finned tube wall

简明释义

翅片管水冷壁

英英释义

例句

1.We need to measure the temperature drop across the finned tube wall to evaluate its performance.

我们需要测量肋管壁两侧的温度变化，以评估其性能。

2.During the maintenance check, we observed some corrosion on the finned tube wall.

在维护检查中，我们发现肋管壁上有一些腐蚀。

3.In industrial applications, a finned tube wall can enhance the thermal performance of boilers.

在工业应用中，肋管壁可以增强锅炉的热性能。

4.The efficiency of the heat exchanger is significantly improved by using a finned tube wall.

使用肋管壁显著提高了热交换器的效率。

5.The design of the finned tube wall allows for better heat transfer in the cooling system.

该肋管壁的设计允许冷却系统中更好的热传递。

作文

In modern engineering, the efficiency of heat exchangers plays a crucial role in various industrial applications. One of the key components that enhance the performance of these systems is the finned tube wall. A finned tube wall refers to a type of heat exchanger design where fins are attached to the outer surface of a tube. These fins increase the surface area available for heat transfer, allowing for more effective thermal exchange between fluids. This design is particularly useful in situations where space is limited, and maximizing heat transfer efficiency is essential.The concept of using fins to improve heat transfer is not new; it has been utilized in various applications, from automotive radiators to large-scale industrial heat exchangers. The principle behind the finned tube wall is relatively straightforward: by increasing the surface area, the rate of heat transfer can be significantly improved. In many cases, the addition of fins can double or even triple the heat transfer capacity of a tube, making it an invaluable feature in many systems.In addition to enhancing efficiency, finned tube walls also contribute to the compactness of heat exchangers. Traditional heat exchangers often require larger volumes to achieve the same level of heat transfer efficiency. However, with the incorporation of finned tube walls, engineers can design smaller, more efficient systems that fit into tighter spaces without sacrificing performance. This is particularly important in industries such as aerospace and automotive, where weight and space constraints are critical factors.Moreover, the materials used in the construction of finned tube walls can vary widely, depending on the application and the fluids involved. Common materials include copper, aluminum, and stainless steel, each offering different thermal conductivity properties and resistance to corrosion. Selecting the right material for the finned tube wall is essential to ensure longevity and reliability in the heat exchanger's operation.Another important aspect of finned tube walls is their impact on maintenance and cleaning. Due to the increased surface area, these structures can accumulate dirt and debris more quickly than smooth tubes. Therefore, regular maintenance is necessary to ensure optimal performance. Engineers often design systems that allow for easy access to finned tube walls for cleaning purposes, which helps maintain their efficiency over time.In conclusion, the finned tube wall is a vital component in the design of efficient heat exchangers. By increasing the surface area for heat transfer, these structures enable better thermal management in a variety of applications. Their ability to reduce the size of heat exchangers while maintaining high performance makes them an essential feature in modern engineering. As industries continue to seek ways to optimize energy use and reduce waste, the importance of finned tube walls will only grow, highlighting their relevance in the future of engineering and technology.

在现代工程中，热交换器的效率在各种工业应用中发挥着至关重要的作用。提高这些系统性能的关键组件之一是鳍片管壁。鳍片管壁是指一种热交换器设计，其中鳍片附着在管的外表面。这些鳍片增加了可用于热传递的表面积，从而允许流体之间更有效的热交换。这种设计在空间有限且最大化热传递效率至关重要的情况下特别有用。使用鳍片来改善热传递的概念并不新鲜；它已在从汽车散热器到大规模工业热交换器的各种应用中得到利用。鳍片管壁背后的原理相对简单：通过增加表面积，热传递速率可以显著提高。在许多情况下，增加鳍片可以使管的热传递能力翻倍甚至三倍，使其成为许多系统中不可或缺的特征。除了提高效率外，鳍片管壁还促进了热交换器的紧凑性。传统热交换器通常需要更大的体积才能达到相同的热传递效率。然而，通过结合鳍片管壁，工程师可以设计出更小、更高效的系统，这些系统适合于更紧凑的空间，而不会牺牲性能。这在航空航天和汽车等行业尤为重要，因为重量和空间限制是关键因素。此外，构成鳍片管壁的材料可以根据应用和涉及的流体而有所不同。常见材料包括铜、铝和不锈钢，每种材料提供不同的导热性能和耐腐蚀性。为鳍片管壁选择合适的材料对于确保热交换器操作的耐久性和可靠性至关重要。鳍片管壁的另一个重要方面是它们对维护和清洁的影响。由于表面积增加，这些结构可能比光滑管道更快地积累污垢和杂物。因此，定期维护是确保最佳性能所必需的。工程师通常设计便于访问鳍片管壁的系统，以便进行清洁，这有助于维持其长期效率。总之，鳍片管壁是高效热交换器设计中的重要组成部分。通过增加热传递的表面积，这些结构能够在各种应用中实现更好的热管理。它们减少热交换器尺寸的能力，同时保持高性能，使其成为现代工程中不可或缺的特征。随着各行业继续寻求优化能源使用和减少浪费，鳍片管壁的重要性只会增加，突显其在未来工程和技术中的相关性。