原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
7期
1228-1233
,共6页
周湘文%卢振明%张杰%邹彦文%刘兵%唐亚平%唐春和
週湘文%盧振明%張傑%鄒彥文%劉兵%唐亞平%唐春和
주상문%로진명%장걸%추언문%류병%당아평%당춘화
高温气冷堆%球形燃料元件%穿衣%冷准等静压%自由铀含量
高溫氣冷堆%毬形燃料元件%穿衣%冷準等靜壓%自由鈾含量
고온기랭퇴%구형연료원건%천의%랭준등정압%자유유함량
high temperature gas-cooled reactor%spherical fuel element%overcoating%cold iso-static moulding%free uranium content
为满足球床式高温气冷堆(HTR-PM)示范工程对球形燃料元件大批量生产、单球高铀含量和低破损率的要求,必须对10MW高温气冷堆时期的球形燃料元件生产工艺进行改进和优化。通过对基体石墨粉、穿衣、压制、车削和热处理等关键设备及相关工艺进行重新设计和优化,建立了规模化的球形燃料元件生产工艺。采用该工艺生产的球形燃料元件,冷态性能如压碎强度、热导、磨损和腐蚀等均满足HTR-PM的技术指标,特别是球形燃料元件的平均自由铀含量与HTR-PM球形燃料元件的自由铀含量指标(6.0×10-5)相差近1个数量级。采用优化后的规模化生产工艺,成功地研制出符合HTR-PM技术要求的球形燃料元件。
為滿足毬床式高溫氣冷堆(HTR-PM)示範工程對毬形燃料元件大批量生產、單毬高鈾含量和低破損率的要求,必鬚對10MW高溫氣冷堆時期的毬形燃料元件生產工藝進行改進和優化。通過對基體石墨粉、穿衣、壓製、車削和熱處理等關鍵設備及相關工藝進行重新設計和優化,建立瞭規模化的毬形燃料元件生產工藝。採用該工藝生產的毬形燃料元件,冷態性能如壓碎彊度、熱導、磨損和腐蝕等均滿足HTR-PM的技術指標,特彆是毬形燃料元件的平均自由鈾含量與HTR-PM毬形燃料元件的自由鈾含量指標(6.0×10-5)相差近1箇數量級。採用優化後的規模化生產工藝,成功地研製齣符閤HTR-PM技術要求的毬形燃料元件。
위만족구상식고온기랭퇴(HTR-PM)시범공정대구형연료원건대비량생산、단구고유함량화저파손솔적요구,필수대10MW고온기랭퇴시기적구형연료원건생산공예진행개진화우화。통과대기체석묵분、천의、압제、차삭화열처리등관건설비급상관공예진행중신설계화우화,건립료규모화적구형연료원건생산공예。채용해공예생산적구형연료원건,랭태성능여압쇄강도、열도、마손화부식등균만족HTR-PM적기술지표,특별시구형연료원건적평균자유유함량여HTR-PM구형연료원건적자유유함량지표(6.0×10-5)상차근1개수량급。채용우화후적규모화생산공예,성공지연제출부합HTR-PM기술요구적구형연료원건。
In order to satisfy the requirements of mass production ,high uranium loading and low free uranium contents of spherical fuel element (SFE) for high temperature gas-cooled reactor pebble-bed module (HTR-PM ) demonstration project ,the manufacture process of SFE for 10 MW HTR should be modified and optimized .The new optimized SFE manufacture process was established through the modification and optimization of key equipment and relative processes such as matrix graphite powder , overcoating , moulding , lathing and heat treatment . T he un-irradiated properties such as crush strength ,thermal conductivity ,abrasive wear and oxidation corrosion of SFE manufac-tured by the new process meet all the design specifications of SFE for HTR-PM .In particular ,the mean free uranium contents of SFEs are nearly one order lower than the design specification (6.0 × 10 -5 ) of SFE for HTR-PM . The qualified SFEs forHTR-PM were successfully prepared with the optimized large-scale manufacture process of SFE .
