canless fuel assembly

简明释义

无包壳燃料组件

英英释义

例句

1.Our team is developing a new protocol for handling canless fuel assemblies safely.

我们的团队正在制定新的协议，以安全处理无罐燃料组件。

2.The transition to a canless fuel assembly system could reduce waste significantly.

转向无罐燃料组件系统可能显著减少废物。

3.The canless fuel assembly offers better thermal performance compared to traditional designs.

与传统设计相比，无罐燃料组件提供了更好的热性能。

4.Engineers are testing the durability of the canless fuel assembly under extreme conditions.

工程师正在测试无罐燃料组件在极端条件下的耐久性。

5.The new reactor design incorporates a canless fuel assembly to improve efficiency.

新的反应堆设计采用了无罐燃料组件以提高效率。

作文

In the field of nuclear engineering, the term canless fuel assembly refers to a design that eliminates the traditional metal canister typically used in fuel assemblies. This innovation aims to enhance the efficiency and safety of nuclear reactors by allowing for better heat transfer and reduced weight. The canless fuel assembly design is particularly beneficial in advanced reactor systems, where space and weight constraints are critical factors. By removing the can, engineers can optimize the layout of the fuel rods and improve the overall performance of the reactor. One of the primary advantages of a canless fuel assembly is its potential for increased thermal performance. Without the can, the fuel rods can be arranged more closely together, which allows for more efficient heat transfer to the coolant. This is especially important in high-temperature reactors, where maintaining optimal temperatures is crucial for safety and efficiency. Additionally, the absence of a can reduces the material costs associated with manufacturing fuel assemblies, as less metal is required.Moreover, the canless fuel assembly design contributes to safety in nuclear reactors. Traditional fuel assemblies can sometimes lead to issues with heat buildup and uneven temperature distribution. By utilizing a canless design, engineers can create a more uniform distribution of heat, which minimizes the risk of overheating and potential meltdowns. This is a significant consideration in the design of next-generation reactors, where safety is paramount.The development of canless fuel assemblies also opens up new possibilities for the recycling and reprocessing of nuclear fuel. Since the can is often made from materials that are not easily recyclable, its removal simplifies the process of recovering valuable isotopes from spent fuel. This aligns with the growing emphasis on sustainability and resource management in the nuclear industry. As we strive for cleaner energy sources, innovations like the canless fuel assembly can help pave the way for more sustainable nuclear power generation.Furthermore, research into canless fuel assemblies is ongoing, with many institutions exploring various materials and designs to maximize their effectiveness. Advanced materials such as ceramics and composites are being investigated for their potential to withstand high radiation levels while also improving thermal conductivity. The future of nuclear energy may very well depend on these innovations, as the world seeks to transition to low-carbon energy sources.In conclusion, the concept of canless fuel assembly represents a significant advancement in nuclear technology. By eliminating the traditional canister, this design enhances thermal performance, improves safety, and facilitates the recycling of nuclear fuel. As research continues and new materials are developed, the potential applications of canless fuel assemblies could revolutionize the nuclear industry, making it a more efficient and sustainable option for meeting our energy needs. The journey toward safer, cleaner nuclear energy is undoubtedly supported by innovations like the canless fuel assembly, and it is an exciting area of study for engineers and scientists alike.

在核工程领域，短语canless fuel assembly指的是一种设计，消除了传统上用于燃料组件的金属罐。这一创新旨在通过改善热传递和减轻重量来提高核反应堆的效率和安全性。canless fuel assembly设计在先进的反应堆系统中尤为有利，因为空间和重量限制是关键因素。通过去掉罐，工程师可以优化燃料棒的布局，提高反应堆的整体性能。canless fuel assembly的主要优势之一是其提高热性能的潜力。没有罐，燃料棒可以更紧密地排列，这样可以更有效地将热量传递给冷却剂。这在高温反应堆中尤为重要，因为保持最佳温度对于安全和效率至关重要。此外，去掉罐还减少了制造燃料组件所需的材料成本，因为所需的金属更少。此外，canless fuel assembly设计也有助于核反应堆的安全性。传统的燃料组件有时会导致热量积聚和温度分布不均的问题。通过采用无罐设计，工程师可以创造出更均匀的热量分布，从而最小化过热和潜在熔毁的风险。这在下一代反应堆的设计中是一个重要考虑因素，因为安全性至关重要。canless fuel assemblies的发展还为核燃料的回收和再处理开辟了新的可能性。由于罐通常由不易回收的材料制成，其去除简化了从废燃料中回收有价值同位素的过程。这与核工业日益重视可持续性和资源管理的趋势相一致。随着我们努力寻找更清洁的能源来源，像canless fuel assembly这样的创新可以帮助铺平更可持续的核电生产之路。此外，关于canless fuel assemblies的研究仍在继续，许多机构正在探索各种材料和设计，以最大化其有效性。先进的材料如陶瓷和复合材料正在被研究，以期能够承受高辐射水平，同时改善热导率。核能的未来可能在于这些创新，因为世界寻求向低碳能源转型。总之，canless fuel assembly的概念代表了核技术的重要进步。通过消除传统罐体，这一设计提高了热性能，改善了安全性，并促进了核燃料的回收。随着研究的持续进行和新材料的开发，canless fuel assemblies的潜在应用可能会彻底改变核工业，使其成为满足我们能源需求的更高效和可持续的选择。朝着更安全、更清洁的核能之旅无疑得到了像canless fuel assembly这样的创新的支持，这对工程师和科学家来说都是一个令人兴奋的研究领域。