extraction condensing turbine

简明释义

抽汽式凝汽汽轮机

英英释义

例句

1.During maintenance, the engineers checked the performance of the extraction condensing turbine to ensure optimal operation.

在维护期间，工程师检查了抽气凝汽轮机的性能以确保最佳运行。

2.An extraction condensing turbine is often used in combined heat and power systems for its versatility.

抽气凝汽轮机通常用于联合热电系统，因其多功能性。

3.The power plant uses an extraction condensing turbine to maximize efficiency during peak load times.

该发电厂使用抽气凝汽轮机在高峰负荷期间最大化效率。

4.By integrating an extraction condensing turbine, we can utilize the extracted steam for district heating.

通过整合抽气凝汽轮机，我们可以利用提取的蒸汽进行区域供热。

5.The design of the extraction condensing turbine allows for better thermal efficiency compared to traditional turbines.

与传统涡轮相比，抽气凝汽轮机的设计允许更好的热效率。

作文

The concept of an extraction condensing turbine is pivotal in the field of thermodynamics and energy generation. This type of turbine plays a crucial role in the efficient conversion of thermal energy into mechanical energy, which can then be transformed into electrical energy. An extraction condensing turbine (抽取凝汽轮机) operates by allowing a portion of the steam generated in the boiler to be extracted at various stages of the turbine for use in heating applications or process steam. This feature sets it apart from traditional condensing turbines that typically exhaust all steam to a condenser after passing through the turbine stages.One of the primary advantages of using an extraction condensing turbine is its ability to provide both power generation and process heat simultaneously. In industrial applications, this dual functionality can lead to significant energy savings and increased overall efficiency. For instance, in a cogeneration system, the steam extracted from the turbine can be used for heating buildings or in manufacturing processes, while the remaining steam continues to drive the turbine to generate electricity.Furthermore, the design of an extraction condensing turbine allows for flexibility in operation. Operators can adjust the extraction points based on the current demand for steam, thus optimizing performance according to varying load conditions. This adaptability is particularly beneficial in industries with fluctuating energy needs, as it ensures that resources are utilized efficiently.In addition to operational flexibility, another important aspect of the extraction condensing turbine is its impact on environmental sustainability. By maximizing energy recovery and minimizing waste, these turbines contribute to reducing greenhouse gas emissions. The ability to use the extracted steam for heating purposes means that less fuel is required to meet thermal energy needs, which translates into lower carbon footprints for industrial operations.However, it is essential to consider the challenges associated with the implementation of an extraction condensing turbine. The initial investment costs can be higher compared to conventional turbines due to the complexity of the design and the additional components required for steam extraction. Moreover, maintenance and operational expertise are critical to ensure that the turbine functions optimally over its lifespan. Therefore, organizations must weigh the long-term benefits against the upfront costs and operational requirements when deciding to invest in such technology.In conclusion, the extraction condensing turbine (抽取凝汽轮机) represents a significant advancement in energy technology, offering combined benefits of power generation and process heating. Its ability to enhance efficiency, reduce environmental impact, and provide operational flexibility makes it a valuable asset in modern energy systems. As industries continue to seek ways to improve sustainability and reduce costs, the adoption of extraction condensing turbines is likely to grow, paving the way for a more energy-efficient future.

抽取凝汽轮机的概念在热力学和能源生成领域中至关重要。这种类型的涡轮机在将热能有效转换为机械能方面发挥着关键作用，而机械能随后可以转化为电能。抽取凝汽轮机（extraction condensing turbine）通过允许锅炉中产生的一部分蒸汽在涡轮机的不同阶段被提取用于供热应用或工艺蒸汽，从而运行。这一特点使其与传统的凝汽涡轮机有所区别，后者通常在经过涡轮机阶段后将所有蒸汽排放到冷凝器中。使用抽取凝汽轮机的主要优势之一是能够同时提供发电和工艺热。在工业应用中，这种双重功能可以带来显著的节能效果并提高整体效率。例如，在热电联产系统中，从涡轮机提取的蒸汽可用于加热建筑物或制造过程，而剩余的蒸汽继续驱动涡轮机发电。此外，抽取凝汽轮机的设计允许操作灵活性。操作人员可以根据当前蒸汽需求调整提取点，从而根据不同的负载条件优化性能。这种适应能力在需求波动的行业中尤其有益，因为它确保了资源的高效利用。除了操作灵活性外，抽取凝汽轮机的另一个重要方面是其对环境可持续性的影响。通过最大化能量回收和最小化浪费，这些涡轮机有助于减少温室气体排放。提取的蒸汽用于供热意味着满足热能需求所需的燃料更少，从而降低工业运营的碳足迹。然而，在实施抽取凝汽轮机时必须考虑相关挑战。由于设计复杂以及蒸汽提取所需的附加组件，初始投资成本可能高于传统涡轮机。此外，维护和操作专业知识对于确保涡轮机在其生命周期内的最佳运行至关重要。因此，组织在决定投资此类技术时，必须权衡长期利益与前期成本及操作要求。总之，抽取凝汽轮机（extraction condensing turbine）代表了能源技术的重大进步，提供了发电和工艺加热的综合效益。其提高效率、减少环境影响和提供操作灵活性的能力，使其成为现代能源系统中的宝贵资产。随着工业不断寻求改善可持续性和降低成本，抽取凝汽轮机的采用可能会增加，为更加节能的未来铺平道路。