regenerated heat

简明释义

再生热

英英释义

例句

1.Using regenerated heat in our district heating system has reduced emissions by 30%.

在我们的区域供热系统中使用再生热能使排放减少了30%。

2.The design of the building incorporates systems that maximize regenerated heat usage.

建筑的设计包含最大化利用再生热能的系统。

3.By capturing regenerated heat, we can significantly reduce our heating costs.

通过捕获再生热能，我们可以显著降低供暖成本。

4.The factory installed a heat recovery unit to make use of regenerated heat from the production process.

工厂安装了热回收装置，以利用生产过程中的再生热能。

5.The new system efficiently utilizes regenerated heat to improve overall energy efficiency.

新系统有效利用再生热能来提高整体能源效率。

作文

The concept of regenerated heat is becoming increasingly important in the field of energy efficiency and sustainability. As the world faces the challenges of climate change and dwindling natural resources, it is crucial to find innovative ways to utilize energy more effectively. One such method is through the process of capturing and reusing regenerated heat generated during various industrial processes and even within our homes.In many industries, a significant amount of energy is lost as waste heat. For instance, manufacturing plants often produce excess heat during operations, which is typically released into the environment. However, by implementing systems that capture this heat, companies can convert it back into usable energy. This process not only reduces energy consumption but also decreases greenhouse gas emissions, contributing to a more sustainable future.One of the most effective applications of regenerated heat can be seen in combined heat and power (CHP) systems. These systems simultaneously generate electricity and useful thermal energy from the same energy source. By using regenerated heat, CHP systems can achieve efficiencies of over 80%, compared to traditional methods that may only reach 50% efficiency. This remarkable improvement underscores the potential benefits of harnessing regenerated heat in various sectors, including residential heating, industrial processes, and power generation.In addition to industrial applications, the concept of regenerated heat can also be applied in everyday life. For example, heat recovery ventilation systems in homes are designed to capture warm air that would otherwise be lost when ventilating. These systems transfer heat from outgoing stale air to incoming fresh air, thus reducing the need for additional heating and lowering energy bills.Moreover, the use of regenerated heat can play a significant role in renewable energy technologies. Solar thermal systems, for example, can collect sunlight and convert it into heat, which can then be stored and used later. When paired with regenerated heat systems, these technologies can provide a reliable and efficient way to meet energy demands while minimizing environmental impact.As we move towards a more energy-conscious society, understanding and implementing regenerated heat technologies will be vital. Governments and organizations are beginning to recognize the importance of policies that promote energy recovery and efficiency. Incentives for businesses to invest in regenerated heat systems can lead to significant economic and environmental benefits.In conclusion, the utilization of regenerated heat presents a promising opportunity for improving energy efficiency across various sectors. By capturing and reusing waste heat, we can reduce our reliance on fossil fuels, lower greenhouse gas emissions, and create a more sustainable future. It is essential for individuals, businesses, and governments alike to embrace this concept and invest in technologies that harness regenerated heat for the betterment of our planet. The transition to a more sustainable energy landscape is not just beneficial; it is necessary for the health of our environment and future generations.

“再生热”这一概念在能源效率和可持续发展领域变得越来越重要。随着世界面临气候变化和自然资源日益减少的挑战，寻找创新的方法以更有效地利用能源至关重要。其中一种方法是捕获和重复使用在各种工业过程甚至家庭中产生的“再生热”。在许多行业中，大量的能量作为废热被浪费。例如，制造工厂在操作过程中通常会产生多余的热量，通常会释放到环境中。然而，通过实施捕获这些热量的系统，公司可以将其转化为可用的能量。这一过程不仅减少了能源消耗，还降低了温室气体排放，为更可持续的未来做出了贡献。“再生热”的一个最有效的应用可以在热电联产（CHP）系统中看到。这些系统同时从同一能源源产生电力和有用的热能。通过使用“再生热”，热电联产系统可以实现超过80%的效率，而传统方法的效率可能仅达到50%。这一显著的改善凸显了在各个领域利用“再生热”的潜在好处，包括住宅供暖、工业过程和发电。除了工业应用外，“再生热”的概念也可以应用于日常生活中。例如，家庭中的热回收通风系统旨在捕获在通风时会损失的温暖空气。这些系统将来自排出的污浊空气的热量转移到进入的新鲜空气，从而减少额外加热的需求并降低能源账单。此外，“再生热”的使用在可再生能源技术中也可以发挥重要作用。例如，太阳能热系统可以收集阳光并将其转化为热量，然后储存并稍后使用。当与“再生热”系统配合使用时，这些技术可以提供可靠和高效的方式来满足能源需求，同时最大限度地减少对环境的影响。随着我们朝着更加注重能源的社会迈进，理解和实施“再生热”技术将至关重要。各国政府和组织开始意识到促进能源回收和效率政策的重要性。对企业投资“再生热”系统的激励措施可以带来显著的经济和环境效益。总之，利用“再生热”为提高各个领域的能源效率提供了一个有前途的机会。通过捕获和重复使用废热，我们可以减少对化石燃料的依赖，降低温室气体排放，并创造一个更可持续的未来。个人、企业和政府都必须接受这一概念，并投资于利用“再生热”技术，以造福我们的星球。向更可持续的能源格局的过渡不仅是有益的；它对我们的环境和未来几代人来说都是必要的。