tidal energy

简明释义

潮汐能

英英释义

例句

1.The coastal town invested in a new facility to harness tidal energy (潮汐能) for sustainable electricity.

这个沿海小镇投资了一座新设施，以利用tidal energy（潮汐能）来实现可持续电力。

2.Researchers are studying the potential of tidal energy (潮汐能) as a renewable resource.

研究人员正在研究tidal energy（潮汐能）作为可再生资源的潜力。

3.The government has set goals to increase the share of tidal energy (潮汐能) in the national energy mix.

政府设定了目标，以增加tidal energy（潮汐能）在国家能源结构中的比例。

4.A new project aims to create a network of turbines to generate tidal energy (潮汐能) along the river.

一个新项目旨在沿河建立涡轮机网络，以产生tidal energy（潮汐能）。

5.Innovations in technology are making it easier to capture tidal energy (潮汐能) effectively.

技术创新使得有效捕捉tidal energy（潮汐能）变得更加容易。

作文

Tidal energy, 潮汐能, is a form of renewable energy that harnesses the power of the ocean's tides to generate electricity. This energy source is derived from the gravitational forces exerted by the moon and the sun on the Earth's oceans, causing predictable and regular changes in water levels. Tidal energy is considered one of the most reliable forms of renewable energy due to its predictability; unlike solar or wind energy, which can fluctuate based on weather conditions, tidal patterns are consistent and can be forecasted years in advance.The process of generating electricity from 潮汐能 involves the use of tidal turbines or barrages. Tidal turbines work similarly to underwater wind turbines; they capture the kinetic energy of moving water as tides flow in and out. On the other hand, tidal barrages are large dams built across the entrance of an estuary. They operate by allowing water to flow in during high tide and then releasing it back out during low tide, thus driving turbines to generate electricity. Both methods have their advantages and challenges, but they share the common goal of converting the natural ebb and flow of the tides into usable energy.One of the major benefits of 潮汐能 is its minimal environmental impact compared to fossil fuels. Tidal energy systems produce no greenhouse gas emissions during operation, making them an attractive option for reducing our carbon footprint. Additionally, since tidal energy is predictable, it can provide a stable and reliable source of power that complements other renewable energy sources, such as wind and solar.However, the development of 潮汐能 projects is not without challenges. The initial costs of building tidal energy infrastructure can be high, and there may be significant ecological impacts on local marine life. For instance, the construction of tidal barrages can alter the natural flow of water, potentially disrupting habitats for fish and other aquatic species. Therefore, careful planning and environmental assessments are crucial to ensure that these projects do not harm the ecosystems they intend to benefit.Countries around the world are beginning to invest in 潮汐能 as part of their efforts to transition to cleaner energy sources. For example, France has been utilizing the Rance Tidal Power Station since the 1960s, which was one of the first large-scale tidal power plants in the world. More recently, the United Kingdom has been exploring various tidal energy projects, including the Swansea Bay Tidal Lagoon, which aims to harness the power of the tides along the Welsh coast.In conclusion, 潮汐能 presents a promising opportunity for sustainable energy generation. As technology advances and more research is conducted, we can expect to see an increase in the adoption of this clean energy source. By investing in tidal energy, we can move closer to achieving energy independence and combating climate change, while also preserving the health of our planet for future generations.

潮汐能是一种可再生能源，利用海洋潮汐的力量来发电。这种能源来源于月球和太阳对地球海洋施加的引力，导致水位发生可预测和规律性的变化。潮汐能被认为是最可靠的可再生能源之一，因为它的可预测性；与太阳能或风能不同，潮汐模式是一致的，可以提前几年进行预测。从潮汐能中发电的过程涉及使用潮汐涡轮机或坝体。潮汐涡轮机的工作原理类似于水下风力涡轮机；它们在潮水进出时捕捉流动水的动能。另一方面，潮汐坝是建造在河口入口的大型大坝。它们的运作方式是在高潮时允许水流入，然后在低潮时将其释放，从而驱动涡轮机发电。这两种方法各有优缺点，但它们的共同目标是将潮汐的自然涨落转化为可用的能源。潮汐能的一个主要好处是与化石燃料相比，其对环境的影响最小。潮汐能系统在运行过程中不会产生温室气体排放，使其成为减少碳足迹的有吸引力的选择。此外，由于潮汐能是可预测的，它可以提供稳定可靠的电力来源，补充其他可再生能源，如风能和太阳能。然而，开发潮汐能项目并非没有挑战。建设潮汐能源基础设施的初始成本可能很高，并且可能对当地海洋生物造成重大生态影响。例如，潮汐坝的建设可能会改变水的自然流动，潜在地破坏鱼类和其他水生物种的栖息地。因此，仔细规划和环境评估对于确保这些项目不会危害它们旨在惠及的生态系统至关重要。世界各国正在开始投资潮汐能，作为向清洁能源转型努力的一部分。例如，法国自20世纪60年代以来一直在利用朗斯潮汐电站，这是世界上第一个大型潮汐发电厂之一。最近，英国正在探索各种潮汐能源项目，包括斯旺西湾潮汐潟湖，旨在利用威尔士海岸的潮汐力量。总之，潮汐能为可持续能源发电提供了一个有前景的机会。随着技术的进步和更多研究的进行，我们可以期待看到这种清洁能源来源的采用增加。通过投资潮汐能，我们可以更接近实现能源独立和应对气候变化的目标，同时也为未来几代人保护我们星球的健康。