waterpower
简明释义
n. 水力;(磨房的)用水权;水力可利用的水流
adj. 水力的
英英释义
The power derived from the energy of flowing or falling water, often used to generate electricity or perform mechanical work. | 来自流动或落下的水的能量所产生的动力,通常用于发电或执行机械工作。 |
单词用法
产生水能 | |
利用水能 | |
水能发电 | |
可再生水能 | |
水能资源 | |
水能发电厂 |
同义词
反义词
例句
1.The experimental farm is near the waterpower station.
实验农场靠近水电站。
2.A design method of the safety monitoring system of the construction of the waterpower station based on high speed radio network.
探讨了一种基于无线电台网络的水电站建筑施工安全检测系统的设计方法。
3.Even the most reliable waterpower varied with the seasons and disappeared in a drought.
即使是最可靠的水力也会随着季节变化,也会因干旱而消失。
4.In the following centuries, increasingly sophisticated waterpower mills were built throughout the Roman Empire and beyond its boundaries in the Middle East and northern Europe.
在接下来的几个世纪里,在整个罗马帝国以及在中东和北欧边界以外的地方建造了越来越复杂的水力发电厂。
5.This paper discusses work principle of the valve giving an alarm by waterpower and its application.
本文主要论述了水力报警阀的工作原理及其应用。
6.Vibration signal pretreatment is much important to the vibrant fault diagnosiss ystem of waterpower set.
振动信号的预处理,对于水力发电机组振动故障诊断系统而言是至关重要的。
7.Swelled perlite can use as materials of wastewater disposal with its characteristic of granule and waterpower.
根据膨胀珍珠岩颗粒和水力学特性,可用作水处理过滤池滤料。
8.Hydrodynamic cavitation occurs in many cases, such as in piping with diameter suddenly changed, and in waterpower mechanism.
其中,水力空化现象发生在很多场合,例如在有管径急剧变化的管道中和水力机械中。
9.Results of this thesis provide guiding significance to waterpower design of impeller of the low specific speed centrifugal pump.
对低比转速离心泵叶轮的水力设计具有一定的指导意义。
10.Using waterpower can significantly reduce carbon emissions.
使用水力可以显著减少碳排放。
11.The old mill used to generate electricity using waterpower.
这座老磨坊曾经利用水力发电。
12.The dam was built to harness the potential of waterpower for irrigation.
这座大坝是为了利用水力的潜力进行灌溉而建造的。
13.The city plans to develop a new waterpower facility to meet growing energy demands.
该市计划开发一个新的水力设施以满足日益增长的能源需求。
14.Many countries are investing in waterpower as a renewable energy source.
许多国家正在投资于水力作为可再生能源。
作文
Waterpower, or hydropower, is one of the most ancient and sustainable forms of energy known to humanity. It harnesses the energy of flowing or falling water to generate electricity or perform mechanical work. The concept of using water as a source of power dates back thousands of years, with early civilizations utilizing water wheels for milling grain and other tasks. Today, the technology has evolved significantly, allowing us to capture the immense potential of rivers, dams, and waterfalls to produce clean energy. The importance of waterpower (水力) in the modern world cannot be overstated, as it plays a crucial role in our efforts to combat climate change and reduce reliance on fossil fuels.One of the primary advantages of waterpower (水力) is its renewable nature. Unlike coal or natural gas, which can deplete over time and contribute to environmental degradation, hydropower relies on the natural water cycle. Rainfall replenishes rivers and lakes, ensuring a continuous supply of energy. Furthermore, waterpower (水力) plants produce very low greenhouse gas emissions compared to traditional power plants, making them a cleaner alternative. This aspect is particularly important in the context of global warming, as countries strive to meet their carbon reduction targets.In addition to being environmentally friendly, waterpower (水力) is also highly efficient. Modern hydropower plants can convert over 90% of the energy from flowing water into electricity, making it one of the most efficient energy sources available. This efficiency means that less energy is wasted, contributing to lower costs for consumers and businesses alike. Moreover, the infrastructure for waterpower (水力) generation can provide additional benefits, such as flood control and irrigation support, enhancing agricultural productivity in surrounding areas.However, the development of waterpower (水力) projects is not without challenges. One major concern is the impact on local ecosystems. Dams can alter water flow and disrupt the habitats of fish and other aquatic life, leading to biodiversity loss. Additionally, the construction of large-scale hydropower facilities can displace communities and affect their livelihoods. Therefore, it is essential to approach waterpower (水力) development with careful planning and consideration for environmental and social impacts.Another challenge facing the waterpower (水力) industry is the variability of water availability due to climate change. Changes in precipitation patterns, increased evaporation, and melting glaciers can all affect the amount of water flowing into rivers and reservoirs. As a result, some hydropower plants may experience fluctuations in energy production, which could impact grid stability. To mitigate these risks, it is crucial to invest in research and development of new technologies that enhance the resilience of waterpower (水力) systems.In conclusion, waterpower (水力) represents a vital component of the global energy landscape. Its renewable nature, efficiency, and low emissions make it an attractive option for meeting our energy needs sustainably. However, it is essential to balance the benefits of hydropower with the potential environmental and social impacts. By adopting innovative solutions and prioritizing responsible development, we can harness the full potential of waterpower (水力) while protecting our planet for future generations.
