heat distribution
简明释义
热分配
英英释义
The way in which heat energy is spread or transferred across a given area or within a material. | 热能在特定区域或材料内部的传播或转移方式。 |
例句
1.Researchers are developing new materials to enhance heat distribution 热分布 in electronics.
研究人员正在开发新材料以增强电子产品中的热分布 heat distribution。
2.Proper heat distribution 热分布 is crucial for maintaining optimal temperatures in industrial processes.
适当的热分布 heat distribution对于维持工业过程中的最佳温度至关重要。
3.Improving heat distribution 热分布 in cooking appliances can lead to better meal preparation.
改善烹饪设备中的热分布 heat distribution可以导致更好的餐饮准备。
4.The heat distribution 热分布 in the solar panels affects their overall efficiency.
太阳能电池板中的热分布 heat distribution影响其整体效率。
5.The engineer conducted a study on the heat distribution 热分布 in the building to optimize energy efficiency.
工程师对建筑物的热分布 heat distribution进行了研究,以优化能源效率。
作文
Heat distribution is a crucial concept in both physics and engineering, significantly impacting various fields such as thermodynamics, materials science, and even climate studies. Understanding heat distribution (热分布) allows us to analyze how heat energy moves and spreads within different systems. For instance, in a simple scenario like heating a room, the heat distribution (热分布) determines how effectively the warmth from a heater reaches all corners of the space. If the heat distribution (热分布) is uneven, certain areas may feel too hot while others remain cold, leading to discomfort and inefficiency.In industrial applications, heat distribution (热分布) is vital for processes such as metal forging or glass manufacturing. In these cases, the uniformity of heat distribution (热分布) can affect the quality of the final product. For example, if a metal is heated unevenly, it may lead to stress concentrations that could result in fractures or other structural failures. Therefore, engineers must carefully design heating systems to ensure optimal heat distribution (热分布).Moreover, the study of heat distribution (热分布) extends beyond tangible materials and into environmental science. Climate scientists examine how solar energy is distributed across the Earth's surface, which influences weather patterns and climate zones. The uneven heat distribution (热分布) caused by geographical features, such as mountains and oceans, plays a significant role in creating microclimates. Understanding these patterns helps scientists predict weather changes and assess climate change impacts.In everyday life, we encounter heat distribution (热分布) in various forms. Cooking is one of the most relatable examples. When using an oven, the heat distribution (热分布) affects how evenly food is cooked. A well-designed oven will have a consistent heat distribution (热分布), ensuring that all parts of the dish are cooked properly. However, if the heat distribution (热分布) is poor, some areas may burn while others remain undercooked.Another practical application of heat distribution (热分布) is in the design of buildings. Architects and engineers consider heat distribution (热分布) when designing heating and cooling systems to maximize energy efficiency. Proper insulation and strategic placement of windows can enhance heat distribution (热分布), reducing energy costs and improving comfort for occupants.In summary, heat distribution (热分布) is a fundamental principle that governs many aspects of our world, from industrial processes to environmental phenomena and daily activities. A deep understanding of heat distribution (热分布) enables us to optimize systems, improve comfort, and address environmental challenges. As technology advances, the ability to model and predict heat distribution (热分布) accurately will become increasingly important, allowing for innovations that enhance efficiency and sustainability in various sectors.
热分布是物理学和工程学中的一个关键概念,对热力学、材料科学甚至气候研究等多个领域产生重大影响。理解热分布(heat distribution)使我们能够分析热能在不同系统中的移动和扩散方式。例如,在加热房间这样简单的场景中,热分布(heat distribution)决定了来自加热器的温暖如何有效到达空间的每个角落。如果热分布(heat distribution)不均匀,某些区域可能会感到过热,而其他区域仍然保持寒冷,从而导致不适和低效。在工业应用中,热分布(heat distribution)对金属锻造或玻璃制造等过程至关重要。在这些情况下,热分布(heat distribution)的均匀性会影响最终产品的质量。例如,如果金属加热不均匀,可能会导致应力集中,从而造成断裂或其他结构失效。因此,工程师必须仔细设计加热系统,以确保最佳的热分布(heat distribution)。此外,热分布(heat distribution)的研究不仅限于有形材料,还扩展到环境科学。气候科学家研究太阳能如何在地球表面分布,这影响着天气模式和气候带。由于地理特征(如山脉和海洋)造成的热分布(heat distribution)不均匀在创建微气候方面发挥了重要作用。理解这些模式有助于科学家预测天气变化并评估气候变化的影响。在日常生活中,我们以各种形式遇到热分布(heat distribution)。烹饪就是一个最相关的例子。当使用烤箱时,热分布(heat distribution)影响食物的均匀烹饪。一台设计良好的烤箱将具有一致的热分布(heat distribution),确保菜肴的所有部分都能正确烹饪。然而,如果热分布(heat distribution)差,则某些区域可能会烧焦,而其他区域则保持未熟。热分布(heat distribution)的另一个实际应用是在建筑设计中。建筑师和工程师在设计供暖和制冷系统时考虑热分布(heat distribution),以最大化能源效率。适当的绝缘和窗户的战略放置可以增强热分布(heat distribution),降低能源成本,提高居住者的舒适度。总之,热分布(heat distribution)是支配我们世界许多方面的基本原理,从工业过程到环境现象以及日常活动。深入理解热分布(heat distribution)使我们能够优化系统、提高舒适度并应对环境挑战。随着技术的进步,准确建模和预测热分布(heat distribution)的能力将变得越来越重要,从而推动各个行业的效率和可持续性创新。
相关单词
