reducing power

简明释义

还原力

英英释义

例句

1.In organic chemistry, certain compounds are known for their strong reducing power, making them useful in various reactions.

在有机化学中，某些化合物因其强大的还原能力而被广泛应用于各种反应中。

2.The presence of certain metals can enhance the reducing power of a solution, which is important in electrochemical applications.

某些金属的存在可以增强溶液的还原能力，这在电化学应用中非常重要。

3.The reducing power of hydrogen gas makes it an essential component in many industrial processes.

氢气的还原能力使其成为许多工业过程中的重要组成部分。

4.The chemical reaction demonstrated the reducing power of the metal, allowing it to donate electrons to another substance.

这个化学反应展示了金属的还原能力，使其能够将电子捐赠给另一种物质。

5.We measured the reducing power of the antioxidant to evaluate its effectiveness in preventing oxidation.

我们测量了抗氧化剂的还原能力以评估其防止氧化的有效性。

作文

In recent years, the concept of sustainability has gained significant attention across various sectors. One of the critical aspects of achieving sustainability is the ability to harness and utilize reducing power (还原能力). This term refers to the capacity of a substance or process to donate electrons or reduce the oxidation state of another substance. In environmental science, understanding reducing power is essential for developing strategies that minimize pollution and promote cleaner technologies.For instance, in the context of waste treatment, certain chemical reactions can utilize reducing power to convert harmful substances into less toxic forms. This process not only helps in detoxifying waste but also plays a crucial role in recycling materials, thereby conserving resources and reducing landfill use. By employing materials that possess strong reducing power, industries can significantly lower their environmental impact.Moreover, in the field of energy production, the concept of reducing power is vital when discussing renewable energy sources. For example, biofuels derived from organic materials often have a high reducing power, which means they can effectively replace fossil fuels and reduce greenhouse gas emissions. The transition towards renewable energy is not just about finding alternatives; it is also about understanding how these alternatives can provide the necessary reducing power to combat climate change.In addition to its environmental implications, reducing power also finds applications in various industrial processes. Metal extraction, for example, relies heavily on reducing power to separate metals from their ores. The use of reducing agents allows for the efficient recovery of valuable metals, which is crucial for manufacturing and technology. This illustrates how reducing power is not only an environmental concern but also an economic one.Furthermore, the agricultural sector can benefit from understanding reducing power. Soil health is closely linked to its redox potential, which is influenced by the presence of reducing agents. By managing soil conditions to enhance reducing power, farmers can improve crop yields and reduce the need for chemical fertilizers, leading to more sustainable farming practices.In conclusion, the concept of reducing power is multifaceted and plays a crucial role in various fields, from environmental science to industrial applications and agriculture. As we strive for a more sustainable future, recognizing and utilizing reducing power effectively will be key in addressing some of the most pressing challenges we face today. By focusing on this aspect, we can create innovative solutions that not only enhance our quality of life but also protect our planet for future generations.

近年来，可持续发展的概念在各个领域引起了广泛关注。实现可持续性的关键方面之一是利用和发挥还原能力。这个术语指的是一种物质或过程捐赠电子或降低另一种物质氧化态的能力。在环境科学中，理解还原能力对于制定减少污染和促进清洁技术的策略至关重要。例如，在废物处理的背景下，某些化学反应可以利用还原能力将有害物质转化为较少毒性的形式。这个过程不仅有助于去毒化废物，还在回收材料中发挥了关键作用，从而节约资源并减少填埋场的使用。通过使用具有强大还原能力的材料，工业可以显著降低其环境影响。此外，在能源生产领域，讨论可再生能源时，还原能力的概念至关重要。例如，源自有机材料的生物燃料通常具有很高的还原能力，这意味着它们可以有效替代化石燃料，减少温室气体排放。向可再生能源的过渡不仅仅是寻找替代品；还涉及理解这些替代品如何提供必要的还原能力以应对气候变化。除了环境影响，还原能力在各种工业过程中也有应用。金属提取，例如，严重依赖还原能力从矿石中分离金属。还原剂的使用使得贵金属的高效回收成为可能，这对制造业和技术至关重要。这说明了还原能力不仅是一个环境问题，也是一个经济问题。此外，农业部门也可以从理解还原能力中受益。土壤健康与其氧化还原电位密切相关，而这一点受到还原剂存在的影响。通过管理土壤条件以增强还原能力，农民可以提高作物产量，并减少对化肥的需求，从而实现更可持续的农业实践。总之，还原能力的概念是多方面的，在环境科学、工业应用和农业等多个领域发挥着关键作用。随着我们努力实现更可持续的未来，有效识别和利用还原能力将是解决我们今天面临的一些最紧迫挑战的关键。通过关注这一方面，我们可以创造出不仅提升生活质量，而且保护我们星球的创新解决方案，以惠及后代。