bleeder turbine

简明释义

抽气透平

英英释义

例句

1.By integrating a bleeder turbine, we can recover energy that would otherwise be lost.

通过整合泄压涡轮机，我们可以回收本来会浪费的能量。

2.The power plant utilizes a bleeder turbine to enhance efficiency during peak load periods.

发电厂利用泄压涡轮机在高峰负荷期间提高效率。

3.During maintenance, the engineers inspected the bleeder turbine for any signs of wear and tear.

在维护期间，工程师检查了泄压涡轮机是否有磨损迹象。

4.The new design of the bleeder turbine allows for better heat dissipation.

新设计的泄压涡轮机允许更好的热量散发。

5.In our research, we found that the bleeder turbine significantly reduces operational costs.

在我们的研究中，我们发现泄压涡轮机显著降低了运营成本。

作文

The concept of a bleeder turbine is essential in understanding the efficiency and functionality of modern power generation systems. A bleeder turbine refers to a specific type of steam turbine that is designed to extract steam from the turbine at various stages during its operation. This unique capability allows for the recovery of energy that would otherwise be lost, making it an integral component in many industrial applications. In this essay, I will explore the significance of bleeder turbines, their operational principles, and their impact on energy efficiency.First and foremost, the operational principle of a bleeder turbine revolves around its ability to bleed off steam. In a conventional steam turbine, steam enters at high pressure and temperature, expanding through various stages to produce mechanical work. However, in a bleeder turbine, the design allows for the extraction of steam at certain points. This extracted steam can then be utilized for heating purposes or as feedwater for boilers, thereby improving the overall thermal efficiency of the system.One of the primary advantages of employing a bleeder turbine is its contribution to energy conservation. By utilizing the extracted steam for other processes, industries can significantly reduce their reliance on additional fuel sources, leading to lower operational costs and reduced carbon emissions. For instance, in a combined heat and power (CHP) system, the steam bled from the turbine can be used for district heating, providing hot water or steam to residential and commercial buildings. This dual-use approach not only enhances the overall efficiency of the power plant but also promotes sustainable energy practices.Furthermore, bleeder turbines are particularly beneficial in applications where both electricity and thermal energy are required. Industries such as paper manufacturing, food processing, and chemical production often require large amounts of steam for their operations. By integrating a bleeder turbine into their energy systems, these industries can optimize their energy usage, ensuring that they meet their thermal and electrical needs without excessive energy waste.However, it is crucial to note that the implementation of a bleeder turbine requires careful consideration of several factors. The design and configuration of the turbine must align with the specific energy demands of the facility. Additionally, the quality of the steam being bled off must be monitored to prevent potential damage to downstream equipment. Proper maintenance and operational protocols are essential to ensure that the bleeder turbine functions efficiently and safely.In conclusion, the bleeder turbine represents a significant advancement in the field of energy generation and management. Its ability to extract steam at various stages not only enhances the efficiency of power plants but also supports sustainable industrial practices. As the world continues to seek ways to reduce energy consumption and minimize environmental impact, the role of bleeder turbines will undoubtedly become more prominent. By understanding and leveraging the capabilities of bleeder turbines, industries can pave the way for a more energy-efficient future, balancing economic growth with environmental responsibility.

“bleeder turbine”（泄压涡轮）这一概念对于理解现代发电系统的效率和功能至关重要。“bleeder turbine”指的是一种特定类型的蒸汽涡轮，旨在在运行过程中从涡轮的不同阶段抽取蒸汽。这种独特的能力使得能够回收本会被浪费的能量，因此在许多工业应用中成为不可或缺的组成部分。在这篇文章中，我将探讨“bleeder turbine”的重要性、其操作原理及其对能源效率的影响。首先，“bleeder turbine”的操作原理围绕其抽取蒸汽的能力展开。在传统的蒸汽涡轮中，蒸汽以高压和高温进入，通过各个阶段膨胀以产生机械功。然而，在“bleeder turbine”中，设计允许在某些点抽取蒸汽。被抽取的蒸汽可以用于加热目的或作为锅炉的给水，从而提高系统的整体热效率。采用“bleeder turbine”的主要优点之一是其对节能的贡献。通过利用抽取的蒸汽进行其他工艺，工业可以显著减少对额外燃料来源的依赖，从而降低运营成本并减少碳排放。例如，在联合热电（CHP）系统中，从涡轮抽取的蒸汽可以用于区域供热，为住宅和商业建筑提供热水或蒸汽。这种双重使用的方法不仅增强了发电厂的整体效率，而且促进了可持续能源实践。此外，“bleeder turbines”在需要电力和热能的应用中尤其有益。造纸、食品加工和化工等行业通常需要大量蒸汽用于其操作。通过将“bleeder turbine”集成到其能源系统中，这些行业可以优化其能源使用，确保满足其热能和电力需求，而不会造成过度的能源浪费。然而，必须注意的是，实施“bleeder turbine”需要仔细考虑几个因素。涡轮的设计和配置必须与设施的特定能源需求相一致。此外，抽取蒸汽的质量必须进行监控，以防止对下游设备造成潜在损害。适当的维护和操作规程对于确保“bleeder turbine”高效、安全地运行至关重要。总之，“bleeder turbine”代表了能源生成和管理领域的重要进展。其在不同阶段抽取蒸汽的能力不仅提高了发电厂的效率，还支持可持续的工业实践。随着世界不断寻求减少能源消耗和最小化环境影响的方法，“bleeder turbines”的作用无疑会变得更加突出。通过理解和利用“bleeder turbines”的能力，工业可以为更高效的能源未来铺平道路，实现经济增长与环境责任的平衡。