heat output

简明释义

热功率

英英释义

例句

1.We need to monitor the heat output to prevent overheating.

我们需要监测热输出以防止过热。

2.The heat output of this furnace can reach up to 500,000 BTUs per hour.

这个炉子的热输出可以达到每小时500,000 BTU。

3.The heat output from the solar panels varies depending on sunlight exposure.

太阳能电池板的热输出因阳光照射而异。

4.Engineers must calculate the heat output of the system to ensure efficiency.

工程师必须计算系统的热输出以确保效率。

5.The boiler's heat output is crucial for maintaining the temperature in the building.

锅炉的热输出对于维持建筑物的温度至关重要。

作文

The concept of heat output is essential in various fields, including engineering, environmental science, and energy production. Understanding heat output allows us to optimize processes and improve efficiency. In simple terms, heat output refers to the amount of thermal energy produced by a system, such as a furnace, engine, or even a human body. This measurement is crucial because it helps determine how much energy is being consumed and how effectively it is being converted into useful work or heat.For instance, in the context of power plants, the heat output is a critical factor in assessing the performance of different types of energy generation technologies. Fossil fuel power plants, solar thermal systems, and geothermal systems all have unique heat output characteristics that influence their overall efficiency and environmental impact. By analyzing the heat output, engineers can identify areas for improvement, such as enhancing heat recovery systems or optimizing combustion processes.Moreover, the heat output of a system has direct implications for environmental sustainability. High heat output often correlates with increased emissions of greenhouse gases and other pollutants. Therefore, reducing heat output while maintaining energy production is a key goal for many industries. For example, modern technologies like combined heat and power (CHP) systems aim to maximize heat output efficiency by capturing waste heat from electricity generation and using it for heating purposes.In residential settings, understanding heat output can help homeowners make informed decisions about heating systems. Different heating appliances, such as boilers and heat pumps, have varying heat output levels, which can affect energy bills and comfort levels. Homeowners should consider the heat output when selecting heating equipment, ensuring it matches the heating requirements of their space without excessive energy consumption.Furthermore, the concept of heat output extends beyond mechanical systems to biological contexts as well. The human body produces a certain amount of heat output through metabolic processes. This natural heat output is vital for maintaining body temperature and supporting various physiological functions. Understanding how different activities and environments affect our heat output can help individuals manage their health and well-being more effectively.In conclusion, the significance of heat output cannot be overstated. It plays a pivotal role in energy efficiency, environmental sustainability, and personal health. By studying and optimizing heat output across various applications, we can contribute to a more sustainable future while enhancing our quality of life. As technology advances, the ability to measure and analyze heat output will continue to improve, offering new opportunities for innovation and efficiency in multiple sectors.

“热输出”的概念在工程、环境科学和能源生产等多个领域中至关重要。理解“热输出”使我们能够优化过程并提高效率。简单来说，“热输出”指的是由系统（如炉子、发动机，甚至是人体）产生的热能量的数量。这一测量至关重要，因为它有助于确定消耗了多少能量以及如何有效地将其转化为有用的工作或热量。例如，在电厂的背景下，“热输出”是评估不同类型能源发电技术性能的关键因素。化石燃料电厂、太阳能热发电系统和地热系统都有独特的“热输出”特征，这会影响它们的整体效率和环境影响。通过分析“热输出”，工程师可以识别改进领域，例如增强热回收系统或优化燃烧过程。此外，系统的“热输出”对环境可持续性直接产生影响。高“热输出”通常与温室气体和其他污染物的排放增加相关。因此，在保持能源生产的同时减少“热输出”是许多行业的关键目标。例如，现代技术如联合热电（CHP）系统旨在通过捕获发电过程中的废热并将其用于供热，从而最大限度地提高“热输出”的效率。在住宅环境中，理解“热输出”可以帮助房主就供暖系统做出明智的决策。不同的供暖设备，如锅炉和热泵，具有不同的“热输出”水平，这会影响能源账单和舒适度。房主在选择供暖设备时应考虑“热输出”，确保其与空间的供暖需求相匹配，而不会过度消耗能源。此外，“热输出”的概念还扩展到生物学背景。人体通过新陈代谢过程产生一定量的“热输出”。这种自然的“热输出”对于维持体温和支持各种生理功能至关重要。了解不同活动和环境如何影响我们的“热输出”可以帮助个人更有效地管理他们的健康和福祉。总之，“热输出”的重要性不容小觑。它在能源效率、环境可持续性和个人健康中发挥着关键作用。通过研究和优化各类应用中的“热输出”，我们可以为更可持续的未来做出贡献，同时提升我们的生活质量。随着技术的进步，测量和分析“热输出”的能力将继续改善，为多个领域的创新和效率提供新的机会。