heating-surface area

简明释义

加热面积

英英释义

例句

1.The heating-surface area of a furnace directly impacts its performance and fuel consumption.

炉子的加热表面积直接影响其性能和燃料消耗。

2.When designing a heat exchanger, it's crucial to calculate the optimal heating-surface area to ensure effective heat transfer.

在设计热交换器时，计算最佳的加热表面积以确保有效的热交换至关重要。

3.Increasing the heating-surface area in a steam generator can lead to improved thermal efficiency.

增加蒸汽发生器中的加热表面积可以提高热效率。

4.The efficiency of a boiler is largely determined by its heating-surface area, which refers to the total area available for heat transfer.

锅炉的效率在很大程度上取决于其加热表面积，即可用于热交换的总面积。

5.To maximize energy efficiency, engineers often increase the heating-surface area in industrial applications.

为了最大化能源效率，工程师们通常会在工业应用中增加加热表面积。

作文

The concept of the heating-surface area is crucial in various engineering applications, particularly in the design and efficiency of heat exchangers, boilers, and other thermal systems. Understanding this term allows engineers to optimize energy transfer processes, ensuring that systems operate at their highest potential. The heating-surface area refers to the total surface area available for heat transfer between two fluids, typically one being heated and the other being cooled. This area plays a significant role in determining how effectively heat can be exchanged, which directly impacts the efficiency of the system.In the context of boilers, for example, the heating-surface area is vital for generating steam. A larger heating-surface area means more contact between the hot gases and the water, leading to faster steam production. Conversely, if the heating-surface area is too small, the boiler may struggle to produce steam efficiently, resulting in increased fuel consumption and operational costs. Therefore, engineers must carefully calculate the optimal size of the heating-surface area to ensure that the boiler meets the required steam output without wasting energy.Similarly, in heat exchangers, the heating-surface area is critical for transferring heat between two fluids without mixing them. The efficiency of heat exchangers is heavily reliant on the size and design of the heating-surface area. For instance, in a shell-and-tube heat exchanger, the arrangement and number of tubes will determine the overall heating-surface area. A well-designed heat exchanger with an adequate heating-surface area will maximize heat transfer and minimize energy losses, thus enhancing the overall performance of the system.Moreover, the heating-surface area is not only important for efficiency but also for safety. In many industrial applications, improper sizing of the heating-surface area can lead to overheating or thermal stress in equipment, potentially resulting in failures or accidents. Therefore, engineers must take into account factors such as the type of fluids involved, their flow rates, and the desired temperature changes when designing systems with a specific heating-surface area.In conclusion, the heating-surface area is a fundamental concept in thermal engineering that influences the efficiency, safety, and cost-effectiveness of various systems. By understanding and optimizing the heating-surface area, engineers can design better-performing equipment that meets the demands of modern industries. As technologies advance, the importance of accurately calculating and implementing the appropriate heating-surface area will only continue to grow, highlighting the need for ongoing research and development in this field.

‘加热表面积’的概念在各种工程应用中至关重要，特别是在热交换器、锅炉和其他热系统的设计和效率中。理解这个术语使工程师能够优化能量传递过程，确保系统以最高潜力运行。‘加热表面积’指的是可用于两个流体之间热传递的总表面积，通常一个流体被加热，另一个流体被冷却。这个面积在决定热交换的有效性方面起着重要作用，这直接影响到系统的效率。例如，在锅炉的背景下，‘加热表面积’对产生蒸汽至关重要。更大的‘加热表面积’意味着热气体与水之间的接触更多，从而加快蒸汽的产生。相反，如果‘加热表面积’太小，锅炉可能会难以有效地产生蒸汽，导致燃料消耗增加和运营成本上升。因此，工程师必须仔细计算最佳的‘加热表面积’大小，以确保锅炉在不浪费能量的情况下满足所需的蒸汽输出。同样，在热交换器中，‘加热表面积’对于在不混合两种流体的情况下进行热量转移至关重要。热交换器的效率在很大程度上依赖于‘加热表面积’的大小和设计。例如，在壳管式热交换器中，管子的排列和数量将决定整体‘加热表面积’。设计良好的热交换器具有适当的‘加热表面积’，将最大限度地提高热传递并最小化能量损失，从而增强系统的整体性能。此外，‘加热表面积’不仅对效率重要，而且对安全性也至关重要。在许多工业应用中，‘加热表面积’的不当尺寸可能导致设备过热或热应力，从而可能导致故障或事故。因此，工程师在设计具有特定‘加热表面积’的系统时，必须考虑流体类型、流速和所需温度变化等因素。总之，‘加热表面积’是热工程中的基本概念，影响各种系统的效率、安全性和成本效益。通过理解和优化‘加热表面积’，工程师可以设计出更高效能的设备，满足现代工业的需求。随着技术的进步，准确计算和实施适当的‘加热表面积’的重要性将继续增长，这突显了该领域持续研究和发展的必要性。