thermal regulator

简明释义

温度第器

英英释义

例句

1.The thermal regulator 热调节器 in the incubator ensures that the eggs are kept at the right temperature.

孵化器中的热调节器 thermal regulator 确保蛋在正确的温度下保持。

2.The new model of the air conditioner features an advanced thermal regulator 热调节器 to maintain a consistent temperature.

新型号的空调配备了先进的热调节器 thermal regulator，以保持温度的一致性。

3.Many modern refrigerators use a thermal regulator 热调节器 to optimize energy consumption.

许多现代冰箱使用热调节器 thermal regulator 来优化能耗。

4.In electric vehicles, the thermal regulator 热调节器 helps manage battery temperatures for optimal performance.

在电动车中，热调节器 thermal regulator 帮助管理电池温度以获得最佳性能。

5.A malfunctioning thermal regulator 热调节器 can lead to overheating in machinery.

故障的热调节器 thermal regulator 可能导致机器过热。

作文

In our daily lives, we often take for granted the comfort that comes from maintaining a stable temperature in our environments. Whether it’s the warmth of a cozy home during winter or the coolness of an air-conditioned office in summer, the role of a thermal regulator (热调节器) is crucial in achieving this comfort. A thermal regulator is a device or system that manages temperature fluctuations to maintain an optimal thermal environment. This concept can be applied in various fields, including engineering, biology, and climate control. In engineering, thermal regulators are essential components in systems such as heating, ventilation, and air conditioning (HVAC). These systems utilize thermal regulators to ensure that indoor temperatures remain within a comfortable range. For instance, a thermostat is a common example of a thermal regulator. It senses the temperature of the environment and activates heating or cooling systems as needed. This not only enhances comfort but also improves energy efficiency, as systems only operate when necessary.In biology, the concept of a thermal regulator is evident in the way living organisms maintain their body temperature. Warm-blooded animals, such as mammals and birds, have physiological mechanisms that allow them to regulate their internal temperature despite external temperature changes. This ability to act as a thermal regulator is vital for survival, as it enables these organisms to thrive in diverse environments. For example, humans have sweat glands that help cool the body when temperatures rise, while shivering helps generate heat when it’s cold.Moreover, the importance of thermal regulators extends to environmental science and climate control. In the context of global warming, understanding how natural and artificial thermal regulators function can help us develop strategies to mitigate temperature increases. Urban areas often experience the 'heat island' effect, where built environments absorb and retain heat more than natural landscapes. Implementing green roofs, reflective materials, and urban forestry can serve as effective thermal regulators, helping to lower temperatures in cities and improve overall air quality.The application of thermal regulators is also seen in everyday appliances. Refrigerators, for instance, act as thermal regulators by keeping food at safe temperatures to prevent spoilage. Similarly, ovens and stoves are designed to provide controlled heat for cooking. Each of these appliances employs specific thermal regulating technologies to achieve desired outcomes, demonstrating the significance of this concept in our lives.In conclusion, the role of a thermal regulator (热调节器) is multifaceted and pervasive across various domains. From engineering to biology and environmental science, thermal regulators play a pivotal role in maintaining comfort, ensuring survival, and addressing climate challenges. As technology continues to advance, the development of more efficient and effective thermal regulators will be crucial in enhancing our quality of life and protecting our planet. Understanding and appreciating the function of thermal regulators allows us to make informed decisions about energy use and environmental conservation, ultimately leading to a more sustainable future.

在我们的日常生活中，我们常常理所当然地认为，维持环境中稳定温度所带来的舒适感。无论是在冬天温暖舒适的家中，还是在夏天空调凉爽的办公室里，热调节器（thermal regulator）的作用对于实现这种舒适感至关重要。热调节器是管理温度波动以维持最佳热环境的设备或系统。这个概念可以应用于多个领域，包括工程、生物学和气候控制。在工程领域，热调节器是供暖、通风和空调（HVAC）系统中的重要组成部分。这些系统利用热调节器来确保室内温度保持在舒适范围内。例如，恒温器就是一个常见的热调节器实例。它感应环境温度，并根据需要激活加热或制冷系统。这不仅提高了舒适度，还改善了能源效率，因为系统仅在必要时运行。在生物学中，热调节器的概念在生物体如何维持其体温中显而易见。温血动物，如哺乳动物和鸟类，具有生理机制，使它们能够调节其内部温度，尽管外部温度发生变化。这种作为热调节器的能力对于生存至关重要，因为它使这些生物能够在多样化的环境中繁衍生息。例如，人类具有汗腺，当温度升高时可以帮助降温，而颤抖则可以在寒冷时产生热量。此外，热调节器的重要性还扩展到环境科学和气候控制。在全球变暖的背景下，理解自然和人工热调节器的功能可以帮助我们制定减缓温度上升的战略。城市地区通常经历“热岛”效应，即建筑环境吸收和保留的热量比自然景观更多。实施绿色屋顶、反射材料和城市林业可以作为有效的热调节器，帮助降低城市温度并改善整体空气质量。热调节器的应用也体现在日常电器中。例如，冰箱通过将食物保持在安全温度下以防止腐败，充当热调节器。类似地，烤箱和炉子被设计为提供受控热量以进行烹饪。每一个这些电器都采用特定的热调节技术来实现预期的结果，展示了这一概念在我们生活中的重要性。总之，热调节器（thermal regulator）的角色是多方面的，广泛存在于各个领域。从工程到生物学再到环境科学，热调节器在维持舒适度、确保生存和应对气候挑战方面发挥着关键作用。随着技术的不断进步，开发更高效、更有效的热调节器对于提升我们的生活质量和保护我们的星球至关重要。理解和欣赏热调节器的功能使我们能够就能源使用和环境保护做出明智的决策，最终导致一个更加可持续的未来。