thermal utilization factor

简明释义

热利用系数热量利用因数

英英释义

例句

1.The efficiency of the heating system can be improved by increasing the thermal utilization factor (热利用系数).

通过提高热利用系数（热利用系数），可以改善加热系统的效率。

2.The thermal utilization factor (热利用系数) is a key parameter in evaluating the effectiveness of heat exchangers.

在评估热交换器的有效性时，热利用系数（热利用系数）是一个关键参数。

3.Improving the thermal utilization factor (热利用系数) can reduce greenhouse gas emissions from heating systems.

提高热利用系数（热利用系数）可以减少供暖系统的温室气体排放。

4.To achieve optimal performance, engineers must calculate the thermal utilization factor (热利用系数) of the system.

为了达到最佳性能，工程师必须计算系统的热利用系数（热利用系数）。

5.In industrial applications, a higher thermal utilization factor (热利用系数) can lead to significant energy savings.

在工业应用中，更高的热利用系数（热利用系数）可以带来显著的节能效果。

作文

In the realm of energy efficiency, the concept of thermal utilization factor plays a crucial role in assessing how effectively energy is converted into useful work. The thermal utilization factor (热利用系数) is defined as the ratio of useful thermal energy output to the total thermal energy input in a system. This measurement is vital for various industries, particularly those involved in power generation, heating systems, and industrial processes. Understanding this factor can lead to significant improvements in energy management and sustainability practices.To illustrate the importance of the thermal utilization factor (热利用系数), consider a typical power plant. In such facilities, fossil fuels like coal or natural gas are burned to produce steam, which drives turbines to generate electricity. However, not all the heat generated during combustion is converted into electrical energy. Some of it is lost to the environment through exhaust gases and cooling systems. By calculating the thermal utilization factor (热利用系数), engineers can determine how much of the thermal energy produced is actually being utilized for power generation.A high thermal utilization factor (热利用系数) indicates that a larger proportion of the energy input is being effectively converted into useful work, which is a sign of an efficient system. Conversely, a low factor suggests that there are significant losses, prompting the need for potential upgrades or modifications to improve overall efficiency. For instance, implementing better insulation, optimizing combustion processes, or utilizing waste heat recovery systems can enhance the thermal utilization factor (热利用系数) of a facility.Moreover, the thermal utilization factor (热利用系数) is not only applicable in large-scale power plants but also in residential heating systems. Homeowners can benefit from understanding this concept when choosing heating appliances such as furnaces or boilers. By selecting units with a higher thermal utilization factor (热利用系数), individuals can reduce their energy consumption and lower utility bills while minimizing their environmental impact.In addition to economic benefits, improving the thermal utilization factor (热利用系数) contributes to global efforts in reducing greenhouse gas emissions. As countries strive to meet international climate goals, enhancing energy efficiency becomes paramount. By focusing on the thermal utilization factor (热利用系数) across various sectors, we can make strides toward a more sustainable future.In conclusion, the thermal utilization factor (热利用系数) is a key indicator of energy efficiency in both industrial and residential settings. By understanding and optimizing this factor, we can improve energy conversion processes, reduce waste, and contribute to environmental sustainability. As the world moves toward cleaner energy sources and more efficient technologies, the significance of the thermal utilization factor (热利用系数) will only continue to grow, making it an essential concept for engineers, policymakers, and consumers alike.