voltaic

简明释义

英[vɒlˈteɪɪk]美[vɒlˈteɪɪk]

adj. 电流的；流电的

英英释义

单词用法

同义词

反义词

例句

1.The solar cell module is mainly used fot solar thermal power generation, solar photo voltaic power generation. public lighting and lighting for residence areas etc.

太阳能电池组件主要应用在热力发电、太阳能光线发电、公共照明、生活照明用电等领域。

2.Alessandro volta's voltaic pile was the first "wet cell battery" that produced a reliable, steady current of electricity.

亚历山德罗·沃尔塔的发电桩是第一个“湿电池”的制作了一个可靠，稳定现行的电力。

3.The "electrode" is not equal to the electric pole. Because every electrode of a voltaic cell consists of two contrary poles.

由于原电池中每一个电极体都包含着两个相反的电极，故“电极体”并不等于电极。

4.The circuit composed of switch and diode is applied to connect photovoltaic modules for the electrical reconfiguration of small-size photo-voltaic array in macro and micro layouts.

在此基础上，提出利用开关管与二极管电路连接光伏模块，实现小型光伏阵列的宏观与微观结构布局电气重构。

5.Courtyards and corridors that channel breezes and are cooled by photo-voltaic panels are not right for northern Europe.

引导清风的庭院和走廊以及为之降温的光电板都不适合北欧。

6.This paper introduces that a new energy-saving reactor, without any supply of mechanical energy, can stir automatically with electrochemical voltaic cell.

介绍了一种利用电化学原电池法，在无外界机械能耗的工况下自动搅拌的新型节能反应器。

7.Solar voltaic cells can be installed nearly anywhere. The primary problem today is that they are still relatively expensive. Prices must be lowered in order for them to gain widespread acceptance.

太阳能电池几乎可装在任何地方，唯一的问题是价格还是相对昂贵，惟有当价格更有竞争力时，太阳能应用才能普及。

8.Solar voltaic cells can be installed nearly anywhere. The primary problem today is that they are still relatively expensive. Prices must be lowered in order for them to gain widespread acceptance.

太阳能电池几乎可装在任何地方，唯一的问题是价格还是相对昂贵，惟有当价格更有竞争力时，太阳能应用才能普及。

9.The scientist conducted an experiment using a voltaic 电池的 cell to demonstrate the principles of electrochemistry.

科学家使用一个电池的 电池的来演示电化学的原理。

10.The voltaic 电池的 cells in this device are designed to be highly efficient.

该设备中的电池的 电池的单元设计得非常高效。

11.Researchers are exploring new materials for voltaic 电池的 applications.

研究人员正在探索用于电池的 电池的应用的新材料。

12.The voltaic 电池的 effect is crucial for understanding how batteries generate electricity.

理解电池的 电池的效应对于理解电池如何产生电力至关重要。

13.Many renewable energy systems utilize voltaic 光伏的 panels to convert sunlight into electricity.

许多可再生能源系统利用光伏的 光伏的面板将阳光转化为电力。

作文

The world we live in today is heavily reliant on technology, and one of the key components that make this technology possible is electricity. Among the various forms of electricity generation, the term voltaic (电池的) refers specifically to the process of converting chemical energy into electrical energy through electrochemical cells. This concept was first introduced by Alessandro Volta in the early 19th century, who created the first true battery known as the voltaic pile. This invention laid the groundwork for modern electrochemistry and has had a profound impact on how we generate and use electricity today.In essence, a voltaic (电池的) cell consists of two different materials called electrodes, which are immersed in an electrolyte solution. When a chemical reaction occurs between the electrodes and the electrolyte, electrons are released, creating a flow of electric current. This principle is what powers countless devices, from simple batteries in remote controls to complex systems in electric vehicles.The importance of voltaic (电池的) technology cannot be overstated. As society moves towards more sustainable energy solutions, the role of voltaic (电池的) cells becomes increasingly critical. For instance, solar panels utilize photovoltaic cells, which are a specific type of voltaic (电池的) cell designed to convert sunlight directly into electricity. This innovation allows us to harness renewable energy sources, reducing our dependence on fossil fuels and minimizing our carbon footprint.Moreover, advancements in voltaic (电池的) technology have led to significant improvements in energy storage solutions. With the rise of electric vehicles and the need for efficient energy storage systems, researchers are continuously exploring new materials and designs for voltaic (电池的) cells. Innovations such as lithium-ion batteries have revolutionized the way we store and use energy, making it possible for us to power our homes, gadgets, and vehicles more efficiently.However, the journey of voltaic (电池的) technology is not without challenges. Issues such as battery disposal and recycling, resource extraction for battery materials, and safety concerns must be addressed as we continue to develop and implement these technologies. It is essential for scientists, engineers, and policymakers to work together to create solutions that maximize the benefits of voltaic (电池的) technology while minimizing its environmental impact.In conclusion, the term voltaic (电池的) encapsulates a significant aspect of our technological landscape. From the early experiments of Alessandro Volta to today's advanced energy solutions, voltaic (电池的) cells play a crucial role in powering our lives. As we continue to innovate and seek sustainable practices, understanding and improving voltaic (电池的) technology will be vital for a greener future. The potential of voltaic (电池的) systems is immense, and their development will undoubtedly shape the energy landscape for generations to come.

我们今天生活的世界在很大程度上依赖于技术，而使这种技术成为可能的关键组成部分之一就是电力。在各种形式的电力生成中，术语voltaic（电池的）特指通过电化学电池将化学能转化为电能的过程。这个概念最早是由亚历山德罗·伏打在19世纪初提出的，他创造了第一个真正的电池，称为伏打电堆。这项发明为现代电化学奠定了基础，对我们今天如何产生和使用电力产生了深远的影响。从本质上讲，voltaic（电池的）电池由两种不同材料称为电极构成，这些电极浸没在电解液中。当电极和电解液之间发生化学反应时，会释放出电子，从而产生电流。这一原理为无数设备提供了动力，从简单的遥控器中的电池到复杂的电动汽车系统。voltaic（电池的）技术的重要性不容小觑。随着社会向更可持续的能源解决方案迈进，voltaic（电池的）电池的作用变得越来越重要。例如，太阳能电池板利用光伏电池，这是一种专门设计用于将阳光直接转化为电力的voltaic（电池的）电池。这一创新使我们能够利用可再生能源，减少对化石燃料的依赖，降低我们的碳足迹。此外，voltaic（电池的）技术的进步显著改善了能源存储解决方案。随着电动汽车的兴起和对高效能源存储系统的需求，研究人员不断探索新材料和设计来改进voltaic（电池的）电池。锂离子电池等创新彻底改变了我们存储和使用能源的方式，使我们能够更高效地为我们的家庭、设备和车辆供电。然而，voltaic（电池的）技术的发展之路并非没有挑战。电池处置和回收、提取电池材料的资源以及安全问题等问题必须得到解决，因为我们继续开发和实施这些技术。科学家、工程师和政策制定者必须共同努力，创造最大限度地发挥voltaic（电池的）技术优势的解决方案，同时减少其对环境的影响。总之，术语voltaic（电池的）概括了我们技术领域的重要方面。从亚历山德罗·伏打的早期实验到今天先进的能源解决方案，voltaic（电池的）电池在为我们的生活提供动力方面发挥着至关重要的作用。随着我们继续创新并寻求可持续的做法，理解和改善voltaic（电池的）技术将对实现更绿色的未来至关重要。voltaic（电池的）系统的潜力巨大，它们的发展无疑将塑造未来几代人的能源格局。