thermal leakage factor

简明释义

热中子漏失因子

英英释义

例句

1.To improve the HVAC system, we need to address the thermal leakage factor of the ductwork.

为了改善暖通空调系统，我们需要解决管道的热泄漏系数问题。

2.The thermal leakage factor can significantly impact heating costs during winter.

在冬季，热泄漏系数会显著影响取暖费用。

3.The architect calculated the thermal leakage factor to ensure the building would be energy efficient.

建筑师计算了热泄漏系数以确保建筑能效高。

4.During the energy audit, the thermal leakage factor was found to be higher than acceptable levels.

在能源审计中，发现热泄漏系数高于可接受水平。

5.A lower thermal leakage factor indicates better insulation in the walls.

较低的热泄漏系数表示墙体绝缘性能更好。

作文

In the field of thermal engineering, understanding the efficiency of insulation materials is crucial for various applications, including building construction and industrial processes. One key concept that engineers often encounter is the thermal leakage factor, which plays a significant role in determining how well a material can resist heat transfer. The thermal leakage factor refers to the rate at which heat escapes from a system or structure due to inadequate insulation or poor thermal performance of the materials used. This factor is essential in calculating energy losses, as it directly affects heating and cooling costs in buildings and industrial facilities.When designing a building, architects and engineers must consider the thermal leakage factor of the insulation materials they choose. A high thermal leakage factor indicates that a material allows more heat to escape, leading to increased energy consumption for heating or cooling. Conversely, materials with a low thermal leakage factor are more effective at maintaining temperature, thus reducing energy costs and improving overall comfort for occupants.To illustrate the importance of the thermal leakage factor, let us consider a typical residential building. If the walls of the house are poorly insulated, the thermal leakage factor will be high, resulting in significant heat loss during winter months. Homeowners may find themselves relying on their heating systems more frequently, leading to higher utility bills. In contrast, a well-insulated home with a low thermal leakage factor will retain heat more effectively, allowing homeowners to maintain a comfortable temperature with less energy expenditure.In addition to residential buildings, the thermal leakage factor is also critical in industrial settings. For example, in manufacturing processes that require specific temperature conditions, minimizing heat loss is vital for maintaining product quality and process efficiency. By selecting materials with a low thermal leakage factor, companies can enhance their operational efficiency and reduce costs associated with energy consumption.Moreover, the thermal leakage factor can vary depending on several factors, including the thickness of the insulation, the material's thermal conductivity, and the environmental conditions. Engineers must conduct thorough assessments to determine the thermal leakage factor for different materials and configurations, ensuring optimal performance for their specific applications.In conclusion, the thermal leakage factor is a fundamental concept in thermal engineering that significantly impacts energy efficiency in buildings and industrial processes. By understanding and optimizing this factor, architects and engineers can design structures that minimize heat loss, reduce energy costs, and provide a comfortable environment for occupants. As we continue to face challenges related to energy consumption and climate change, prioritizing materials with a low thermal leakage factor will be essential for sustainable development and responsible resource management.

在热工程领域，理解绝缘材料的效率对各种应用至关重要，包括建筑施工和工业过程。工程师们经常遇到的一个关键概念是热泄漏系数，它在确定材料抵抗热传递的能力方面发挥着重要作用。热泄漏系数指的是由于绝缘不足或所用材料的热性能差而导致的热量从系统或结构中逃逸的速率。这个因素在计算能量损失时至关重要，因为它直接影响建筑物和工业设施的供暖和制冷成本。在设计建筑时，建筑师和工程师必须考虑他们选择的绝缘材料的热泄漏系数。高热泄漏系数表明材料允许更多热量逃逸，从而导致供暖或制冷时的能耗增加。相反，具有低热泄漏系数的材料在维持温度方面更有效，因此可以降低能源成本并改善居住者的整体舒适度。为了说明热泄漏系数的重要性，让我们考虑一栋典型的住宅。如果房子的墙壁绝缘不良，则热泄漏系数将很高，导致冬季期间显著的热量损失。房主可能会发现自己更频繁地依赖供暖系统，从而导致更高的水电费。相比之下，具有低热泄漏系数的良好绝缘住宅将更有效地保持热量，使房主能够以更少的能源支出维持舒适的温度。除了住宅建筑外，热泄漏系数在工业环境中也至关重要。例如，在需要特定温度条件的制造过程中，最小化热损失对于保持产品质量和过程效率至关重要。通过选择具有低热泄漏系数的材料，公司可以提高其运营效率，并减少与能源消耗相关的成本。此外，热泄漏系数可能因多种因素而异，包括绝缘材料的厚度、材料的热导率和环境条件。工程师必须进行全面评估，以确定不同材料和配置的热泄漏系数，确保其特定应用的最佳性能。总之，热泄漏系数是热工程中的一个基本概念，对建筑和工业过程中的能源效率产生重大影响。通过理解和优化这一因素，建筑师和工程师可以设计出最小化热损失的结构，降低能源成本，并为居住者提供舒适的环境。随着我们继续面临与能源消耗和气候变化相关的挑战，优先考虑具有低热泄漏系数的材料将对可持续发展和负责任的资源管理至关重要。