotor, enabling it to generate electricity. One of the critical features of a condensing turbine is its ability to condense the steam back into water after it has passed through the turbine. This is achieved in a component known as a condenser. The condenser cools the steam, allowing it to turn back into liquid water, which is then pumped back into the boiler to repeat the cycle. This closed-loop system is vital for maintaining efficiency and conserving water resources. The efficiency of a condensing turbine is significantly higher than that of other types of turbines, mainly because it operates at lower pressure and temperature conditions. This allows for more complete extraction of energy from the steam. Additionally, the use of a condenser helps in recovering heat that would otherwise be wasted, further enhancing the overall efficiency of the power plant. Moreover, condensing turbines are widely used in combined cycle power plants, where they work in conjunction with gas turbines. In these systems, the hot exhaust gases from the gas turbine are used to heat water, producing steam that is then directed to the condensing turbine. This integration of technologies allows for even greater efficiency and reduced emissions, making it an attractive option for modern energy production. In conclusion, the condensing turbine plays a crucial role in the generation of electricity, particularly in large-scale power plants. Its design and operation not only enhance efficiency but also contribute to sustainable energy practices by minimizing waste. Understanding the mechanics and benefits of a condensing turbine is essential for anyone interested in the field of energy production and engineering. As we continue to seek ways to improve energy efficiency and reduce environmental impacts, the condensing turbine will undoubtedly remain a key component in the evolution of power generation technologies.

“凝结涡轮机”的概念在热力学和能源生成领域中是基础的。“凝结涡轮机”是一种蒸汽涡轮，基于将热能转换为机械能的原理，该机械能可以转化为电能。这一过程对旨在最大化效率和输出的发电厂至关重要。在典型的发电循环中，水在锅炉中被加热以产生蒸汽。这些蒸汽随后被引导到“凝结涡轮机”的叶片上，导致其旋转。当蒸汽通过涡轮时，它膨胀并失去压力，从而导致温度下降。这种膨胀是驱动涡轮转子的原因，使其能够发电。“凝结涡轮机”的一个关键特性是它能够在蒸汽通过涡轮后将其冷凝回水。这是通过一个称为冷凝器的组件实现的。冷凝器冷却蒸汽，使其转变为液态水，然后泵送回锅炉以重复循环。这个闭环系统对于维持效率和节约水资源至关重要。“凝结涡轮机”的效率显著高于其他类型的涡轮，主要是因为它在较低的压力和温度条件下运行。这允许从蒸汽中更完全地提取能量。此外，使用冷凝器有助于回收本来会浪费的热量，进一步提高发电厂的整体效率。此外，“凝结涡轮机”广泛应用于联合循环发电厂，在这些系统中，它们与燃气涡轮一起工作。在这些系统中，燃气涡轮的热废气用于加热水，产生蒸汽，然后引导至“凝结涡轮机”。这种技术的集成使得效率更高，排放减少，使其成为现代能源生产的一个有吸引力的选择。总之，“凝结涡轮机”在电力生成中发挥着至关重要的作用，特别是在大型发电厂中。它的设计和运行不仅提高了效率，还通过最小化浪费来促进可持续能源实践。理解“凝结涡轮机”的机制和好处对任何有兴趣于能源生产和工程领域的人来说都是必不可少的。随着我们继续寻求提高能源效率和减少环境影响的方法，“凝结涡轮机”无疑将在发电技术的演变中保持关键组成部分。