waste-heat loop
简明释义
废热回路
英英释义
例句
1.The waste-heat loop 废热循环 can increase overall system efficiency by up to 30%.
这个waste-heat loop 废热循环可以将整体系统效率提高30%。
2.The waste-heat loop 废热循环 captures excess heat from machinery and repurposes it for heating.
这个waste-heat loop 废热循环捕获机器的多余热量,并将其重新用于供暖。
3.Engineers are designing a new waste-heat loop 废热循环 system for the upcoming power plant.
工程师们正在为即将建设的发电厂设计一个新的waste-heat loop 废热循环系统。
4.By utilizing a waste-heat loop 废热循环, the plant reduced its carbon footprint significantly.
通过利用waste-heat loop 废热循环,工厂显著降低了其碳足迹。
5.The factory implemented a waste-heat loop 废热循环 to improve energy efficiency.
工厂实施了一个waste-heat loop 废热循环以提高能源效率。
作文
In the modern world, energy efficiency has become a crucial topic of discussion among engineers, environmentalists, and policymakers alike. One innovative concept that has gained traction in recent years is the waste-heat loop. This system is designed to capture and reuse heat that would otherwise be lost in various industrial processes, thereby improving overall energy efficiency and reducing greenhouse gas emissions. Understanding the significance and functionality of a waste-heat loop can provide insights into how industries can operate more sustainably.A waste-heat loop typically involves a closed-loop system where excess heat generated from processes such as manufacturing, power generation, or even data centers is collected and redirected for reuse. For instance, in a manufacturing plant, machinery generates significant amounts of heat during operation. Instead of allowing this heat to dissipate into the environment, a waste-heat loop captures it and transfers it to another part of the facility where it can be used for space heating, water heating, or even powering other processes.The benefits of implementing a waste-heat loop are manifold. Firstly, it leads to substantial cost savings for businesses. By reusing heat that would otherwise require additional energy to produce, companies can lower their energy bills significantly. Furthermore, these systems contribute to sustainability efforts by minimizing waste and reducing reliance on fossil fuels. In an era where climate change poses a significant threat to our planet, technologies like the waste-heat loop play an essential role in mitigating environmental impact.Moreover, the implementation of a waste-heat loop can enhance operational efficiency. Industries that adopt this technology often find that they can optimize their processes, leading to increased productivity. For example, in a power plant, the heat recovered from the exhaust can be utilized to preheat incoming feedwater, which improves the overall efficiency of the power generation cycle.Despite its advantages, the adoption of a waste-heat loop is not without challenges. The initial investment required for installing such systems can be significant, and not all facilities may have the infrastructure to support them. Additionally, the effectiveness of a waste-heat loop depends on the specific conditions of each facility, including the type of processes involved and the volume of waste heat generated. Therefore, careful planning and assessment are necessary to ensure that the system will deliver the expected benefits.In conclusion, the waste-heat loop represents a promising solution for enhancing energy efficiency and sustainability in various industries. By capturing and reusing waste heat, businesses can reduce costs, lower their environmental footprint, and improve their overall operational efficiency. As we continue to face the challenges of climate change and resource scarcity, embracing technologies like the waste-heat loop will be vital for creating a more sustainable future. It is imperative for industries to explore and invest in such innovative solutions to ensure long-term viability and responsibility towards the environment.
在现代社会中,能源效率已成为工程师、环保主义者和政策制定者之间讨论的重要话题。近年来,一个创新的概念——waste-heat loop(废热循环)逐渐受到关注。该系统旨在捕获和重新利用在各种工业过程中本会被浪费的热量,从而提高整体能源效率并减少温室气体排放。理解waste-heat loop的重要性和功能,可以为我们提供有关工业如何更可持续运营的见解。waste-heat loop通常涉及一个封闭循环系统,其中来自制造、发电甚至数据中心等过程产生的多余热量被收集并重新导向以供再利用。例如,在制造工厂中,机器在操作过程中会产生大量热量。如果不让这些热量散失到环境中,waste-heat loop就能够捕获这些热量,并将其转移到设施的其他部分,用于空间加热、热水加热,甚至驱动其他过程。实施waste-heat loop的好处是多方面的。首先,它为企业带来了可观的成本节省。通过重新使用本来需要额外能量来产生的热量,公司可以显著降低能源账单。此外,这些系统通过最小化浪费和减少对化石燃料的依赖,促进了可持续发展。在气候变化对我们星球构成重大威胁的时代,像waste-heat loop这样的技术在减轻环境影响方面发挥着至关重要的作用。此外,实施waste-heat loop还可以提高运营效率。采用这项技术的行业往往发现,他们能够优化流程,从而提高生产力。例如,在发电厂中,从排气中回收的热量可以用于预热进入的给水,从而改善发电循环的整体效率。尽管有诸多优点,但采用waste-heat loop并非没有挑战。安装此类系统所需的初始投资可能相当可观,并且并非所有设施都具备支持它们的基础设施。此外,waste-heat loop的有效性取决于每个设施的具体条件,包括涉及的过程类型和产生的废热量。因此,进行仔细的规划和评估是必要的,以确保该系统能够提供预期的好处。总之,waste-heat loop代表了一种有前景的解决方案,可提高各行业的能源效率和可持续性。通过捕获和重新利用废热,企业可以降低成本、减少环境足迹并提高整体运营效率。随着我们继续面临气候变化和资源短缺的挑战,拥抱像waste-heat loop这样的技术对于创造一个更可持续的未来至关重要。各行业必须探索和投资于这些创新解决方案,以确保长期的生存能力和对环境的责任。
