joint european tokamak

简明释义

欧洲联合托卡马克

英英释义

例句

1.The joint european tokamak 欧洲联合聚变实验堆 aims to demonstrate the feasibility of fusion energy for future power generation.

欧洲联合聚变实验堆旨在展示聚变能源在未来发电中的可行性。

2.The research at the joint european tokamak 欧洲联合聚变实验堆 focuses on achieving sustainable nuclear fusion.

在欧洲联合聚变实验堆的研究专注于实现可持续的核聚变。

3.Scientists from various countries collaborate at the joint european tokamak 欧洲联合聚变实验堆 to advance fusion technology.

来自不同国家的科学家在欧洲联合聚变实验堆合作，以推进聚变技术。

4.Recent experiments at the joint european tokamak 欧洲联合聚变实验堆 have shown promising results in plasma stability.

在欧洲联合聚变实验堆的最新实验中，等离子体稳定性显示出令人鼓舞的结果。

5.The joint european tokamak 欧洲联合聚变实验堆 is one of the largest fusion research facilities in the world.

欧洲联合聚变实验堆是世界上最大的聚变研究设施之一。

作文

The quest for sustainable and clean energy has driven scientists and researchers to explore various forms of energy generation. One of the most promising avenues in this search is nuclear fusion, a process that powers the sun and has the potential to provide an almost limitless source of energy here on Earth. Central to the research in nuclear fusion is the concept of magnetic confinement, which aims to contain the hot plasma necessary for fusion reactions. A leading facility in this area is the Joint European Tokamak, or JET, located in the United Kingdom. The Joint European Tokamak (联合欧洲托卡马克) is a collaborative effort among European countries to advance the understanding and development of fusion energy.The Joint European Tokamak serves as a testbed for various fusion technologies and experiments. It was established in 1983 and has since been instrumental in providing valuable data and insights into plasma behavior and stability. By utilizing a toroidal design, the Joint European Tokamak creates a magnetic field that helps confine the plasma, allowing researchers to study the conditions necessary for achieving fusion. This facility has conducted numerous experiments that have contributed to the global knowledge base on fusion technology.One of the significant achievements of the Joint European Tokamak is its role in developing the ITER project, which stands for the International Thermonuclear Experimental Reactor. ITER aims to demonstrate the feasibility of fusion as a large-scale energy source. The findings from the Joint European Tokamak have helped shape the design and operational strategies for ITER, making it a cornerstone of future fusion research.In addition to its technical contributions, the Joint European Tokamak fosters international collaboration. Scientists and engineers from various countries come together to work on fusion research, sharing knowledge and expertise. This collaborative approach not only accelerates progress in fusion technology but also strengthens ties between nations in the pursuit of a common goal: clean and sustainable energy.Moreover, the Joint European Tokamak plays a vital role in educating the next generation of scientists. Through outreach programs and partnerships with universities, it provides students with hands-on experience in cutting-edge research. This investment in education is crucial for ensuring that there will be skilled professionals to carry forward the work in fusion energy as we move towards a more sustainable future.As the world grapples with the challenges of climate change and the need for cleaner energy sources, the importance of facilities like the Joint European Tokamak cannot be overstated. The research conducted at JET not only enhances our understanding of nuclear fusion but also paves the way for practical applications that could revolutionize the energy landscape. In conclusion, the Joint European Tokamak stands as a beacon of hope in the ongoing quest for sustainable energy solutions, embodying the spirit of collaboration and innovation necessary to tackle one of humanity's greatest challenges.

对可持续和清洁能源的追求驱动科学家和研究人员探索各种形式的能源生成。核聚变是其中一种最有前途的途径，这一过程为太阳提供能量，并有潜力在地球上提供几乎无限的能源。核聚变研究的核心概念是磁约束，旨在控制进行聚变反应所需的高温等离子体。联合欧洲托卡马克（Joint European Tokamak）是这一领域的一项领先设施，位于英国。联合欧洲托卡马克（联合欧洲托卡马克）是欧洲各国共同努力推进聚变能源理解和发展的合作项目。联合欧洲托卡马克作为各种聚变技术和实验的试验平台。它成立于1983年，自那时以来，在提供有关等离子体行为和稳定性的重要数据和见解方面发挥了重要作用。通过利用环形设计，联合欧洲托卡马克创造了一种磁场，帮助约束等离子体，使研究人员能够研究实现聚变所需的条件。该设施进行了大量实验，为全球聚变技术知识库做出了贡献。联合欧洲托卡马克的一项重大成就是它在开发ITER项目中的作用，ITER代表国际热核聚变实验堆。ITER旨在证明聚变作为大规模能源来源的可行性。联合欧洲托卡马克的研究结果帮助塑造了ITER的设计和操作策略，使其成为未来聚变研究的基石。除了技术贡献外，联合欧洲托卡马克还促进了国际合作。来自不同国家的科学家和工程师齐心协力开展聚变研究，分享知识和专业技能。这种合作方式不仅加速了聚变技术的进步，还加强了国家之间在追求共同目标——清洁和可持续能源方面的联系。此外，联合欧洲托卡马克在教育下一代科学家方面也发挥着重要作用。通过外展项目和与大学的合作，它为学生提供了在前沿研究中获得实践经验的机会。这项对教育的投资对于确保将来有熟练的专业人员继续聚变能源的工作至关重要。随着世界面临气候变化和对更清洁能源需求的挑战，像联合欧洲托卡马克这样的设施的重要性不容小觑。在JET进行的研究不仅增强了我们对核聚变的理解，而且为可能改变能源格局的实际应用铺平了道路。总之，联合欧洲托卡马克在持续追求可持续能源解决方案的过程中，作为希望的灯塔，体现了应对人类最大挑战所需的合作与创新精神。