energy recovery

简明释义

能量回收

英英释义

例句

1.The new waste management system focuses on energy recovery from landfill gases.

新的废物管理系统专注于从垃圾填埋气体中进行能量回收。

2.The city plans to invest in energy recovery facilities to enhance sustainability.

该市计划投资建设能量回收设施以增强可持续性。

3.Implementing energy recovery technologies can significantly reduce energy costs in manufacturing.

实施能量回收技术可以显著降低制造业的能源成本。

4.Our HVAC system utilizes energy recovery ventilators to improve efficiency.

我们的暖通空调系统利用能量回收通风设备来提高效率。

5.The process of energy recovery from wastewater can help power local treatment plants.

从废水中进行能量回收的过程可以帮助为当地处理厂提供动力。

作文

In today's world, the concept of energy recovery (能量回收) has gained significant attention due to the increasing demand for sustainable energy solutions. As we face challenges such as climate change and depleting natural resources, it is crucial to find innovative ways to harness energy from various sources. Energy recovery refers to the process of capturing and reusing energy that would otherwise be wasted during production or consumption processes. This can occur in many forms, from industrial processes to everyday activities like waste management. One of the most common applications of energy recovery (能量回收) is in the field of waste-to-energy technologies. Municipal solid waste contains a substantial amount of organic material that can be converted into energy through various methods, such as anaerobic digestion or incineration. By implementing these technologies, cities can reduce the volume of waste sent to landfills while simultaneously generating electricity or heat. This not only helps in managing waste but also contributes to a more sustainable energy mix.Another area where energy recovery (能量回收) plays a vital role is in transportation. Electric vehicles (EVs) have become increasingly popular, and many of them are equipped with regenerative braking systems. This technology allows the vehicle to capture kinetic energy that is usually lost during braking and convert it back into electrical energy, which can then be used to recharge the battery. This process increases the overall efficiency of the vehicle and extends its range, making EVs a more attractive option for consumers.In industrial settings, energy recovery (能量回收) can be achieved through heat recovery systems. Many manufacturing processes generate excess heat that is often released into the environment. However, by installing heat exchangers, industries can capture this waste heat and use it to preheat incoming materials or generate steam for power generation. This not only reduces energy costs but also minimizes greenhouse gas emissions, contributing to a cleaner environment.Furthermore, energy recovery (能量回收) is essential in the context of renewable energy sources. For instance, solar panels and wind turbines generate energy, but there are instances when they produce more energy than is needed. In such cases, energy storage systems, such as batteries, can store the excess energy for later use. This form of energy recovery (能量回收) ensures that energy is not wasted and can be utilized when demand is high or when renewable sources are not producing energy.The benefits of energy recovery (能量回收) extend beyond just environmental impacts; they also have economic implications. By recovering energy that would otherwise be wasted, businesses can lower their operational costs and improve their bottom line. Additionally, as governments and organizations around the world push for more sustainable practices, companies that invest in energy recovery (能量回收) technologies may find themselves at a competitive advantage.In conclusion, energy recovery (能量回收) is a critical component of our transition towards a more sustainable future. By capturing and reusing energy from various processes, we can reduce waste, lower energy costs, and minimize our impact on the environment. As technology continues to advance, the potential for energy recovery (能量回收) will only grow, offering new opportunities for innovation and sustainability. It is imperative that we embrace these solutions and work towards a more energy-efficient world.

在当今世界，能量回收的概念因对可持续能源解决方案日益增长的需求而受到广泛关注。随着我们面临气候变化和自然资源枯竭等挑战，寻找创新的方法从各种来源获取能源变得至关重要。能量回收是指捕获并重复利用在生产或消费过程中本会被浪费的能量的过程。这可以发生在许多形式中，从工业过程到日常活动，如废物管理。能量回收最常见的应用之一是在废物转能源技术领域。市政固体废物含有大量有机物质，可以通过厌氧消化或焚烧等多种方法转化为能源。通过实施这些技术，城市可以减少送往填埋场的废物体积，同时生成电力或热量。这不仅有助于管理废物，还有助于形成更可持续的能源结构。能量回收在交通运输领域也发挥着重要作用。电动车（EV）变得越来越受欢迎，许多电动车配备了再生制动系统。这项技术允许车辆捕捉在制动过程中通常会损失的动能，并将其转换回电能，然后用于为电池充电。这个过程提高了车辆的整体效率，延长了其续航里程，使电动车对消费者更具吸引力。在工业环境中，能量回收可以通过热回收系统实现。许多制造过程产生的多余热量通常会释放到环境中。然而，通过安装热交换器，工业可以捕获这些废热，并用于预热进入的材料或发电。这不仅降低了能源成本，还减少了温室气体排放，有助于创造更清洁的环境。此外，能量回收在可再生能源的背景下也是至关重要的。例如，太阳能电池板和风力涡轮机会产生能源，但有时它们产生的能源超过所需。在这种情况下，能源存储系统（如电池）可以存储多余的能源以备后用。这种形式的能量回收确保能源不会被浪费，并可以在需求高或可再生能源未产生能源时使用。能量回收的好处不仅限于环境影响；它们还具有经济意义。通过回收本会被浪费的能源，企业可以降低运营成本，提高盈利能力。此外，随着世界各国政府和组织推动更加可持续的实践，投资于能量回收技术的公司可能会发现自己在竞争中处于有利地位。总之，能量回收是我们向更可持续未来转型的关键组成部分。通过捕获和重复利用来自各种过程的能量，我们可以减少废物、降低能源成本并最小化对环境的影响。随着技术的不断进步，能量回收的潜力只会增加，为创新和可持续性提供新的机会。我们必须接受这些解决方案，致力于创造一个更节能的世界。