water power
简明释义
水动力
英英释义
The energy derived from the movement of water, especially in rivers and streams, that can be harnessed for various uses such as generating electricity. | 从水的运动中获得的能量,尤其是在河流和溪流中,可以用于发电等各种用途。 |
例句
1.Hydroelectric plants harness water power to generate electricity.
水能被水电站利用来发电。
2.The ancient Greeks used water power to operate mills for grinding grain.
古希腊人利用水能来驱动磨坊磨碎谷物。
3.Using water power is an efficient way to produce clean energy.
利用水能是一种高效的清洁能源生产方式。
4.The dam generates electricity through water power, providing energy for thousands of homes.
这个水坝通过水能发电,为成千上万的家庭提供能源。
5.Many countries are investing in renewable energy sources like water power to reduce carbon emissions.
许多国家正在投资可再生能源,如水能,以减少碳排放。
作文
Water power, often referred to as hydropower, is one of the oldest and most reliable sources of renewable energy. It harnesses the energy of flowing or falling water to generate electricity. The process of converting this natural resource into usable energy has been utilized for centuries, dating back to ancient civilizations that used water wheels to grind grain. Today, the technology has evolved significantly, allowing us to generate large amounts of electricity in a sustainable manner. One of the primary advantages of water power (水能) is its ability to produce electricity without emitting harmful greenhouse gases. As the world grapples with the consequences of climate change, transitioning to cleaner energy sources has become imperative. Hydropower plants can provide a stable and consistent supply of energy, making them an essential component of a balanced energy portfolio. Unlike solar or wind energy, which can be intermittent, water power (水能) can be generated continuously as long as there is a sufficient water flow. Moreover, water power (水能) is incredibly efficient. Modern hydropower plants can convert over 90% of the energy in flowing water into electricity, which is significantly higher than other renewable sources. This efficiency not only maximizes energy production but also reduces the overall cost of electricity for consumers. Furthermore, many hydropower facilities can also provide additional services such as flood control, irrigation support, and recreational opportunities, adding to their value in community planning. However, the development of water power (水能) systems is not without challenges. The construction of dams and reservoirs can lead to significant ecological changes, impacting local wildlife and habitats. Fish populations, in particular, can be affected by the barriers that dams create. To mitigate these impacts, many modern hydropower projects incorporate fish ladders and other technologies that allow aquatic life to navigate around obstacles. Another concern regarding water power (水能) is the potential displacement of communities when large reservoirs are created. Historically, this has led to social and economic disruptions for those who rely on the land for their livelihoods. As we move forward, it is crucial to balance the benefits of hydropower with environmental and social considerations. Engaging local communities in the planning process and ensuring fair compensation for displaced individuals can help address these issues. In conclusion, water power (水能) remains a vital resource in our quest for sustainable energy solutions. Its ability to provide reliable, efficient, and clean energy is unmatched by many other sources. However, careful planning and consideration of ecological and social impacts are essential to ensure that the development of hydropower benefits everyone involved. As we continue to innovate and find new ways to harness the power of water, we must remain committed to protecting our environment and supporting our communities. The future of energy is bright, and water power (水能) will undoubtedly play a significant role in shaping it.
水能,通常被称为水电,是一种最古老和最可靠的可再生能源之一。它利用流动或下落的水的能量来发电。将这一自然资源转化为可用能源的过程已经被利用了几个世纪,可以追溯到使用水车磨粉的古代文明。今天,技术已经显著发展,使我们能够以可持续的方式产生大量电力。水能(水能)的主要优势之一是它能够在不排放有害温室气体的情况下生产电力。随着世界应对气候变化的后果,向更清洁的能源来源过渡已变得至关重要。水电厂可以提供稳定和持续的能源供应,使其成为平衡能源组合的重要组成部分。与可能间歇性的太阳能或风能不同,只要有足够的水流,就可以持续产生水能(水能)。此外,水能(水能)非常高效。现代水电厂能够将流动水中超过90%的能量转化为电力,这远高于其他可再生能源。这种效率不仅最大化了能源生产,还降低了消费者的整体电力成本。此外,许多水电设施还可以提供额外的服务,如洪水控制、灌溉支持和休闲机会,从而增加了它们在社区规划中的价值。然而,水能(水能)系统的发展并非没有挑战。大坝和水库的建设可能导致显著的生态变化,影响当地野生动物和栖息地。鱼类种群,尤其是受到大坝造成的障碍的影响。为了减轻这些影响,许多现代水电项目采用了鱼梯和其他技术,使水生生物能够绕过障碍。关于水能(水能)的另一个担忧是,当大型水库形成时,可能会导致社区的迁移。历史上,这导致依赖土地谋生的人们出现社会和经济的干扰。随着我们向前发展,平衡水电的好处与环境和社会考虑至关重要。在规划过程中让当地社区参与,并确保对被迁移个人的公平补偿,可以帮助解决这些问题。总之,水能(水能)在我们寻求可持续能源解决方案的过程中仍然是一种重要资源。它提供可靠、高效和清洁能源的能力是许多其他来源无法比拟的。然而,谨慎的规划和对生态和社会影响的考虑对于确保水电的发展使所有相关方受益至关重要。随着我们不断创新,寻找利用水的力量的新方法,我们必须继续致力于保护我们的环境和支持我们的社区。未来的能源是光明的,水能(水能)无疑将在塑造这一未来中发挥重要作用。
