heat output
简明释义
热放出
英英释义
The amount of thermal energy produced by a system or device, typically measured in units such as watts or BTUs. | 由系统或设备产生的热能量,通常以瓦特或英热单位(BTU)为单位测量。 |
例句
1.A higher heat output can lead to faster cooking times in industrial kitchens.
更高的热输出可以在工业厨房中导致更快的烹饪时间。
2.The heat output of this electric heater is adjustable to suit different room sizes.
这款电暖器的热输出可调节,以适应不同房间的大小。
3.The furnace was designed to maximize its heat output for improved efficiency.
该炉子被设计为最大化其热输出以提高效率。
4.Monitoring the heat output is crucial for maintaining optimal performance in HVAC systems.
监测热输出对于维持HVAC系统的最佳性能至关重要。
5.Engineers are testing the heat output of the new boiler to ensure it meets safety standards.
工程师正在测试新锅炉的热输出以确保其符合安全标准。
作文
The concept of heat output is crucial in various fields, especially in engineering, environmental science, and energy management. To understand heat output, we must first recognize that it refers to the amount of thermal energy produced by a system or process over a specific period. This measurement is vital for assessing the efficiency of heating systems, engines, and even natural processes like geothermal activity. For instance, in the context of a furnace, the heat output indicates how much heat is generated to warm a space. A higher heat output means that the furnace can heat a larger area more quickly, which is particularly important during colder months when heating demands are at their peak.In addition to practical applications, understanding heat output also plays a significant role in environmental considerations. Many industrial processes emit waste heat, which can contribute to energy loss if not properly managed. By measuring heat output, industries can find ways to capture and reuse this energy, thus improving overall efficiency and reducing their carbon footprint. For example, in power plants, excess heat output from electricity generation can be harnessed for district heating systems, providing warmth to nearby buildings and reducing reliance on fossil fuels.Moreover, in the context of renewable energy, heat output becomes even more relevant. Solar thermal systems, for example, convert sunlight into heat, providing a sustainable way to produce hot water or heat spaces. The effectiveness of these systems is often evaluated based on their heat output. Higher heat output indicates better performance and efficiency, making them more attractive options for homeowners and businesses looking to reduce energy costs.In scientific research, measuring heat output is essential for understanding various phenomena. For instance, in studies related to climate change, scientists analyze the heat output of oceans and land surfaces to assess global warming trends. Increased heat output from these sources can indicate rising temperatures, which have far-reaching implications for ecosystems and weather patterns.Furthermore, the concept of heat output extends to everyday appliances as well. When purchasing a new refrigerator or air conditioner, consumers often look at the heat output ratings to determine energy efficiency. Devices with lower heat output are generally more efficient, consuming less energy while providing the same level of cooling or refrigeration. This not only saves money but also contributes to a more sustainable lifestyle.In conclusion, the term heat output encompasses a wide range of applications and implications across various sectors. From engineering to environmental science, understanding heat output is essential for improving efficiency, promoting sustainability, and addressing global challenges such as climate change. As we continue to innovate and seek out more efficient technologies, the importance of measuring and optimizing heat output will only grow, paving the way for a more energy-conscious future.
“热输出”的概念在各个领域都至关重要,尤其是在工程、环境科学和能源管理中。要理解“热输出”,我们首先必须认识到它是指一个系统或过程在特定时间内产生的热能量。这一测量对于评估加热系统、发动机甚至地热活动等自然过程的效率至关重要。例如,在炉子的上下文中,“热输出”表示用于加热空间的热量产生多少。更高的“热输出”意味着炉子可以更快地加热更大的区域,这在寒冷的月份尤其重要,因为那时的取暖需求达到峰值。除了实际应用外,理解“热输出”在环境考虑中也发挥着重要作用。许多工业过程会排放废热,如果不加以管理,会导致能源损失。通过测量“热输出”,工业可以找到捕获和重复利用这些能量的方法,从而提高整体效率并减少碳足迹。例如,在发电厂中,电力生成过程中产生的多余“热输出”可以被利用于区域供热系统,为附近建筑提供温暖,减少对化石燃料的依赖。此外,在可再生能源的背景下,“热输出”变得更加相关。例如,太阳能热系统将阳光转化为热量,提供了一种可持续的方式来生产热水或加热空间。这些系统的有效性通常根据其“热输出”进行评估。更高的“热输出”表示更好的性能和效率,使它们成为希望降低能源成本的家庭和企业更具吸引力的选择。在科学研究中,测量“热输出”对于理解各种现象至关重要。例如,在与气候变化相关的研究中,科学家分析海洋和陆地表面的“热输出”以评估全球变暖趋势。从这些来源增加的“热输出”可能表明温度上升,这对生态系统和天气模式有深远的影响。此外,“热输出”的概念还扩展到日常电器。当购买新的冰箱或空调时,消费者通常会查看“热输出”评级以确定能效。具有较低“热输出”的设备通常更高效,消耗更少的能源,同时提供相同水平的制冷或制冷。这不仅节省了开支,还有助于更可持续的生活方式。总之,“热输出”一词涵盖了各个行业广泛的应用和影响。从工程到环境科学,理解“热输出”对于提高效率、促进可持续发展以及应对气候变化等全球挑战至关重要。随着我们不断创新并寻求更高效的技术,测量和优化“热输出”的重要性只会增加,为更加注重能源的未来铺平道路。
相关单词
