heat balance
简明释义
热平衡
英英释义
例句
1.Maintaining a heat balance 热平衡 is crucial for the efficiency of geothermal heating systems.
维持heat balance 热平衡对地热供暖系统的效率至关重要。
2.In order to optimize the heat balance 热平衡, we need to consider both solar gain and heat loss in the design phase.
为了优化heat balance 热平衡,我们需要在设计阶段考虑太阳辐射增益和热损失。
3.The architect designed the building with a focus on achieving a proper heat balance 热平衡 to minimize energy consumption.
建筑师在设计这座建筑时,注重实现适当的heat balance 热平衡以减少能耗。
4.Engineers conducted simulations to analyze the heat balance 热平衡 of the new manufacturing facility.
工程师们进行了模拟,以分析新制造设施的heat balance 热平衡。
5.To ensure the comfort of the occupants, the HVAC system was adjusted to maintain a consistent heat balance 热平衡 throughout the space.
为了确保居住者的舒适,HVAC系统被调整以维持整个空间的一致heat balance 热平衡。
作文
The concept of heat balance plays a crucial role in understanding various natural and engineered systems. In essence, heat balance refers to the equilibrium between the amount of heat energy entering a system and the amount leaving it. This principle is pivotal in fields such as meteorology, engineering, and environmental science, where the management of thermal energy is essential for maintaining optimal conditions.To illustrate the importance of heat balance, consider the Earth's climate system. The planet receives solar energy, which warms its surface, but this energy must also be radiated back into space to maintain a stable temperature. If the incoming solar radiation exceeds the outgoing thermal radiation, the Earth experiences a positive heat balance, leading to global warming. Conversely, if the outgoing radiation surpasses incoming energy, a negative heat balance can result in cooling trends. Understanding this dynamic is vital for predicting climate change and implementing effective environmental policies.In engineering, particularly in building design, heat balance is critical for energy efficiency. Architects and engineers must consider factors such as insulation, windows, and ventilation systems to achieve a favorable heat balance. For instance, during winter, buildings need to retain heat generated by heating systems while minimizing heat loss through walls and roofs. Conversely, in summer, it is essential to prevent excessive heat from entering the building to maintain comfortable indoor temperatures. By optimizing heat balance, energy consumption can be significantly reduced, resulting in lower utility bills and a smaller carbon footprint.Additionally, the concept of heat balance is applicable in biological systems. Living organisms maintain their internal temperatures through metabolic processes that generate heat, and they must also dissipate excess heat to avoid overheating. For example, humans regulate their body temperature through sweating and blood circulation. When the external temperature rises or physical activity increases, the body must work harder to maintain a stable heat balance. Disruptions in this balance can lead to heat-related illnesses, highlighting the importance of understanding thermal regulation in health and physiology.Furthermore, in agriculture, heat balance influences crop growth and yield. Plants absorb sunlight for photosynthesis, but they also lose moisture through transpiration. Farmers must carefully manage irrigation and shading to ensure that crops achieve an optimal heat balance. Too much heat can stress plants and reduce productivity, while insufficient warmth can hinder growth. Thus, understanding heat balance is vital for sustainable agricultural practices and food security.In conclusion, the concept of heat balance is integral to various disciplines, from climate science to engineering and biology. By comprehensively understanding how heat energy is transferred and balanced within systems, we can develop strategies to mitigate climate change, enhance energy efficiency, promote health, and improve agricultural practices. As our world faces increasing challenges related to energy consumption and environmental sustainability, mastering the principles of heat balance will be essential for creating a more resilient future.
热平衡的概念在理解各种自然和工程系统中起着至关重要的作用。简单来说,热平衡是指进入系统的热能与离开系统的热能之间的平衡。这一原理在气象学、工程学和环境科学等领域至关重要,因为热能的管理对于维持最佳条件是必不可少的。为了说明热平衡的重要性,可以考虑地球的气候系统。地球接收到太阳能,这使其表面变暖,但这部分能量也必须辐射回太空,以维持稳定的温度。如果入射的太阳辐射超过了辐射回去的热量,地球就会经历正热平衡,导致全球变暖。反之,如果辐射出去的热量超过了进入的能量,就会出现负热平衡,可能导致降温趋势。理解这一动态对于预测气候变化和实施有效的环境政策至关重要。在工程领域,特别是在建筑设计中,热平衡对能源效率至关重要。建筑师和工程师必须考虑绝缘、窗户和通风系统等因素,以实现良好的热平衡。例如,在冬季,建筑物需要保留由供暖系统产生的热量,同时尽量减少通过墙壁和屋顶的热量损失。相反,在夏季,防止过多的热量进入建筑物以保持舒适的室内温度是至关重要的。通过优化热平衡,能源消耗可以显著降低,从而减少水电费和碳足迹。此外,热平衡的概念也适用于生物系统。生物体通过代谢过程产生热量来维持其内部温度,同时也必须散发多余的热量以避免过热。例如,人类通过出汗和血液循环来调节体温。当外部温度升高或身体活动增加时,身体必须更加努力地维持稳定的热平衡。这种平衡的破坏可能导致与热相关的疾病,这突显了理解热调节在健康和生理学中的重要性。此外,在农业中,热平衡影响作物的生长和产量。植物吸收阳光进行光合作用,但它们也通过蒸腾作用失去水分。农民必须仔细管理灌溉和遮荫,以确保作物实现最佳的热平衡。过多的热量会给植物造成压力并降低生产力,而不足的温暖则会妨碍生长。因此,理解热平衡对于可持续农业实践和粮食安全至关重要。总之,热平衡的概念在气候科学、工程学和生物学等多个学科中都是不可或缺的。通过全面理解热能如何在系统中转移和平衡,我们可以制定减缓气候变化、提高能源效率、促进健康和改善农业实践的策略。随着我们的世界面临与能源消费和环境可持续性相关的日益严峻的挑战,掌握热平衡的原则将对创造一个更具韧性的未来至关重要。
相关单词