aeromotor
简明释义
英[ˈeərəʊˌməʊtə(r)]美[ˈeərəmoʊtər]
n. 飞机发动机,[航] 航空发动机
英英释义
A device that converts wind energy into mechanical energy, often used to pump water or generate electricity. | 一种将风能转化为机械能的装置,通常用于抽水或发电。 |
单词用法
气动系统 | |
气动设计 | |
气动技术 | |
安装气动机 | |
操作气动机 | |
气动机驱动的 |
同义词
| 风车 | 风车被用来从水井中抽水。 | ||
| 空气发动机 | 空气发动机利用风能进行机械工作。 |
反义词
| 液压马达 | The hydraulic motor is more efficient for heavy lifting tasks. | 液压马达在重物提升任务中更高效。 | |
| 电动机 | 电动机常用于家用电器中。 |
例句
1.With the development of aeromotor technology, more strict speed performance of ball bearing is required.
随着航空发动机技术的发展,对滚珠轴承的速度特性要求也越来越高。
2.With the development of aeromotor technology, more strict speed performance of ball bearing is required.
随着航空发动机技术的发展,对滚珠轴承的速度特性要求也越来越高。
3.He repaired the broken aeromotor on his agricultural equipment.
他修理了农业设备上的损坏的aeromotor。
4.The aeromotor is essential for powering wind turbines in remote areas.
在偏远地区,aeromotor对风力涡轮机的供电至关重要。
5.The aeromotor operates by converting wind energy into mechanical power.
aeromotor通过将风能转化为机械能来运行。
6.The new design of the aeromotor has improved efficiency by 30%.
新设计的aeromotor提高了30%的效率。
7.Farmers are increasingly using aeromotors for irrigation purposes.
农民越来越多地使用aeromotor进行灌溉。
作文
In the modern world, technology plays a crucial role in various fields, including transportation, agriculture, and energy production. One of the fascinating inventions that have emerged from technological advancements is the aeromotor, which refers to a type of windmill or turbine that harnesses wind energy to perform mechanical work. The aeromotor is particularly significant in rural areas where electricity may not be readily available. By converting wind energy into usable power, it can help farmers pump water for irrigation or generate electricity for their homes. The concept of the aeromotor dates back to the late 19th century when it was first developed as a solution to the challenges faced by farmers in arid regions. Before the introduction of the aeromotor, many farmers relied on manual labor or animal power to pump water from wells, which was both time-consuming and inefficient. The invention of the aeromotor revolutionized this process, allowing for a more efficient means of accessing water.As wind energy became more recognized as a sustainable resource, the design of the aeromotor evolved. Modern aeromotors are typically equipped with advanced materials and technology that enhance their efficiency and durability. They can be found in various sizes, from small units suitable for individual farms to larger systems capable of powering entire communities. This adaptability makes the aeromotor an appealing option for those looking to reduce their reliance on fossil fuels and embrace renewable energy sources.The environmental benefits of using an aeromotor are also noteworthy. Unlike traditional energy sources that emit greenhouse gases, wind energy is clean and renewable. By utilizing an aeromotor, individuals and communities can significantly lower their carbon footprint while promoting sustainability. Furthermore, the implementation of aeromotors can stimulate local economies by creating jobs related to manufacturing, installation, and maintenance of these systems.Despite the advantages, there are challenges associated with the widespread adoption of aeromotors. One of the primary concerns is the initial cost of installation, which can be a barrier for some farmers or homeowners. However, many governments and organizations offer incentives and subsidies to encourage the use of renewable energy technologies, including aeromotors. Additionally, ongoing research and development efforts aim to reduce costs and improve the efficiency of these systems, making them more accessible to a broader audience.In conclusion, the aeromotor represents a significant advancement in harnessing wind energy for practical applications. Its ability to provide sustainable power solutions for agricultural and residential needs demonstrates its importance in the context of renewable energy. As we move towards a future that prioritizes environmental sustainability, the aeromotor will undoubtedly play a vital role in shaping our energy landscape. Embracing such technologies not only benefits individual users but also contributes to the global effort to combat climate change and promote a cleaner, greener planet.
在现代世界中,技术在交通、农业和能源生产等各个领域发挥着至关重要的作用。其中一种令人着迷的发明是aeromotor,指的是一种风车或涡轮机,利用风能进行机械工作。aeromotor在电力可能不易获得的农村地区尤为重要。通过将风能转化为可用的动力,它可以帮助农民抽水灌溉或为他们的家提供电力。aeromotor的概念可以追溯到19世纪末,当时它作为解决干旱地区农民面临的挑战的方案首次被开发。在aeromotor出现之前,许多农民依赖人工或动物力量从井中抽水,这既费时又低效。aeromotor的发明彻底改变了这一过程,使得获取水源变得更加高效。随着风能被越来越多地认识为一种可持续资源,aeromotor的设计也不断演变。现代aeromotor通常配备先进的材料和技术,以提高其效率和耐用性。它们的大小各异,从适合单个农场的小型设备到能够为整个社区供电的大型系统。这种适应性使得aeromotor成为那些希望减少对化石燃料依赖并拥抱可再生能源的人们的理想选择。使用aeromotor的环境效益同样值得注意。与排放温室气体的传统能源不同,风能是清洁和可再生的。通过利用aeromotor,个人和社区可以显著降低其碳足迹,同时促进可持续发展。此外,实施aeromotor可以通过创造与制造、安装和维护这些系统相关的工作来刺激地方经济。尽管有诸多优势,广泛采用aeromotor也面临挑战。主要问题之一是安装的初始成本,这可能成为一些农民或房主的障碍。然而,许多政府和组织提供激励措施和补贴,以鼓励使用可再生能源技术,包括aeromotor。此外,持续的研究和开发工作旨在降低成本并提高这些系统的效率,使其对更广泛的受众更具可及性。总之,aeromotor代表了利用风能进行实际应用的重要进展。它为农业和住宅需求提供可持续电力解决方案的能力,展示了其在可再生能源背景下的重要性。随着我们朝着优先考虑环境可持续发展的未来迈进,aeromotor无疑将在塑造我们的能源格局中发挥重要作用。接受这样的技术不仅有利于个人用户,还有助于全球努力应对气候变化,促进一个更清洁、更绿色的星球。
