regenerators

简明释义

[rɪˈdʒɛnəreɪtəz][rɪˈdʒɛnəˌreɪtərz]

n. [机]蓄热室(regenerator 的复数形式)

英英释义

Devices or systems that restore or renew energy, materials, or information.

恢复或更新能量、材料或信息的设备或系统。

In electronics, components that convert a signal into a stronger one through amplification.

在电子学中,指通过放大将信号转换为更强信号的组件。

In biology, organisms or cells that can regenerate lost tissues or structures.

在生物学中,指能够再生失去的组织或结构的生物或细胞。

单词用法

thermal regenerators

热再生器

chemical regenerators

化学再生器

biological regenerators

生物再生器

energy regenerators

能源再生器

regenerators for waste heat recovery

用于废热回收的再生器

electrical regenerators

电气再生器

同义词

rejuvenators

恢复活力的物质

The rejuvenators in this skincare product help to improve skin texture.

这种护肤产品中的恢复活力成分有助于改善肌肤质地。

restorers

恢复者

The restorers worked tirelessly to bring the old building back to life.

恢复者们不知疲倦地工作,以使这座旧建筑重焕生机。

revitalizers

复兴者

Natural revitalizers can enhance your energy levels and overall well-being.

天然复兴者可以提高你的能量水平和整体健康。

反义词

degraders

降解剂

The degraders in the environment can break down pollutants.

环境中的降解剂可以分解污染物。

destroyers

破坏者

The destroyers of ecosystems are often human activities.

生态系统的破坏者通常是人类活动。

例句

1.Regenerators, which recover waste heat and provide high temperature air, are key components of the regenerative high temperature air combustion system.

蓄热室是蓄热式高温空气燃烧系统实现余热回收和获得高温空气的关键部件。

2.Both the gas and air are preheated by regenerators, two on each side of the furnace, alternatively heated by the waste gases.

这两种气体和空气预热的再生器,每边两个炉,或者加热的废气。

3.Such compounds might be considered as a special type of antioxidant and classified as inhibitor regenerators.

这些化合物是一种特殊类型的抗氧剂,一般称为抑制剂的再生剂。

4.What is needed next are studies to testhow universal the mechanisms used by various regenerators are.

下一步需要进行的研究是测试各种再生剂所使用的机制其通用程度如何。

5.A comparative test of standard clay bricks, high alumina bricks, silica bricks and periclase bricks which were used as checkers in upper parts of regenerators has been conducted.

本文介绍了用粘土砖、高铝砖、硅砖和方镁石砖作蓄热室上层格子体进行对比试验的情况。

6.Progression is used to the properties of flue temperatures, and rules of selecting typical regenerators are proposed.

通过特性分析提出了典型蓄热室的选取原则,并利用级数验证了选取的有效性。

7.Regenerators will delay the load respond speed of turbine as reheaters when turbines run with load. But all of the turbine models do not take into account of the effect of regenerators.

在汽轮机带负荷运行中,回热器如同再热器一样对汽轮机的负荷响应特性有延滞效应,但传统的汽轮机模型对此未加考虑;

8.Regenerators will delay the load respond speed of turbine as reheaters when turbines run with load. But all of the turbine models do not take into account of the effect of regenerators.

在汽轮机带负荷运行中,回热器如同再热器一样对汽轮机的负荷响应特性有延滞效应,但传统的汽轮机模型对此未加考虑;

9.Many modern HVAC systems incorporate regenerators for better temperature control.

许多现代暖通空调系统都结合了再生器以实现更好的温度控制。

10.In the automotive industry, regenerators help recover energy during braking.

在汽车工业中,再生器帮助在制动过程中回收能量。

11.The regenerators in this power station are designed to optimize fuel usage.

这座发电站中的再生器旨在优化燃料使用。

12.The new energy plant uses advanced regenerators to improve efficiency.

这座新能源厂使用先进的再生器来提高效率。

13.Our research focuses on improving the performance of regenerators in renewable energy systems.

我们的研究专注于提高可再生能源系统中再生器的性能。

作文

In the modern world, we are constantly facing challenges related to energy consumption and environmental sustainability. As we strive to find solutions to these pressing issues, one technology that stands out is the use of regenerators (再生器). These devices play a crucial role in improving energy efficiency and reducing waste, making them an essential component of our efforts to create a more sustainable future.Regenerators are systems designed to recover and reuse energy that would otherwise be lost. They work by capturing excess heat generated during industrial processes or other operations and converting it into usable energy. This not only helps in conserving resources but also minimizes the environmental impact of energy production. For instance, in power plants, regenerators can significantly enhance the overall efficiency of the facility by recovering heat from exhaust gases and using it to preheat incoming fuel or water.The importance of regenerators extends beyond just energy conservation; they also contribute to reducing greenhouse gas emissions. By maximizing the efficiency of energy use, these systems help lower the amount of fossil fuels needed for energy production, thereby decreasing carbon footprints. This is particularly vital in the context of climate change, where every effort counts in mitigating its effects.Moreover, regenerators are not limited to large-scale industrial applications. They can also be found in everyday products such as refrigerators and air conditioners. In these appliances, regenerators help to recycle heat, enhancing their efficiency and reducing electricity consumption. This means that consumers can enjoy lower energy bills while also contributing to environmental conservation.The development of advanced regenerators is an area of active research. Engineers and scientists are continually working on new materials and technologies that can improve the performance of these systems. Innovations such as phase-change materials and advanced thermal storage systems are being explored to make regenerators even more efficient. The goal is to create systems that can operate effectively at various scales, from small residential units to large industrial facilities.Additionally, the integration of regenerators with renewable energy sources presents exciting opportunities. For instance, pairing solar panels with heat recovery systems can lead to significant improvements in energy output and efficiency. As the world moves towards a more sustainable energy landscape, the role of regenerators will become increasingly important.In conclusion, regenerators (再生器) are a vital technology in the quest for energy efficiency and environmental sustainability. They not only help recover and reuse energy but also play a significant role in reducing greenhouse gas emissions. As we continue to innovate and improve these systems, we can look forward to a future where energy is used more wisely, and our planet is better protected. Embracing the potential of regenerators is essential for creating a sustainable world for generations to come.

在现代社会,我们不断面临与能源消耗和环境可持续性相关的挑战。随着我们努力寻找解决这些紧迫问题的方法,一项突出的技术就是使用regenerators(再生器)。这些设备在提高能源效率和减少浪费方面发挥着至关重要的作用,使它们成为我们努力创造更可持续未来的重要组成部分。再生器是旨在回收和重用本该被浪费的能源的系统。它们通过捕获在工业过程或其他操作中产生的多余热量并将其转化为可用能量来工作。这不仅有助于节约资源,还最大限度地减少了能源生产对环境的影响。例如,在发电厂中,regenerators可以显著提高设施的整体效率,通过回收废气中的热量并利用它来预热进入的燃料或水。regenerators的重要性不仅限于能源节约;它们还帮助减少温室气体排放。通过最大化能源使用效率,这些系统有助于降低能源生产所需的化石燃料量,从而减少碳足迹。这在应对气候变化的背景下尤为重要,因为每一项努力都对减轻其影响至关重要。此外,regenerators不仅限于大规模工业应用。它们也可以在日常产品中找到,例如冰箱和空调。在这些设备中,regenerators帮助回收热量,提高其效率并减少电力消耗。这意味着消费者不仅可以享受更低的能源账单,还可以为环境保护做出贡献。先进regenerators的开发是一个活跃的研究领域。工程师和科学家们不断致力于新材料和技术,以提高这些系统的性能。相变材料和先进热储存系统等创新正在被探索,以使regenerators变得更加高效。目标是创造能够在各种规模上有效运行的系统,从小型住宅单元到大型工业设施。此外,将regenerators与可再生能源源结合起来也呈现出令人兴奋的机会。例如,将太阳能电池板与热回收系统配对,可以显著提高能源输出和效率。随着世界向更可持续的能源格局迈进,regenerators的作用将变得越来越重要。总之,regenerators(再生器)是实现能源效率和环境可持续性的重要技术。它们不仅有助于回收和重用能源,还在减少温室气体排放方面发挥着重要作用。随着我们不断创新和改进这些系统,我们可以期待一个在能源使用上更明智、我们的星球得到更好保护的未来。拥抱regenerators的潜力对于创造一个可持续的世界至关重要,为子孙后代铺平道路。