electrolyzer

简明释义

英[ɪˈlektrəʊlaɪzə(r)]美[ɪˈlektrəˌlaɪzər]

n. 电解剂；电解器（等于 electrolyser）

英英释义

单词用法

同义词

反义词

例句

1.ConclusionThe Trichiasis electrolyzer is convenient, safe, effective without bleeding, infection, and scaring for congenital lacrimal fistula.

结论电解倒睫器治疗先天性泪囊瘘管，简便、安全、无出血、无感染、无瘢痕，效果好。

2.Galvanic cell type hydrogen sensors and fuel cells belong to the former, and hydrogen pump, steam electrolyzer and membrane reactors to the latter.

原电池型的氢传感器和燃料电池属于前者，氢泵、蒸汽电解器和膜反应器属于后者。

3.Reversible proton exchange membrane fuel cell (RPEMFC) is an electrochemical cell working both as the water electrolyzer (charging) and fuel cell (discharging).

可逆质子交换膜燃料电池(RPEMFC)是一种在同一装置上实现水电解(充电)和燃料电池发电(放电)两种功能的储能电池。

4.The paper introduces the basic structure of 30dd350 Electrolyzer, generalizes the ways of its damage and the methods of its maintenance.

介绍了30dd350电解槽的基本结构，总结了其损坏形式及维修方法。

5.The corrosion phenomenon of ionic membrane electrolyzer in production process was introduced. The reasons of corrosion were also discussed.

介绍了离子膜电解槽在生产运行过程中的腐蚀现象，讨论了产生腐蚀的原因。

6.The factors influencing electricity consumption in copper electrowinning are the voltage and current efficiency in electrolyzer.

影响铜电积电耗的因素是槽电压和电流效率。

7.The process modification to treat and recycle the waste water from the washing compartments of electrolyzer in Shandong Hengtong Chemical Industry Inc. is introduced.

以山东恒通化工有限公司的工艺改造为例，介绍电解冲箱废水治理及回收利用的一种新方法。

8.The residual electrolyte after separation flows back to electrolyzer. The catalytic membrane in air cathode is made of teflon and activated carbon through mixing and roll pressing.

空气阴极中的催化膜由聚四氟乙烯和活性碳混合压辊而成，催化剂根据电解液的酸碱性而选择。

9.Meanwhile, the causes of electrolyzer a's voltage arising was analyzed, and some preventive measures was mentioned.

同时分析了A槽槽电压升高的原因，介绍了预防事故发生的措施。

10.The new hydrogen production plant uses an advanced electrolyzer to split water into hydrogen and oxygen.

这座新氢气生产厂使用先进的电解槽将水分解为氢气和氧气。

11.Researchers are developing more efficient electrolyzers to reduce the cost of green hydrogen.

研究人员正在开发更高效的电解槽以降低绿色氢气的成本。

12.The electrolyzer operates by applying an electric current to water, facilitating the chemical reaction.

这个电解槽通过对水施加电流来促进化学反应。

13.In renewable energy systems, an electrolyzer can store excess energy in the form of hydrogen.

在可再生能源系统中，电解槽可以将多余的能量以氢气的形式储存。

14.The efficiency of the electrolyzer is crucial for the overall performance of the hydrogen production system.

该电解槽的效率对于氢气生产系统的整体性能至关重要。

作文

In recent years, the world has been facing significant challenges related to energy production and environmental sustainability. As we strive to reduce our carbon footprint and transition to cleaner energy sources, innovative technologies have emerged to facilitate this shift. One such technology is the electrolyzer, a device that plays a crucial role in the production of hydrogen fuel through the process of electrolysis. Understanding the function and importance of an electrolyzer can help us appreciate its potential impact on our energy future. An electrolyzer operates by using electricity to split water molecules into hydrogen and oxygen. This process occurs in two main steps: the anode and the cathode reactions. At the anode, water is oxidized to produce oxygen gas, while at the cathode, hydrogen ions are reduced to form hydrogen gas. The overall reaction can be summarized by the equation: 2H2O → 2H2 + O2. This simple yet effective method allows for the generation of hydrogen, which can be used as a clean fuel alternative. The significance of electrolyzers becomes even more apparent when we consider the growing demand for renewable energy sources. With the increasing reliance on solar and wind energy, there is a need for efficient energy storage solutions. Hydrogen produced by electrolyzers can serve as an energy carrier, allowing excess energy generated during peak production times to be stored and utilized later when demand is high. This capability not only enhances grid stability but also promotes the integration of renewable energy into our daily lives. Moreover, hydrogen produced from electrolyzers can be used in various applications, including fuel cell vehicles, industrial processes, and even heating systems. Fuel cell technology, which converts hydrogen back into electricity, has gained traction as a promising alternative to traditional fossil fuels. By utilizing hydrogen from electrolyzers, we can significantly reduce greenhouse gas emissions and contribute to a cleaner environment. Despite the advantages, there are still challenges to overcome in the widespread adoption of electrolyzers. One of the primary concerns is the cost associated with the technology. Currently, electrolyzers can be expensive to produce and operate, which may hinder their implementation in certain regions. However, ongoing research and development efforts are focused on improving the efficiency and reducing the costs of electrolyzers, making them more accessible to a broader audience. In conclusion, the electrolyzer represents a pivotal technology in the quest for sustainable energy solutions. By facilitating the production of hydrogen fuel, electrolyzers hold the potential to transform our energy landscape and contribute to a greener future. As we continue to innovate and invest in clean energy technologies, it is essential to recognize the role of electrolyzers in our journey towards a more sustainable world. With further advancements and increased awareness, we can harness the power of electrolyzers to create a cleaner, more efficient energy system for generations to come.

近年来，世界面临着与能源生产和环境可持续性相关的重大挑战。在我们努力减少碳足迹并过渡到更清洁的能源来源时，创新技术应运而生，以促进这一转变。其中一种技术是电解槽，它在通过电解法生产氢燃料的过程中发挥着至关重要的作用。理解电解槽的功能和重要性可以帮助我们欣赏其对我们能源未来的潜在影响。 电解槽通过使用电力将水分子分解为氢气和氧气来工作。这个过程分为两个主要步骤：阳极反应和阴极反应。在阳极，水被氧化以产生氧气，而在阴极，氢离子被还原形成氢气。总体反应可以用方程式总结为：2H2O → 2H2 + O2。这种简单而有效的方法使得氢气的生成成为可能，氢气可以作为清洁燃料的替代品。 当我们考虑对可再生能源的日益增长的需求时，电解槽的重要性变得更加明显。随着对太阳能和风能的日益依赖，急需高效的能源储存解决方案。由电解槽生产的氢气可以作为能源载体，允许在高峰生产时储存多余的能源，并在需求高时利用。这种能力不仅增强了电网的稳定性，还促进了可再生能源的整合进入我们的日常生活。 此外，由电解槽生产的氢气可以用于各种应用，包括燃料电池汽车、工业过程，甚至供暖系统。燃料电池技术将氢气转化回电力，作为传统化石燃料的有前途的替代品而受到关注。通过利用来自电解槽的氢气，我们可以显著减少温室气体排放，为创造一个更清洁的环境作出贡献。 尽管存在优势，但在电解槽的广泛应用中仍然面临挑战。主要的担忧之一是与该技术相关的成本。目前，电解槽的生产和运行成本可能很高，这可能会阻碍其在某些地区的实施。然而，正在进行的研究和开发工作专注于提高电解槽的效率并降低成本，使其更容易为更广泛的受众所接受。 总之，电解槽代表了在追求可持续能源解决方案中的一个关键技术。通过促进氢燃料的生产，电解槽具有改变我们能源格局和为更绿色的未来做出贡献的潜力。随着我们继续创新和投资于清洁能源技术，认识到电解槽在我们通往更可持续世界的旅程中的作用是至关重要的。通过进一步的进步和增加的意识，我们可以利用电解槽的力量，为后代创造一个更清洁、更高效的能源系统。