dry type transformer
简明释义
气冷变压器
英英释义
例句
1.We replaced the old oil-filled transformer with a dry type transformer 干式变压器 for better environmental safety.
我们用干式变压器 dry type transformer 替换了旧的油浸式变压器,以提高环境安全性。
2.The installation of the dry type transformer 干式变压器 in the new office building has improved energy efficiency.
新办公大楼中安装的干式变压器 dry type transformer 提高了能源效率。
3.Due to its low maintenance requirements, the dry type transformer 干式变压器 is popular in commercial buildings.
由于维护要求低,干式变压器 dry type transformer 在商业建筑中非常受欢迎。
4.Our factory uses a dry type transformer 干式变压器 to reduce the risk of fire hazards.
我们的工厂使用干式变压器 dry type transformer 来降低火灾风险。
5.The dry type transformer 干式变压器 is ideal for urban areas where space is limited.
在空间有限的城市地区,干式变压器 dry type transformer 是理想选择。
作文
The modern world relies heavily on electrical power, making transformers an essential component in the distribution of electricity. One type of transformer that has gained popularity in recent years is the dry type transformer. Unlike traditional oil-filled transformers, which use oil as a coolant and insulator, the dry type transformer utilizes air or other solid insulation materials. This design offers several advantages that make it suitable for various applications.Firstly, the safety aspect of dry type transformers cannot be overstated. Since they do not contain flammable liquids, there is a significantly reduced risk of fire hazards. This feature makes them ideal for installation in areas where safety is a priority, such as schools, hospitals, and high-rise buildings. Additionally, the absence of oil means that there is no risk of leakage, which can be harmful to the environment.Another advantage of dry type transformers is their maintenance requirements. These transformers are generally easier to maintain than their oil-filled counterparts. The lack of oil means there are fewer components that can fail, leading to lower maintenance costs over time. Furthermore, since they are often installed in indoor environments, they are less susceptible to external factors such as weather conditions that can affect performance.In terms of efficiency, dry type transformers have made significant advancements. They are designed to minimize energy losses during operation, which is crucial in today’s energy-conscious world. Modern designs incorporate advanced materials and technologies that enhance their performance, making them comparable to oil-filled transformers in terms of efficiency.The versatility of dry type transformers is another reason for their growing popularity. They can be used in a variety of applications, from commercial buildings to renewable energy systems. For instance, they are commonly used in wind and solar power installations, where environmental considerations are paramount. Their ability to operate effectively in diverse settings makes them a preferred choice for many engineers and project managers.Moreover, the installation process for dry type transformers is often simpler and quicker than that of oil-filled transformers. Without the need for special containment structures or extensive safety measures related to oil handling, the overall installation time and costs can be reduced. This efficiency can be particularly beneficial in projects with tight deadlines or limited budgets.Despite these advantages, there are some challenges associated with dry type transformers. For example, they may have a lower power rating compared to oil-filled transformers, which can limit their use in very large applications. However, ongoing advancements in technology are continually addressing these limitations, making dry type transformers more capable than ever before.In conclusion, the dry type transformer represents a significant step forward in transformer technology. Its safety, efficiency, low maintenance needs, and versatility make it an attractive option for a wide range of applications. As the demand for reliable and environmentally friendly electrical solutions continues to grow, the role of dry type transformers in the electrical industry is likely to expand even further. By understanding their benefits and limitations, stakeholders can make informed decisions that contribute to a safer and more sustainable energy future.
现代世界对电力的依赖使得变压器成为电力分配中不可或缺的组成部分。近年来,一种越来越受欢迎的变压器类型是干式变压器。与传统的油浸式变压器不同,后者使用油作为冷却剂和绝缘体,干式变压器则利用空气或其他固体绝缘材料。这种设计提供了几个优点,使其适用于各种应用。首先,干式变压器的安全性不容小觑。由于它们不含易燃液体,因此火灾风险显著降低。这个特点使它们非常适合安装在安全优先的区域,如学校、医院和高层建筑。此外,缺乏油意味着没有泄漏的风险,这对环境是有益的。另一个优势是干式变压器的维护要求。这些变压器通常比油浸式变压器更容易维护。没有油意味着故障组件更少,从而导致长期维护成本降低。此外,由于它们通常安装在室内环境中,因此不易受到天气等外部因素的影响。在效率方面,干式变压器取得了显著进展。它们被设计为在运行过程中最小化能量损失,这在当今注重能源的世界中至关重要。现代设计采用先进材料和技术,提高了其性能,使其在效率上与油浸式变压器相媲美。干式变压器的多功能性也是其日益受欢迎的原因之一。它们可以用于各种应用,从商业建筑到可再生能源系统。例如,它们通常用于风能和太阳能发电设施,在这些场合,环境考虑至关重要。它们在不同环境中有效运作的能力使其成为许多工程师和项目经理的首选。此外,干式变压器的安装过程通常比油浸式变压器简单且更快。无需特殊的储存结构或与油处理相关的广泛安全措施,可以减少整体安装时间和成本。这种效率在面临紧迫的截止日期或有限预算的项目中尤其有利。尽管有这些优点,但干式变压器也面临一些挑战。例如,与油浸式变压器相比,它们的功率额定值可能较低,这可能限制其在非常大型应用中的使用。然而,技术的持续进步正在不断解决这些限制,使得干式变压器变得比以往更具能力。总之,干式变压器代表了变压器技术的重要进步。其安全性、效率、低维护需求和多功能性使其成为广泛应用的理想选择。随着对可靠和环保电力解决方案需求的不断增长,干式变压器在电力行业中的角色可能会进一步扩大。通过了解其优缺点,利益相关者可以做出明智的决定,为更安全、更可持续的能源未来做出贡献。
