egress of heat

简明释义

放热

英英释义

例句

1.Proper ventilation helps in the egress of heat 热量的散发 from the kitchen while cooking.

适当的通风有助于在烹饪时实现厨房的热量的散发。

2.To improve energy efficiency, we need to monitor the egress of heat 热量的散发 from the HVAC system.

为了提高能效，我们需要监测HVAC系统的热量的散发。

3.The engineer suggested modifications to enhance the egress of heat 热量的散发 from the reactor.

工程师建议进行修改，以增强反应堆的热量的散发。

4.The building's design ensures proper egress of heat 热量的散发 during the summer months.

这座建筑的设计确保在夏季有良好的热量的散发。

5.Insulation materials can significantly reduce the egress of heat 热量的散发 in winter.

绝缘材料可以显著减少冬季的热量的散发。

作文

The concept of energy transfer is essential in various fields, particularly in physics and engineering. One significant aspect of this transfer is the egress of heat, which refers to the process of heat leaving a system or an object. Understanding this phenomenon is crucial for designing efficient heating and cooling systems, as well as for improving energy conservation methods. For instance, in the context of buildings, the egress of heat can lead to significant energy losses if not properly managed. When the heat escapes from a building during winter months, it results in higher energy consumption for heating, which can be both costly and environmentally unfriendly.To illustrate this point, consider a poorly insulated home. In such a scenario, the egress of heat occurs through walls, windows, and roofs, where the temperature difference between the inside and outside creates a natural flow of heat. This flow can be quantified using principles from thermodynamics, which describe how heat moves from warmer areas to cooler ones. Engineers often use materials with high thermal resistance, known as insulators, to minimize the egress of heat. By effectively reducing this loss, they can enhance the overall energy efficiency of buildings.Moreover, the egress of heat is not only limited to buildings but also applies to various appliances and machinery. For example, in industrial settings, machines generate a substantial amount of heat during operation. If this heat is not effectively managed, it can lead to overheating, which may damage the equipment or reduce its lifespan. Therefore, engineers implement cooling systems that control the egress of heat to maintain optimal operating temperatures. These systems might include fans, radiators, or water cooling mechanisms designed to dissipate heat efficiently.In addition to practical applications, the egress of heat has implications for environmental sustainability. With the increasing focus on climate change and energy conservation, understanding how heat escapes from various systems has become a priority. For instance, in renewable energy technologies such as solar panels, minimizing the egress of heat can significantly improve their efficiency. Engineers are constantly researching innovative materials and designs that can better retain heat or convert it into usable energy rather than allowing it to escape.Overall, the egress of heat is a fundamental concept that impacts many aspects of our daily lives, from the comfort of our homes to the efficiency of our industrial processes. By understanding and managing this heat transfer, we can create more sustainable and energy-efficient systems that benefit both our economy and the environment. As technology advances, the importance of controlling the egress of heat will only grow, making it a vital area of study for future engineers and scientists.

能量传递的概念在各个领域中都至关重要，特别是在物理学和工程学中。其中一个重要方面是热量逸出，它指的是热量离开系统或物体的过程。理解这一现象对于设计高效的供暖和制冷系统，以及改善能源节约方法至关重要。例如，在建筑物的背景下，如果管理不当，热量逸出可能导致显著的能源损失。当冬季热量从建筑物中逸出时，会导致供暖的能源消耗增加，这既昂贵又对环境不友好。为了说明这一点，考虑一个绝缘不良的家庭。在这种情况下，热量逸出通过墙壁、窗户和屋顶发生，室内外之间的温差造成了热量自然流动。可以使用热力学原理来量化这种流动，描述热量如何从较温暖的区域流向较冷的区域。工程师通常使用具有高热阻的材料，称为绝缘材料，以最小化热量逸出。通过有效减少这种损失，他们可以提高建筑物的整体能效。此外，热量逸出不仅限于建筑物，还适用于各种设备和机械。例如，在工业环境中，机器在运行过程中会产生大量热量。如果不加以有效管理，这种热量可能导致过热，从而损坏设备或缩短其使用寿命。因此，工程师实施冷却系统来控制热量逸出，以维持最佳操作温度。这些系统可能包括风扇、散热器或水冷机制，旨在有效散发热量。除了实际应用外，热量逸出还对环境可持续性产生影响。随着对气候变化和能源节约的日益关注，了解热量如何从各种系统中逸出已成为优先事项。例如，在太阳能电池板等可再生能源技术中，最小化热量逸出可以显著提高其效率。工程师们不断研究创新材料和设计，以更好地保持热量或将其转化为可用能源，而不是让其逸出。总的来说，热量逸出是一个基本概念，影响着我们日常生活的许多方面，从我们家中的舒适度到工业过程的效率。通过理解和管理这一热传递，我们可以创造出更可持续和节能的系统，造福我们的经济和环境。随着技术的进步，控制热量逸出的重要性只会增加，使其成为未来工程师和科学家研究的关键领域。