intermittent heating

简明释义

周期式供热

英英释义

例句

1.For the best results, the recipe recommends intermittent heating during the baking process.

为了获得最佳效果，食谱建议在烘焙过程中使用间歇加热。

2.The heater operates on intermittent heating to save energy while keeping the room warm.

加热器采用间歇加热以节省能源，同时保持房间温暖。

3.Using intermittent heating can help reduce the risk of overheating delicate materials.

使用间歇加热可以降低过热精细材料的风险。

4.The new oven uses intermittent heating to ensure that the food is cooked evenly.

新烤箱使用间歇加热确保食物均匀烹饪。

5.The laboratory experiment required intermittent heating to maintain a stable temperature.

实验室实验需要间歇加热以保持稳定温度。

作文

In recent years, the concept of energy efficiency has gained significant attention, especially in the context of heating systems. One innovative approach that has emerged is intermittent heating, which refers to the practice of heating a space only when necessary rather than maintaining a constant temperature. This method can lead to substantial energy savings and improved comfort levels in residential and commercial buildings. By understanding how intermittent heating works, we can appreciate its benefits and potential applications.The principle behind intermittent heating is relatively straightforward. Traditional heating systems often operate continuously, maintaining a set temperature regardless of whether the space is occupied or not. In contrast, intermittent heating allows for the heating system to be activated only during specific periods of occupancy. For instance, in a home, the heating could be programmed to turn on shortly before residents return from work and shut off after they leave in the morning. This approach not only conserves energy but also reduces utility bills significantly.One of the primary advantages of intermittent heating is its positive impact on the environment. By minimizing energy consumption, this method contributes to lower greenhouse gas emissions, which is crucial in the fight against climate change. Additionally, many modern heating systems are designed to be more environmentally friendly, using renewable energy sources or high-efficiency technology. Therefore, adopting intermittent heating can be an effective step toward sustainable living.Moreover, intermittent heating can enhance indoor comfort. Many people find that constantly heated spaces can lead to dry air and discomfort. By allowing temperatures to fluctuate naturally, occupants may experience a more comfortable environment. Furthermore, with smart heating technologies, residents can control their heating remotely, ensuring that their homes are warm and inviting upon arrival without wasting energy throughout the day.The implementation of intermittent heating can be particularly beneficial in larger buildings or offices. These spaces often have varying occupancy patterns, with some areas being used more frequently than others. By utilizing intermittent heating, building managers can optimize energy use based on real-time occupancy data. For example, conference rooms can be heated only when meetings are scheduled, while common areas can maintain a lower temperature during off-peak hours.However, transitioning to intermittent heating does require careful planning and consideration. It is essential to ensure that the heating system is compatible with this approach and that appropriate controls are in place. Additionally, occupants should be educated about the benefits and functionality of intermittent heating to maximize its effectiveness.In conclusion, intermittent heating presents a promising solution for improving energy efficiency and enhancing comfort in various settings. By heating spaces only when necessary, we can reduce energy consumption, lower costs, and contribute to a healthier planet. As technology continues to advance, the adoption of intermittent heating is likely to become more widespread, paving the way for a more sustainable future. Embracing this innovative approach not only benefits individual households and businesses but also plays a vital role in our collective responsibility to protect the environment.

近年来，能源效率的概念受到了广泛关注，特别是在供暖系统的背景下。出现的一种创新方法是间歇性加热，指的是仅在必要时对空间进行加热，而不是维持恒定的温度。这种方法可以带来可观的节能效果，并提高住宅和商业建筑的舒适度。通过理解间歇性加热的工作原理，我们可以欣赏它的好处和潜在应用。间歇性加热的原理相对简单。传统的供暖系统通常会持续运行，保持设定温度，而不论空间是否有人使用。相比之下，间歇性加热允许供暖系统仅在特定的占用时间内启动。例如，在家庭中，可以将加热程序设置为在居民下班前不久开启，并在早上他们离开后关闭。这种方法不仅节省能源，还显著降低了水电费。间歇性加热的主要优点之一是对环境的积极影响。通过减少能源消耗，这种方法有助于降低温室气体排放，这对于应对气候变化至关重要。此外，许多现代供暖系统设计得更加环保，使用可再生能源或高效技术。因此，采用间歇性加热可以成为实现可持续生活的有效步骤。此外，间歇性加热还可以增强室内舒适度。许多人发现，恒温的空间可能导致空气干燥和不适。通过允许温度自然波动，居住者可能会体验到更舒适的环境。此外，借助智能供暖技术，居民可以远程控制供暖，确保在到达时家中温暖宜人，而不会在白天浪费能源。在大型建筑或办公室中实施间歇性加热尤其有利。这些空间通常具有不同的占用模式，一些区域的使用频率高于其他区域。通过利用间歇性加热，建筑管理者可以根据实时占用数据优化能源使用。例如，会议室只在安排会议时加热，而公共区域在非高峰时段保持较低的温度。然而，过渡到间歇性加热确实需要仔细规划和考虑。确保供暖系统与这种方法兼容，并且具备适当的控制措施是至关重要的。此外，应该教育居住者关于间歇性加热的好处和功能，以最大限度地提高其有效性。总之，间歇性加热为提高各种场所的能源效率和增强舒适度提供了一种有前景的解决方案。通过仅在必要时对空间进行加热，我们可以减少能源消耗，降低成本，并为保护地球做出贡献。随着技术的不断进步，采用间歇性加热的做法可能会变得更加普遍，为更可持续的未来铺平道路。接受这一创新的方法不仅有利于个别家庭和企业，也在我们共同保护环境的责任中扮演着重要角色。