boiler power

简明释义

锅炉性能

英英释义

例句

1.The efficiency of the system is largely determined by the boiler power (锅炉功率) output.

系统的效率在很大程度上取决于锅炉功率输出。

2.The technician adjusted the boiler power (锅炉功率) settings to improve efficiency.

技术员调整了锅炉功率设置以提高效率。

3.We need to calculate the boiler power (锅炉功率) required for this new facility.

我们需要计算这个新设施所需的锅炉功率。

4.Monitoring the boiler power (锅炉功率) is crucial for maintaining safety standards.

监测锅炉功率对于维持安全标准至关重要。

5.Increasing the boiler power (锅炉功率) can help meet higher steam demands.

增加锅炉功率可以帮助满足更高的蒸汽需求。

作文

In the realm of industrial processes, understanding the concept of boiler power is essential for efficiency and productivity. A boiler is a closed vessel in which water or other fluids are heated to generate steam or vapor. This steam is then utilized for various applications such as heating, power generation, and even in some manufacturing processes. The term boiler power refers to the capacity of a boiler to produce steam at a certain rate, measured in horsepower or megawatts. This capacity is crucial because it determines how much energy can be supplied to a system at any given time.One of the key factors that influence boiler power is the design and construction of the boiler itself. Different types of boilers, such as fire-tube and water-tube boilers, have distinct operational characteristics that affect their power output. Fire-tube boilers, for instance, have hot gases passing through tubes surrounded by water, while water-tube boilers have water flowing through tubes heated by combustion gases. Each type has its advantages and disadvantages in terms of efficiency, response time, and maintenance needs.Moreover, the fuel used to operate the boiler significantly impacts its boiler power. Common fuels include natural gas, oil, coal, and biomass. The choice of fuel affects not only the power output but also the emissions produced during combustion. For example, natural gas is often favored for its high efficiency and lower environmental impact compared to coal. Modern advancements in technology have led to the development of more efficient and cleaner-burning fuels, enhancing the boiler power while minimizing negative environmental effects.The operational efficiency of a boiler is another critical aspect related to boiler power. Factors such as the quality of the feedwater, the design of the heat exchangers, and the control systems in place play a significant role in determining how effectively a boiler converts fuel into usable energy. Regular maintenance and monitoring are essential to ensure that a boiler operates at peak performance, maximizing its boiler power and minimizing downtime.In industries where large amounts of steam are required, such as in chemical processing or power generation, understanding and optimizing boiler power becomes even more crucial. A well-designed and maintained boiler system can lead to significant cost savings and increased productivity. Additionally, the ability to adjust the boiler power output based on demand allows for better energy management and resource allocation.In conclusion, boiler power is a fundamental concept in industrial applications that directly affects efficiency and productivity. By understanding the factors that influence boiler power, including boiler design, fuel type, and operational efficiency, industries can optimize their processes and achieve better outcomes. As we move towards a more energy-conscious future, focusing on improving boiler power will play a vital role in achieving sustainability and reducing our carbon footprint.

在工业过程中，理解“boiler power”的概念对于效率和生产力至关重要。锅炉是一个封闭的容器，在其中水或其他流体被加热以产生蒸汽或蒸气。这些蒸汽随后用于各种应用，如供热、发电，甚至在某些制造过程中。“boiler power”一词指的是锅炉在一定速率下产生蒸汽的能力，以马力或兆瓦为单位进行测量。这种能力至关重要，因为它决定了在任何给定时间可以向系统提供多少能量。影响“boiler power”的关键因素之一是锅炉本身的设计和构造。不同类型的锅炉，如火管锅炉和水管锅炉，具有不同的操作特性，影响其功率输出。例如，火管锅炉是通过水周围的管道传递热气，而水管锅炉则是通过加热燃烧气体的管道流动水。每种类型在效率、反应时间和维护需求方面都有其优缺点。此外，用于操作锅炉的燃料对其“boiler power”有显著影响。常见的燃料包括天然气、石油、煤炭和生物质。燃料的选择不仅影响功率输出，还影响燃烧过程中产生的排放。例如，天然气因其高效和较低的环境影响而受到青睐，相较于煤炭，现代技术的进步导致开发出更高效、更清洁的燃料，增强了“boiler power”同时最小化负面环境影响。锅炉的操作效率是与“boiler power”相关的另一个关键方面。给水的质量、换热器的设计以及控制系统等因素在确定锅炉将燃料转化为可用能量的有效性方面发挥着重要作用。定期维护和监测对于确保锅炉以最佳性能运行至关重要，从而最大化其“boiler power”并最小化停机时间。在需要大量蒸汽的行业中，如化工加工或发电，理解和优化“boiler power”变得更加重要。设计良好且维护得当的锅炉系统可以带来显著的成本节约和生产力提高。此外，根据需求调整“boiler power”输出的能力可以实现更好的能源管理和资源分配。总之，“boiler power”是工业应用中的一个基本概念，直接影响效率和生产力。通过理解影响“boiler power”的因素，包括锅炉设计、燃料类型和操作效率，行业可以优化其流程并实现更好的结果。随着我们朝着更节能的未来迈进，关注改善“boiler power”将在实现可持续发展和减少碳足迹方面发挥重要作用。