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Cost performance design for high temperature helium heat transport piping of GTHTR300C and HTTR-GT/H $$_{2}$$ plants

野本 恭信; 堀井 翔一; 角田 淳弥; 佐藤 博之; Yan, X.

Nomoto, Yasunobu; Horii, Shoichi; Sumita, Junya; Sato, Hiroyuki; Yan, X.

実用高温ガス炉GTHTR300C及びHTTRに接続する熱利用システム(HTTR-GT/H $$_{2}$$プラント)の熱供給配管設計について報告する。二重管構造と内部断熱管構造を比較検討し、内部断熱管構造の方が配管物量を低減できることより、建設時の配管系据付コストとプラント運転中の熱損失コストを考慮した配管系コストを低減できることを示した。さらに、内部断熱管の外側に保温材を施工することで、熱損失及び高温ヘリウムの温度低下を低減できることを示した。また、耐圧管の材質をHTTRの二重管で使用されたクロム・モリブデン鋼から高温強度に優れたステンレス鋼に変更することで、より小口径で高温ヘリウムの温度低下条件を達成できた。以上の結果に基づき、GTHTR300Cプラント及びHTTR-GT/H $$_{2}$$プラントの熱供給配管仕様を設定した。

This paper presents the cost performance design of heat transport piping systems for GTHTR300C plant and HTTR-GT/H $$_{2}$$ plant. Two types of pipe structure are designed and compared in terms of cost performance. Relative to the coaxial double-pipe structure, the insulated single pipe structure is found to have the advantage in overall cost performance considering both the material quantity and the heat loss because it reduces the quantity of steel used for construction. Furthermore it is possible to reduce the heat loss and temperature reduction of hot helium gas by the attachment of the external insulation. The pressure tube made of type-316 stainless steel with high-temperature strength is possible to achieve the same temperature reduction by smaller diameter than that made of 2 1/4Cr-1Mo steel. It contributes to the reduction of the quantity of steel. Specifications of heat transport piping systems for both plants are determined according to these study results.

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