electrolyzing

简明释义

英[ɪˈlɛktrəʊlaɪzɪŋ]美[ɪˈlɛktroʊlaɪzɪŋ]

n. 电解；电离

v. 电解；电离（electrolyze 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.Electrolyzing anode material used in the invention is inert electrode such as graphite or cermet or metal alloy preferably.

本发明使用的电解阳极材料优选为石墨或金属陶瓷、金属合金等惰性电极。

2.A hydrogen production device of polymer electrolyte membrane by electrolyzing organic aqueous solution belongs to the energy source technology field.

一种聚合物电解质膜电解有机物水溶液制氢装置，属于能源技术领域。

3.The phosphorus-containing pig iron for electrolyzing aluminum is used in connecting the steel claw and the carbon block for electrolytic aluminum production.

一种铝电解用磷生铁，涉及一种用于铝电解铝生产中用于连结钢爪和炭块 的磷生铁。

4.The electrolyzing current efficiency rises by 12%.

电解电流效率相对提高约12%。

5.The present invention provides electrolyzing type ozonizer anode structure.

本发明提供一种电解式臭氧发生器的阳极结构。

6.It is absolutely viable to prepare 6063-alloys by electrolyzing low titanium content aluminum ingot. The method of adding titanium by electrolyte is a new way with low cost and high quality.

用电解低钛铝合金配置6063铝合金是完全可行的，用电解的方法加入二氧化钛是一种质优价廉的新方法。

7.She learned about electrolyzing during her chemistry class and found it fascinating.

她在化学课上学习了电解，觉得这很有趣。

8.The electrolyzing process can also be used to purify water by removing impurities.

该电解过程还可用于通过去除杂质来净化水。

9.In the laboratory, scientists are electrolyzing a salt solution to study its properties.

在实验室，科学家正在电解盐溶液以研究其特性。

10.The electrolyzing of metals is essential in the production of pure metal for industrial applications.

金属的电解在工业应用中生产纯金属是必不可少的。

11.The process of electrolyzing water can produce hydrogen and oxygen gases.

水的电解过程可以产生氢气和氧气。

作文

Electrolyzing is a fascinating process that plays a crucial role in various fields, including chemistry, engineering, and even everyday life. At its core, electrolyzing refers to the chemical decomposition of a substance through the use of an electric current. This method is particularly significant when it comes to the extraction of metals from their ores, the production of chemicals, and the purification of water. Understanding the principles and applications of electrolyzing can provide insights into how we harness electricity for practical purposes.In the context of metal extraction, electrolyzing is often used to separate valuable metals from their respective compounds. For example, aluminum is primarily extracted from bauxite ore through a process known as the Hall-Héroult process, which involves electrolyzing molten aluminum oxide. When an electric current is passed through the molten oxide, aluminum ions migrate to the cathode, where they gain electrons and are reduced to form pure aluminum. This method not only yields high-purity aluminum but also highlights the efficiency of electrolyzing in industrial applications.Moreover, electrolyzing is pivotal in the production of various chemicals. One notable example is the generation of chlorine gas and sodium hydroxide through the electrolysis of brine, which is a concentrated solution of sodium chloride. In this process, the application of an electric current causes the brine to decompose into its constituent elements, producing chlorine at the anode and hydrogen at the cathode, along with sodium hydroxide in the solution. This reaction showcases the versatility of electrolyzing in generating essential chemicals that are widely used in industries ranging from water treatment to manufacturing.Another critical application of electrolyzing is in water purification. The process can effectively remove contaminants from water by breaking down harmful substances through electrochemical reactions. For instance, in some advanced water treatment facilities, electrolyzing is employed to generate reactive species that can oxidize organic pollutants, thereby improving water quality. This method not only enhances the safety of drinking water but also contributes to environmental sustainability by reducing the reliance on harsh chemical treatments.Furthermore, the concept of electrolyzing extends beyond industrial applications. It is also becoming increasingly relevant in the field of renewable energy. For instance, researchers are exploring the potential of using electrolyzing to produce hydrogen fuel from water. By applying an electric current to water, it can be split into hydrogen and oxygen gases, a process known as water electrolysis. The generated hydrogen can then be utilized as a clean fuel source, offering a promising solution to reduce carbon emissions and combat climate change.In conclusion, electrolyzing is a vital process that underpins numerous technological advancements and applications. From metal extraction and chemical production to water purification and renewable energy generation, the significance of electrolyzing cannot be overstated. As we continue to innovate and seek sustainable solutions to global challenges, understanding and leveraging the principles of electrolyzing will undoubtedly play a key role in shaping our future. With ongoing research and development, the possibilities for the application of electrolyzing are boundless, paving the way for a cleaner and more efficient world.

电解是一个迷人的过程，在化学、工程甚至日常生活中都发挥着至关重要的作用。在其核心，electrolyzing 指的是通过电流对物质进行化学分解。这种方法在金属从矿石中提取、化学品生产和水的净化方面尤其重要。理解electrolyzing的原理和应用可以为我们如何利用电力实现实际目的提供见解。在金属提取的背景下，electrolyzing通常用于将贵金属从其化合物中分离。例如，铝主要是通过一种称为霍尔-埃罗法的工艺从铝土矿中提取的，该工艺涉及对熔融铝土矿进行electrolyzing。当电流通过熔融的氧化铝时，铝离子迁移到阴极，在那里它们获得电子并被还原形成纯铝。这种方法不仅产生高纯度的铝，还突显了electrolyzing在工业应用中的效率。此外，electrolyzing在各种化学品的生产中也至关重要。一个显著的例子是通过电解盐水（即浓缩氯化钠溶液）生成氯气和氢氧化钠。在这个过程中，施加电流使盐水分解成其组成元素，在阳极产生氯气，在阴极产生氢气，同时溶液中产生氢氧化钠。这一反应展示了electrolyzing在生成广泛用于水处理、制造等行业的基本化学品中的多功能性。electrolyzing的另一个关键应用是在水净化中。该过程可以通过电化学反应有效去除水中的污染物。例如，在一些先进的水处理设施中，采用electrolyzing生成反应物质，可以氧化有机污染物，从而改善水质。这种方法不仅提高了饮用水的安全性，还通过减少对强化学处理的依赖，促进了环境可持续性。此外，electrolyzing的概念超越了工业应用。它在可再生能源领域也变得越来越相关。例如，研究人员正在探索利用electrolyzing从水中生产氢燃料的潜力。通过对水施加电流，可以将其分解为氢气和氧气，这一过程称为水电解。生成的氢气可以作为清洁燃料使用，为减少碳排放和应对气候变化提供了一种有前景的解决方案。总之，electrolyzing是一个重要的过程，支撑着许多技术进步和应用。从金属提取、化学生产到水净化和可再生能源发电，electrolyzing的重要性不容小觑。随着我们不断创新，寻求全球挑战的可持续解决方案，理解和利用electrolyzing的原理无疑将在塑造我们的未来中发挥关键作用。随着持续的研究和发展，electrolyzing的应用可能性是无限的，为一个更清洁、更高效的世界铺平道路。