THERMOPHYSICAL INVESTIGATIONS: FROM THE FIRST TO STAND LARGE-SCALE NUCLEAR ENERGY

J. Kuzina, M. Arnoldov, Yu. I. Orlov, A. Sorokin
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Abstract

The article presents the main research results of thermal physicists of the IPPE from its inception to the present time. Research results in the areas of heat and mass transfer and hydrodynamics of coolants (liquid metals, water), physical chemistry and technology of liquid metal coolants for nuclear power plants for various purposes (nuclear power plants, nuclear submarines, space nuclear power plants), development codes, innovative projects, non-nuclear technologies for the use of liquid metals, heat pipes, analysis and generalization of thermophysical data are considered in the article. As a result of a large complex of experimental and computational studies, the fundamental physicochemical and thermohydraulic regularities of the coolant - impurities - structural materials - protective gas have been studied, scientific foundations have been created for the use of liquid metal coolants in nuclear power. Studies have been carried out to substantiate the technical and economic characteristics of nuclear fuel for operating, under construction and future NPPs of VVER RP, design solutions for passive safety, technical solutions and hydrogen safety devices, heat removal from the reactor through a steam generator and PHRS in case of beyond design basis accidents. As well as design solutions and safety for NPP designs with BN-1200 reactor with sodium coolant, BREST-OD-300 reactor with lead coolant, SVBR-100 reactor with lead-bismuth alloy, MBIR research reactor. The results of these studies made it possible, together with institutes and design organizations, to scientifically substantiate thermal-hydraulic parameters and highly efficient technological processes, develop and practically implement devices and systems that ensure the successful operation of fundamentally new nuclear power plants cooled by water and liquid metals, with original scientific and technical solutions that had no analogue in world practice. R&D works were carried out to substantiate the innovative project VVER with supercritical pressure, the concept of an electro-nuclear subcritical blanket based on the modular principle of constructing an core with liquid-salt melts of fissile materials, studies of thermal hydraulics, mass transfer of high-temperature sodium and the development of a combined coolant purification system to justify the BN-HT reactor with temperature sodium ~900 °C for hydrogen production. The directions of investigations at the present stage are discussed.
热物理研究:从第一个站到大规模核能
本文介绍了IPPE从成立到现在的主要研究成果。本文考虑了冷却剂(液态金属、水)的传热传质和流体动力学、各种用途的核电站(核电站、核潜艇、空间核电站)液态金属冷却剂的物理化学和技术、开发规范、创新项目、使用液态金属的非核技术、热管、热物理数据的分析和推广等领域的研究成果。由于大量复杂的实验和计算研究,研究了冷却剂-杂质-结构材料-保护气体的基本物理化学和热水力规律,为在核电中使用液态金属冷却剂创造了科学基础。已经进行了研究,以证实运行、在建和未来的VVER RP核电站的核燃料的技术和经济特性,被动安全设计方案,技术解决方案和氢安全装置,通过蒸汽发生器从反应堆散热,以及在超出设计基础事故的情况下的PHRS。以及BN-1200钠冷剂堆、BREST-OD-300铅冷剂堆、SVBR-100铅铋合金堆、MBIR研究堆的设计解决方案和安全性。这些研究的结果使我们能够与研究所和设计组织一起,科学地证实热压参数和高效的技术过程,开发和实际实施设备和系统,以确保水和液态金属冷却的全新核电站的成功运行,具有世界实践中没有类似的原始科学和技术解决方案。研发工作的开展是为了验证具有超临界压力的创新项目VVER,基于用裂变材料的液盐熔体构建堆芯的模块化原理的电核亚临界包层概念,热工水学研究,高温钠的传质以及联合冷却剂净化系统的开发,以证明BN-HT温度钠~900°C用于制氢的反应堆是合理的。讨论了现阶段的研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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