diathermic heating

简明释义

高频加热

英英释义

例句

1.In the textile industry, diathermic heating is applied for drying fabrics quickly.

在纺织行业，热导加热被用于快速干燥织物。

2.During the maintenance of the pipeline, diathermic heating was used to prevent freezing in cold weather.

在管道维护期间，使用热导加热防止寒冷天气下的冻结现象。

3.The laboratory used diathermic heating to maintain a consistent temperature during the experiment.

实验室使用热导加热来在实验过程中保持恒定的温度。

4.The chef preferred diathermic heating for sous-vide cooking to ensure even heat distribution.

厨师更喜欢使用热导加热进行真空低温烹饪，以确保均匀的热量分布。

5.The medical facility utilized diathermic heating for physical therapy treatments.

医疗机构利用热导加热进行物理治疗。

作文

In modern engineering and industrial applications, the concept of diathermic heating plays a crucial role in various processes. Diathermic heating, or "导热加热" in Chinese, refers to a method of transferring heat through a medium without significantly raising the temperature of that medium itself. This technique is particularly useful in situations where precise temperature control is necessary, such as in chemical reactions or material processing.One of the most common applications of diathermic heating is found in the field of metallurgy. When metals are heated for forging or casting, it is essential to achieve uniform temperature distribution to avoid defects in the final product. By utilizing diathermic heating, engineers can ensure that the metal reaches the desired temperature evenly, leading to improved mechanical properties and reduced stress concentrations in the material.Another significant application of diathermic heating is in the realm of food processing. In this industry, maintaining specific temperatures is vital for both safety and quality. For instance, during pasteurization, food products must be heated to a certain temperature for a particular duration to eliminate harmful microorganisms. The use of diathermic heating allows for efficient heat transfer, ensuring that the entire batch of food is treated uniformly, thus preserving its flavor and nutritional value.The principles of diathermic heating are also being explored in the medical field. Techniques such as diathermy utilize this method to provide therapeutic heat to tissues. By applying controlled heat to specific areas of the body, healthcare professionals can promote healing and relieve pain. This non-invasive approach is gaining popularity due to its effectiveness and minimal side effects compared to traditional methods.Moreover, the development of advanced materials has further enhanced the efficiency of diathermic heating. Innovative substances with high thermal conductivity can facilitate faster and more uniform heat transfer, making processes more energy-efficient. This is particularly important in today’s world, where sustainability and energy conservation are paramount. Industries are constantly seeking ways to minimize their carbon footprint while maintaining productivity, and diathermic heating offers a viable solution.Despite its numerous advantages, there are challenges associated with diathermic heating that need to be addressed. One of the main concerns is the selection of appropriate materials for the heating medium. The effectiveness of diathermic heating largely depends on the thermal properties of the medium used. Therefore, extensive research is required to identify materials that can withstand high temperatures while ensuring efficient heat transfer.In conclusion, diathermic heating is a versatile and essential technology that finds applications across various fields, including metallurgy, food processing, and medicine. Its ability to transfer heat efficiently without raising the temperature of the medium makes it an invaluable tool in achieving precise temperature control. As industries continue to evolve and seek sustainable solutions, the importance of diathermic heating will undoubtedly grow, paving the way for innovations that enhance productivity and improve quality across multiple sectors.

在现代工程和工业应用中，导热加热的概念在各种过程中发挥着至关重要的作用。导热加热，或称为“diathermic heating”，指的是通过介质传递热量的方法，而不显著提高该介质本身的温度。这种技术在需要精确温度控制的情况下特别有用，例如在化学反应或材料加工中。导热加热最常见的应用之一是在冶金领域。当金属被加热以进行锻造或铸造时，确保温度均匀分布对于避免最终产品中的缺陷至关重要。通过利用导热加热，工程师可以确保金属均匀地达到所需温度，从而改善机械性能并减少材料中的应力集中。导热加热的另一个重要应用是在食品加工领域。在这个行业中，保持特定温度对安全和质量至关重要。例如，在巴氏灭菌过程中，食品必须在特定时间内加热到一定温度，以消除有害微生物。使用导热加热可以有效地传递热量，确保整个食品批次均匀处理，从而保持其风味和营养价值。导热加热的原理也在医疗领域得到了探索。诸如电疗等技术利用这种方法为组织提供治疗热量。通过对身体特定区域施加控制热量，医疗专业人员可以促进愈合并缓解疼痛。这种非侵入性的方法因其有效性和与传统方法相比的副作用较少而日益受到欢迎。此外，先进材料的发展进一步提高了导热加热的效率。具有高热导率的创新材料可以促进更快和更均匀的热传递，使过程更加节能。这在当今世界尤其重要，因为可持续性和能源保护是首要任务。各行业不断寻求降低碳足迹的方法，同时保持生产力，而导热加热提供了一个可行的解决方案。尽管有许多优点，但与导热加热相关的挑战仍需解决。主要问题之一是选择合适的加热介质材料。导热加热的有效性在很大程度上取决于所用介质的热性能。因此，需要进行广泛研究，以确定能够承受高温并确保有效热传递的材料。总之，导热加热是一种多功能且必不可少的技术，在冶金、食品加工和医学等多个领域都有应用。它能够有效地传递热量而不提高介质的温度，使其成为实现精确温度控制的宝贵工具。随着各行业的不断发展和对可持续解决方案的需求增加，导热加热的重要性无疑会增长，为提升生产力和改善多个行业的质量铺平道路。