A Concept of Intermediate Heat Exchanger for High-Temperature Gas Reactor Hydrogen and Power Cogeneration System

N. Hirota, A. Terada, Xing L. Yan, Kohei Tanaka, Akihito Otani
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引用次数: 2

Abstract

A new conceptual design of intermediate heat exchanger (IHX) is proposed for application to the gas turbine high temperature reactor system (GTHTR300C) which is being developed by Japan Atomic Energy Agency (JAEA). The GTHTR300C cogenerates hydrogen using the iodine-sulfur (IS) hydrogen production process and electric power using gas turbine. The IHX is used to transport high temperature heat from the nuclear reactor to the hydrogen plant. The IHX proposed in this paper is a horizontal design as opposed to conventional vertical design. Therefore, JAEA investigated the advantage of the horizontal IHX and the economic evaluation when scaling up from conceptual design of high temperature engineering test reactor (HTTR) / IHX to GTHTR300C. To meet the performance requirement, both thermal and structural designs were performed to select heat transfer tube length, tube bundle diameter, insulation thickness, and the length of shell support in a horizontal pressure vessel. It is found that the length of the heat exchanger tube can be shortened and the superalloy-made center pipe structure can be eliminated, which results in reducing the quantity of construction steel by about 30%. Furthermore, the maximum stress concentration in the tubes is found to be significantly reduced such that the creep strength to withstand continuous operation is extended to 40 years, equaling the nuclear reactor life time, without replacement.
高温气体反应器氢电热电联产系统中间换热器的概念
针对日本原子能机构(JAEA)正在开发的燃气轮机高温堆系统(GTHTR300C),提出了一种新的中间换热器概念设计方案。GTHTR300C利用碘硫制氢工艺和燃气轮机发电共同产生氢气。IHX用于将高温热量从核反应堆输送到氢气厂。本文提出的IHX是一种水平设计,而不是传统的垂直设计。因此,日本原子能公司从高温工程试验堆(HTTR) / IHX的概念设计扩大到GTHTR300C,研究了卧式IHX的优势和经济评价。为满足性能要求,对卧式压力容器的传热管长度、管束直径、保温厚度、壳支撑长度进行了热设计和结构设计。研究发现,可以缩短换热器管的长度,消除高温合金制造的中心管结构,从而使建筑钢材的用量减少约30%。此外,发现管中的最大应力集中显著降低,从而承受连续运行的蠕变强度延长至40年,相当于核反应堆的寿命,而无需更换。
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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