tokamak demonstration reactor

简明释义

托卡马克示范反应堆

英英释义

例句

1.The scientists are working on a new design for the tokamak demonstration reactor 托卡马克示范反应堆 to improve energy efficiency.

科学家们正在研究一种新的设计，以提高tokamak demonstration reactor 托卡马克示范反应堆的能效。

2.The government has allocated funds for the construction of a tokamak demonstration reactor 托卡马克示范反应堆 in the next fiscal year.

政府已拨款用于下一财政年度建设tokamak demonstration reactor 托卡马克示范反应堆。

3.During the conference, researchers presented their findings on the tokamak demonstration reactor 托卡马克示范反应堆 technology.

在会议期间，研究人员展示了他们对tokamak demonstration reactor 托卡马克示范反应堆技术的研究成果。

4.The success of the tokamak demonstration reactor 托卡马克示范反应堆 could lead to breakthroughs in fusion energy.

成功的tokamak demonstration reactor 托卡马克示范反应堆可能会导致核聚变能源的突破。

5.Engineers are optimizing the magnetic confinement system in the tokamak demonstration reactor 托卡马克示范反应堆 to enhance stability.

工程师们正在优化tokamak demonstration reactor 托卡马克示范反应堆中的磁约束系统，以增强稳定性。

作文

The pursuit of sustainable and clean energy sources has led scientists and engineers to explore various methods of harnessing nuclear fusion. One of the most promising approaches is the development of a tokamak demonstration reactor, which aims to replicate the processes that power the sun. A tokamak demonstration reactor is a device that uses magnetic fields to confine plasma in the shape of a torus, thereby facilitating the conditions necessary for nuclear fusion to occur. This technology has gained significant attention due to its potential to provide an almost limitless source of energy without the harmful byproducts associated with fossil fuels or traditional nuclear fission. The principle behind a tokamak demonstration reactor lies in the ability to achieve extremely high temperatures and pressures, allowing hydrogen isotopes to collide and fuse together, releasing vast amounts of energy in the process. The challenge, however, is to maintain the stability of the plasma and contain it long enough for fusion to take place. Scientists have been working on various designs and configurations to optimize the performance of these reactors, with the ultimate goal of achieving a net positive energy output.Countries around the world are investing heavily in research and development of tokamak demonstration reactors. For instance, the ITER project in France represents one of the largest international collaborations aimed at demonstrating the feasibility of fusion as a large-scale energy source. By constructing a tokamak demonstration reactor that incorporates cutting-edge technology and innovative engineering solutions, researchers hope to pave the way for future commercial fusion power plants.The implications of successfully developing a tokamak demonstration reactor are profound. If fusion energy can be harnessed effectively, it could significantly reduce our reliance on fossil fuels, decrease greenhouse gas emissions, and provide a stable energy supply that is less susceptible to fluctuations in resource availability. Furthermore, the abundant fuel sources for fusion, such as deuterium and tritium, can be extracted from water and lithium, making it a more sustainable option compared to conventional energy sources.Despite the challenges that lie ahead, the advancements made in the field of fusion research and the ongoing efforts to create a functional tokamak demonstration reactor are a testament to human ingenuity and determination. As we continue to face the pressing issues of climate change and energy security, the successful implementation of fusion technology could mark a turning point in our quest for sustainable energy solutions. In conclusion, a tokamak demonstration reactor represents not only a scientific endeavor but also a vital step towards a cleaner and more sustainable future for our planet.

可持续和清洁能源的追求使科学家和工程师探索各种利用核聚变的方法。其中最有前景的方法之一是开发托卡马克示范反应堆，旨在复制太阳的能量产生过程。托卡马克示范反应堆是一种利用磁场将等离子体限制在环形形状的装置，从而促进核聚变所需条件的实现。这项技术因其能够提供几乎无限的能源来源而受到广泛关注，而不会产生与化石燃料或传统核裂变相关的有害副产品。托卡马克示范反应堆背后的原理在于能够达到极高的温度和压力，使氢同位素能够碰撞并融合在一起，从而释放出大量能量。然而，挑战在于维持等离子体的稳定性，并将其限制足够长的时间以进行聚变。科学家们一直在研究各种设计和配置，以优化这些反应堆的性能，最终目标是实现净正能量输出。世界各国正在大力投资于托卡马克示范反应堆的研发。例如，法国的ITER项目代表了一个最大的国际合作项目，旨在证明聚变作为大规模能源来源的可行性。通过建设一座结合尖端技术和创新工程解决方案的托卡马克示范反应堆，研究人员希望为未来商业聚变电厂铺平道路。成功开发托卡马克示范反应堆的意义深远。如果能够有效地利用聚变能源，它将显著减少我们对化石燃料的依赖，降低温室气体排放，并提供一种不易受资源可用性波动影响的稳定能源供应。此外，聚变的丰富燃料来源，如氘和氚，可以从水和锂中提取，使其成为比传统能源来源更可持续的选择。尽管面临着诸多挑战，但在聚变研究领域取得的进展以及创建功能性托卡马克示范反应堆的持续努力，证明了人类的智慧和决心。随着我们继续面临气候变化和能源安全的紧迫问题，成功实施聚变技术可能标志着我们追求可持续能源解决方案的转折点。总之，托卡马克示范反应堆不仅代表了一项科学努力，也为我们星球的更清洁、更可持续的未来迈出了重要一步。