heat removal
简明释义
热量排除
英英释义
The process of transferring heat away from a system or object to maintain a desired temperature. | 将热量从系统或物体中转移出去以维持所需温度的过程。 |
例句
1.Innovative materials are being developed to enhance heat removal 散热 in high-performance computing devices.
正在开发创新材料,以增强高性能计算设备中的heat removal 散热。
2.In industrial settings, proper heat removal 散热 is crucial to maintain equipment performance.
在工业环境中,适当的heat removal 散热对于维持设备性能至关重要。
3.The engineers designed a new system for efficient heat removal 散热 from the electronic components.
工程师们设计了一种新系统,用于高效的heat removal 散热电子元件。
4.The HVAC system needs regular maintenance to ensure effective heat removal 散热 during summer months.
HVAC系统需要定期维护,以确保在夏季有效的heat removal 散热。
5.A well-designed radiator can significantly improve heat removal 散热 in a vehicle's engine.
设计良好的散热器可以显著提高车辆发动机的heat removal 散热。
作文
Heat management is a critical aspect in various fields, particularly in engineering and technology. One of the fundamental processes involved in maintaining optimal temperatures in systems is heat removal. Heat removal refers to the process of dissipating excess thermal energy from a system to prevent overheating and ensure efficient operation. This concept is vital in many applications, including electronics, automotive engineering, and HVAC (Heating, Ventilation, and Air Conditioning) systems.In electronics, for instance, components such as CPUs and GPUs generate significant amounts of heat during operation. If this heat is not effectively managed, it can lead to reduced performance, system instability, or even permanent damage. Engineers employ various cooling techniques to facilitate heat removal, such as heat sinks, fans, and liquid cooling systems. These methods work by increasing the surface area available for heat exchange or by circulating a coolant that absorbs heat away from critical components.Similarly, in the automotive industry, heat removal plays a crucial role in engine performance and longevity. Internal combustion engines generate substantial heat, which must be dissipated to maintain optimal operating temperatures. Vehicles are equipped with cooling systems that include radiators and coolant fluids designed specifically for effective heat removal. When these systems fail, it can result in engine overheating, leading to severe mechanical failures and costly repairs.In HVAC systems, heat removal is essential for maintaining comfortable indoor environments. Air conditioning units, for example, operate by removing heat from the indoor air and transferring it outside. This process involves the circulation of refrigerants through coils, where they absorb heat from the air before being expelled outside. Effective heat removal in HVAC systems ensures that spaces remain cool and comfortable, especially during hot summer months.The principles of heat removal are not limited to mechanical systems; they also extend to biological systems. For example, the human body regulates its temperature through perspiration, which is a natural form of heat removal. When the body overheats, sweat glands produce moisture that evaporates from the skin's surface, effectively cooling the body down. Understanding this biological process can help in designing better cooling garments and strategies for athletes and individuals working in high-temperature environments.In conclusion, heat removal is an essential process across various domains, from technology to biology. The ability to manage heat effectively not only enhances performance and efficiency but also prolongs the lifespan of systems and components. As technology continues to advance, the methods and technologies for heat removal will likely evolve, leading to even more innovative solutions to address the challenges posed by excess heat generation. Whether in electronic devices, vehicles, or our own bodies, understanding and optimizing heat removal remains a key focus for researchers and engineers alike.
热管理是各个领域中的一个关键方面,特别是在工程和技术中。维持系统最佳温度的基本过程之一是热量去除。热量去除指的是将多余的热能从系统中散发出去,以防止过热并确保高效操作。这一概念在许多应用中至关重要,包括电子产品、汽车工程和HVAC(供暖、通风和空调)系统。例如,在电子产品中,CPU和GPU等组件在运行过程中会产生大量热量。如果这些热量没有得到有效管理,可能会导致性能下降、系统不稳定甚至永久性损坏。工程师采用各种冷却技术来促进热量去除,如散热器、风扇和液体冷却系统。这些方法通过增加可用于热交换的表面积或通过循环吸热的冷却剂来实现。同样,在汽车工业中,热量去除在发动机性能和寿命中发挥着至关重要的作用。内燃机在运行中产生大量热量,必须散发以维持最佳工作温度。车辆配备了冷却系统,包括专门设计用于有效热量去除的散热器和冷却液。当这些系统失效时,可能会导致发动机过热,进而导致严重的机械故障和昂贵的维修。在HVAC系统中,热量去除对于维持舒适的室内环境至关重要。例如,空调设备通过去除室内空气中的热量并将其转移到外部来运作。这个过程涉及冷媒在线圈中的循环,冷媒在此过程中从空气中吸收热量,然后被排放到外部。有效的热量去除在HVAC系统中确保空间在炎热的夏季保持凉爽和舒适。热量去除的原理不仅限于机械系统;它们还扩展到生物系统。例如,人类通过出汗来调节体温,这是一种自然的热量去除方式。当身体过热时,汗腺会产生水分,这些水分从皮肤表面蒸发,从而有效地使身体降温。理解这一生物过程可以帮助设计更好的冷却服装和策略,适用于运动员和在高温环境中工作的人。总之,热量去除是各个领域中的一个基本过程,从技术到生物学。有效管理热量的能力不仅提高了性能和效率,还延长了系统和组件的使用寿命。随着技术的不断进步,热量去除的方法和技术也将不断演变,带来更具创新性的解决方案,以应对多余热量产生所带来的挑战。无论是在电子设备、车辆还是我们自身的身体中,理解和优化热量去除仍然是研究人员和工程师们关注的重点。
相关单词
