residual heat resources

简明释义

余热资源

英英释义

例句

1.Utilizing residual heat resources (剩余热资源) can reduce energy costs for businesses.

利用剩余热资源可以降低企业的能源成本。

2.By optimizing the process, we can significantly increase the efficiency of residual heat resources (剩余热资源) recovery.

通过优化流程，我们可以显著提高剩余热资源的回收效率。

3.The factory implemented a system to capture and utilize residual heat resources (剩余热资源) from its production processes.

工厂实施了一个系统，以捕获和利用其生产过程中产生的剩余热资源。

4.The new technology allows us to convert residual heat resources (剩余热资源) into electricity.

新技术使我们能够将剩余热资源转化为电能。

5.In district heating systems, residual heat resources (剩余热资源) from industrial plants are used to warm residential areas.

在区域供热系统中，来自工业厂房的剩余热资源被用于加热居民区。

作文

In recent years, the concept of sustainable energy has gained significant traction as the world grapples with climate change and the depletion of fossil fuels. One of the promising avenues in this field is the utilization of residual heat resources, which refers to the excess heat generated from industrial processes, power generation, and other activities that can be harnessed for useful purposes. The effective use of these residual heat resources not only enhances energy efficiency but also contributes to reducing greenhouse gas emissions, making it a vital component of a sustainable energy strategy.Firstly, it is essential to understand where these residual heat resources come from. Many industrial processes, such as metal production, chemical manufacturing, and food processing, generate significant amounts of heat as a byproduct. Traditionally, this heat has been released into the atmosphere or waterways, wasting a valuable resource. However, with advancements in technology, industries are now exploring ways to capture and utilize this heat. For instance, heat exchangers can be installed to transfer heat from exhaust gases or hot liquids to other systems, thereby improving overall energy efficiency.Moreover, the use of residual heat resources can lead to substantial economic benefits. By recovering and utilizing waste heat, companies can reduce their energy consumption and lower operational costs. This is particularly important in today’s competitive market, where businesses are constantly seeking ways to cut expenses and improve profitability. Additionally, governments and regulatory bodies are increasingly incentivizing the recovery of residual heat resources through tax breaks and subsidies, further encouraging industries to adopt these practices.The potential applications of residual heat resources are vast. For example, the recovered heat can be used for space heating in buildings, preheating water for industrial processes, or even generating electricity through steam turbines. In district heating systems, waste heat from power plants can be distributed to nearby residential and commercial buildings, providing them with a reliable and efficient heating source. This not only maximizes the utility of the heat produced but also minimizes the need for additional energy sources, thus reducing overall environmental impact.However, despite the clear benefits, there are challenges associated with the implementation of technologies to recover residual heat resources. The initial investment required for retrofitting existing systems can be considerable, and not all industries may have the infrastructure to support heat recovery technologies. Furthermore, there is often a lack of awareness about the potential of these resources among industry stakeholders, which can hinder progress. To overcome these barriers, it is crucial for governments, research institutions, and industry leaders to collaborate and promote education on the importance of residual heat resources.In conclusion, the effective utilization of residual heat resources presents a significant opportunity for enhancing energy efficiency and promoting sustainability. By capturing and repurposing waste heat from industrial processes, we can not only reduce energy consumption and costs but also contribute to a cleaner environment. As we continue to confront the challenges posed by climate change and energy scarcity, it is imperative that we explore every avenue available, including the innovative use of residual heat resources, to build a more sustainable future.

近年来，随着全球应对气候变化和化石燃料枯竭的挑战，可持续能源的概念得到了显著关注。在这一领域，一个有前景的方向是利用残余热资源，即从工业过程、发电和其他活动中产生的多余热量，这些热量可以被收集用于有用的目的。有效利用这些残余热资源不仅提高了能源效率，还帮助减少温室气体排放，使其成为可持续能源战略的重要组成部分。首先，理解这些残余热资源的来源至关重要。许多工业过程，例如金属生产、化工制造和食品加工，作为副产品产生大量热量。传统上，这些热量被释放到大气或水体中，浪费了宝贵的资源。然而，随着技术的进步，工业界正在探索捕获和利用这些热量的方法。例如，可以安装热交换器，将废气或热液体中的热量转移到其他系统，从而提高整体能源效率。此外，利用残余热资源还可以带来可观的经济效益。通过回收和利用废热，公司可以减少能源消耗并降低运营成本。这在当今竞争激烈的市场中尤为重要，各企业都在不断寻求削减开支和提高盈利能力。此外，政府和监管机构越来越多地通过税收减免和补贴来激励废热回收，进一步鼓励企业采用这些做法。残余热资源的潜在应用非常广泛。例如，回收的热量可以用于建筑物的供暖、工业过程的预热水，甚至通过蒸汽涡轮发电。在区域供热系统中，发电厂的废热可以分配给附近的住宅和商业建筑，为它们提供可靠且高效的供热来源。这不仅最大化了所产生热量的效用，还最小化了对额外能源来源的需求，从而减少整体环境影响。然而，尽管好处明显，但实施回收残余热资源技术也面临挑战。改造现有系统所需的初始投资可能相当可观，并不是所有行业都有能力支持热回收技术。此外，行业利益相关者往往缺乏对这些资源潜力的认识，这可能阻碍进展。为了克服这些障碍，政府、研究机构和行业领导者之间的合作与教育至关重要，以提高对残余热资源重要性的认识。总之，有效利用残余热资源为提高能源效率和促进可持续发展提供了重要机会。通过捕获和重新利用工业过程中的废热，我们不仅可以减少能源消耗和成本，还可以为更清洁的环境作出贡献。随着我们继续面对气候变化和能源短缺带来的挑战，探索包括创新利用残余热资源在内的每一个可行途径，以建设更可持续的未来，是非常必要的。