cooling ratio

简明释义

冷却系数

英英释义

例句

1.During the summer months, maintaining a proper cooling ratio 冷却比 is crucial for comfort.

在夏季，维持适当的冷却比 cooling ratio对舒适度至关重要。

2.To achieve energy savings, the building's HVAC system was optimized for a cooling ratio 冷却比 of 2.5:1.

为了实现节能，建筑的暖通空调系统被优化为2.5:1的冷却比 cooling ratio。

3.The air conditioning system is designed to maintain a cooling ratio 冷却比 of 3:1 for optimal efficiency.

空调系统设计为保持3:1的冷却比 cooling ratio以达到最佳效率。

4.In this experiment, we measured the cooling ratio 冷却比 to evaluate the thermal performance of the material.

在这个实验中，我们测量了冷却比 cooling ratio以评估材料的热性能。

5.A higher cooling ratio 冷却比 indicates better heat dissipation in electronic devices.

更高的冷却比 cooling ratio表示电子设备的散热性能更好。

作文

The concept of cooling ratio is crucial in the fields of engineering and environmental science. It refers to the relationship between the amount of heat removed from a system and the energy consumed to achieve this cooling effect. Understanding the cooling ratio can help improve energy efficiency in various applications, including air conditioning systems, refrigeration units, and industrial cooling processes.In air conditioning, for instance, the cooling ratio helps determine how effectively a unit can lower temperatures while minimizing energy consumption. A higher cooling ratio indicates that the system is capable of removing more heat with less energy input, making it more efficient. This is particularly important in today's world, where energy costs are rising, and there is an increasing demand for sustainable solutions that reduce our carbon footprint.To illustrate the significance of the cooling ratio, consider a typical air conditioning system. If an air conditioner removes 10,000 BTUs (British Thermal Units) of heat but consumes 3,000 watts of electricity, its cooling ratio can be calculated by comparing these two values. The efficiency of the system can be expressed as a ratio or coefficient, allowing consumers and engineers to make informed decisions about which systems to install or upgrade.Furthermore, the cooling ratio is not only relevant for residential applications but also plays a vital role in industrial settings. Factories and large-scale operations often require substantial cooling to ensure optimal working conditions and prevent overheating of machinery. By analyzing the cooling ratio, companies can identify underperforming cooling systems and invest in upgrades that enhance overall productivity and reduce operational costs.Moreover, understanding the cooling ratio can lead to innovative designs in building architecture. For example, architects can design buildings with natural ventilation and shading to minimize the need for mechanical cooling. By optimizing the cooling ratio through thoughtful design, buildings can remain comfortable while using less energy, contributing to a more sustainable future.In conclusion, the cooling ratio is an essential metric that provides insights into the efficiency of cooling systems across various applications. As we strive for energy conservation and sustainability, understanding and optimizing the cooling ratio will play a significant role in shaping the technologies and strategies we employ. By focusing on this critical aspect, we can work towards a future where cooling systems are not only effective but also environmentally responsible, ensuring a balance between comfort and sustainability for generations to come.

‘冷却比’的概念在工程和环境科学领域至关重要。它指的是从系统中移除的热量与实现这种冷却效果所消耗的能量之间的关系。理解‘冷却比’可以帮助提高各种应用的能源效率，包括空调系统、制冷装置和工业冷却过程。例如，在空调中，‘冷却比’有助于确定一个单位在降低温度的同时最小化能耗的有效性。较高的‘冷却比’表明系统能够以较少的能量输入去除更多的热量，从而使其更有效。这在当今世界尤为重要，因为能源成本不断上升，并且对减少碳足迹的可持续解决方案的需求日益增加。为了说明‘冷却比’的重要性，我们考虑一个典型的空调系统。如果一台空调移除10,000 BTU（英热单位）的热量，但消耗了3,000瓦的电力，则其‘冷却比’可以通过比较这两个值来计算。系统的效率可以表示为比率或系数，使消费者和工程师能够做出明智的决定，关于安装或升级哪些系统。此外，‘冷却比’不仅与住宅应用相关，而且在工业环境中也起着至关重要的作用。工厂和大规模运营往往需要大量冷却，以确保最佳工作条件并防止机械过热。通过分析‘冷却比’，公司可以识别表现不佳的冷却系统，并投资于升级，提高整体生产力并降低运营成本。此外，理解‘冷却比’可以引领建筑设计的创新。例如，建筑师可以设计具有自然通风和遮阳功能的建筑，以最小化机械冷却的需求。通过优化‘冷却比’，建筑可以在使用更少的能量的同时保持舒适，为更可持续的未来做出贡献。总之，‘冷却比’是一个重要的指标，它提供了关于各种应用中冷却系统效率的洞察。随着我们努力实现节能和可持续发展，理解和优化‘冷却比’将在塑造我们采用的技术和策略方面发挥重要作用。通过关注这一关键方面，我们可以朝着一个冷却系统不仅有效而且对环境负责的未来迈进，确保舒适与可持续性之间的平衡，为子孙后代创造更好的生活环境。