capacity of heat transmission

简明释义

热传递容量

英英释义

例句

1.The insulation material used in the building has a high capacity of heat transmission, which helps maintain a comfortable indoor temperature.

建筑中使用的绝缘材料具有高热传导能力，有助于保持舒适的室内温度。

2.In order to improve the capacity of heat transmission, engineers are experimenting with new alloys for heat exchangers.

为了提高热传导能力，工程师们正在对热交换器的新合金进行实验。

3.A higher capacity of heat transmission can lead to more efficient heating systems in residential homes.

更高的热传导能力可以使住宅供暖系统更加高效。

4.When designing a solar panel, manufacturers must consider the capacity of heat transmission to maximize energy efficiency.

在设计太阳能电池板时，制造商必须考虑热传导能力以最大化能源效率。

5.The capacity of heat transmission in this metal is significantly better than that of plastic.

这种金属的热传导能力显著优于塑料。

作文

Understanding the capacity of heat transmission is crucial in various fields, including engineering, environmental science, and everyday life. The capacity of heat transmission refers to the ability of a material or system to transfer heat from one part to another. This concept is fundamental in understanding how energy flows in different environments and can significantly impact the efficiency of heating and cooling systems.In engineering, for instance, the capacity of heat transmission plays a vital role in designing buildings and machinery. Engineers must consider the materials they use, as different substances have varying abilities to conduct heat. Metals, for example, typically have a high capacity of heat transmission, making them ideal for applications where rapid heat transfer is necessary. On the other hand, insulators like wood or foam have a low capacity of heat transmission, which helps retain heat and keep spaces warm.Environmental scientists also pay close attention to the capacity of heat transmission. In climate studies, understanding how heat is transferred through the atmosphere, oceans, and land surfaces is essential for predicting weather patterns and climate change. For instance, the capacity of heat transmission in bodies of water affects local climates and ecosystems. Water has a high specific heat capacity, meaning it can absorb and store large amounts of heat without a significant increase in temperature. This property helps regulate temperatures in coastal areas, making them more stable than inland regions.In everyday life, we encounter the capacity of heat transmission in various ways. Consider cooking, for example. Different cooking utensils are designed with materials that have specific capacity of heat transmission properties to ensure efficient cooking. A frying pan made of copper will heat up quickly due to its high capacity of heat transmission, while a ceramic dish may take longer to heat but retains warmth effectively once heated.Moreover, the capacity of heat transmission is critical in the development of energy-efficient appliances. For instance, refrigerators and air conditioners rely on materials with appropriate thermal conductivity to enhance their performance. Manufacturers aim to create products that optimize the capacity of heat transmission to minimize energy consumption while maximizing cooling or heating effects.In conclusion, the capacity of heat transmission is a fundamental concept that impacts various aspects of our lives, from engineering and environmental science to daily activities such as cooking. Understanding this concept allows us to make informed decisions about the materials we use and the technologies we adopt, ultimately leading to more efficient energy use and better environmental stewardship. As we continue to face challenges related to energy consumption and climate change, a deeper understanding of the capacity of heat transmission will be essential for developing sustainable solutions that benefit both society and the planet.

理解和掌握热传导能力在工程、环境科学以及日常生活等多个领域都至关重要。热传导能力是指材料或系统将热量从一个部分转移到另一个部分的能力。这个概念对于理解能量如何在不同环境中流动是基础，且对加热和冷却系统的效率产生重大影响。例如，在工程领域，热传导能力在建筑和机械设计中起着至关重要的作用。工程师必须考虑他们所使用的材料，因为不同的物质具有不同的热导能力。例如，金属通常具有较高的热传导能力，使其成为需要快速热传递的应用场合的理想选择。另一方面，像木材或泡沫这样的绝缘体则具有较低的热传导能力，这有助于保持热量并保持空间温暖。环境科学家也十分关注热传导能力。在气候研究中，理解热量如何通过大气、海洋和陆地表面转移对于预测天气模式和气候变化至关重要。例如，水体的热传导能力影响着局部气候和生态系统。水具有高比热容，这意味着它可以在温度显著上升之前吸收和储存大量热量。这一特性有助于调节沿海地区的温度，使其比内陆地区更稳定。在日常生活中，我们以各种方式接触到热传导能力。例如，烹饪。不同的烹饪器具采用具有特定热传导能力特性的材料，以确保高效烹饪。用铜制成的平底锅由于其高热传导能力而迅速加热，而陶瓷碗可能加热较慢，但一旦加热后能够有效保持温暖。此外，热传导能力在节能电器的发展中也是至关重要的。例如，冰箱和空调依赖于具有适当热导率的材料来提高性能。制造商旨在创造优化热传导能力的产品，以最小化能耗，同时最大化冷却或加热效果。总之，热传导能力是一个基本概念，影响着我们生活的各个方面，从工程和环境科学到烹饪等日常活动。理解这一概念使我们能够对所使用的材料和采用的技术做出明智的决策，从而最终实现更高效的能源使用和更好的环境管理。随着我们继续面临与能源消耗和气候变化相关的挑战，更深入地理解热传导能力将对开发可持续解决方案至关重要，这些解决方案将使社会和地球受益。