聚变发电反应堆概念设计研究Conceptual design study on the fusion power reactor FDS-Ⅱ
吴宜灿,汪卫华,刘松林,李静惊,王红艳,陈红丽,陈明亮,张士杰,黄群英,黄德所,郑善良,曾勤,胡丽琴,柏云清,章毛连,李艳芬,李春京,冯岩,宋勇,龙鹏成,FDS课题组
摘要(Abstract):
在广泛分析聚变能相关领域研究发展状况和国际热核聚变实验堆(ITER)物理与技术基础上,提出了一个考虑了技术可行性的聚变发电反应堆概念(称之为FDS Ⅱ)。这个概念具有ITER参数适量外推的等离子体物理与技术水平的聚变堆芯和具有发展潜力的液态锂铅氚增殖包层,在对这个概念进行中子学、热工水力学、力学、安全与环境影响和经济学等一系列计算分析的基础上,给出了初步的概念设计和进一步设计优化的共性原则。
关键词(KeyWords): 聚变发电反应堆;概念设计;液态包层;锂铅增殖剂
基金项目(Foundation): 中科院知识创新工程项目;; 国家自然科学基金项目
作者(Author): 吴宜灿,汪卫华,刘松林,李静惊,王红艳,陈红丽,陈明亮,张士杰,黄群英,黄德所,郑善良,曾勤,胡丽琴,柏云清,章毛连,李艳芬,李春京,冯岩,宋勇,龙鹏成,FDS课题组
参考文献(References):
- [1] 吴宜灿,等.聚变驱动次临界堆概念设计研究[J].核科学与工程,2004,24(1):72~80.
- [2] WuY C, et al,TheFusionDrivenHybridSystem anditsMaterialSelection[J].Journal ofNuclearMaterials,2002,307311:16291636.
- [3] 吴宜灿,等.聚变中子源驱动的次临界清洁核能系统———聚变能技术的早期应用途径[J].核技术,2000,23(8):519525.
- [4] WuYican.Progress inFusionDrivenHybridSystemStudies inChina[J].FusionEngDesign,2002,6364:7378.
- [5] WanYuanxi,HT 7Team.Overview of steady state op eration ofHT 7 and present status of theHT 7U project[J].NuclearFusion,2000,40(6):10571068.
- [6] ITER.Study ofOptions for theReducedTechnicalOb jectives/ReducedCost(RTO/RC )ITER [R ]. reportpresented at theITER CouncilMeetingNo.15,Marchds,):t1011,1999.In:ITER FEAT OutlineDesignReport[R].ITER Meeting,Tokyo,January2000.
- [7] WuYican.A PreliminaryDesign of theDualFunctionLithiumLeadTestBlanketModule forITER. presentedat theITER TBWG 12Meeting,Naka,Japan,March2004.
- [8] TillackM S, et al.D.K.Sze,Fusion power core engi neering for theARIES ST power plant[J].FusionEngi neering andDesign,2003,65:215261.
- [9] NorajitraP, et al.Conceptual design of the dual coolantblanket within the framework of theEU PowerPlantConceptualStudy[R].final report,FZKA 6780,2003.
- [10]KohyamaA, et al.The development of ferritic steels forDEMO Blanket[J ].FusionEngineering andDesign,1998,41:16.
- [11]SokolovYuA, et al.RussianDEMO plant study[J].FusionEngineering andDesign,1998,41:525533.
- [12]储德林,等.聚变驱动次临界堆聚变堆芯参数设计与分析[J].核科学与工程,2004,24(1):81~86.
- [13]黄德所,等.聚变驱动次临界堆经济性分析[J].核科学与工程,2004,24(2):184~192.
- [14]黄群英,等.聚变堆低活化马氏体钢的发展[J].核科学与工程,2004,24(1):56~64.
- [15]刘松林,等.聚变发电反应堆双冷液态锂铅包层模块结构设计与分析[J].核科学与工程,2005,25(1):91~96.
- [16]许德政,等.混合评价核数据库HENDL1.0的研制与基准检验[J].核科学与工程,2004,24(4):366~376.
- [17]李静惊,等.聚变发电反应堆双冷液态锂铅包层氚增殖中子学分析研究[J].核科学与工程,2005,25(1):86~90.
- [18]汪卫华,等.聚变发电反应堆双冷锂铅包层热工水力学设计与分析[J].核科学与工程,待发表.
- [19]王红艳,等.聚变发电反应堆双冷锂铅包层液态金属流动MHD效应计算与分析[J].核科学与工程,待发表.
- [20]HuangQ Y, et al.R&D Activities ofFusionMaterialandTechnology forLiquidLiPbBlankets atASIPP.presented at the8thSymp.OnMaterials forAdvancedEnergySystems andFission&FusionEngineering,Sen dai,Japan,2004.
- [21]Clearance levels for radionuclides in solid materials: ap plication of the exemption principles,InterimReport forComment,IAEA TECDOC 855,Vienna,January1996.
- [22]黄德所,等.聚变电站中工程能量增益与质量功率密度对电成本的影响[J].核科学与工程,2004,24(2):152~156.
- [23] BathkeC G, et al.SystemsStudies[Z]. http://www ferp. ucsd. edu/miller/chap02. pdf,1994.
- [24] DeleneJ G, et al.GENEROMAK FusionPhysics,Engineering, andCostingModel[R].OakRidgeNationalLaboratory re portORNL/TM 10728;1988.
- [25] SmithD L, et al.BlanketComparison andSelectionStudyFinalReport[R].ArgonneNationalLaboratory reportANL/FPP 841,1984.
- [26] WaganerL M, et al.InertialFusionEnergyReactorDesignStudies:PrometheusL &PrometheusH[Z].McDonnellDoug lasCorporationMDC 92E0008,1992.
- [27] 陈红丽,等.聚变发电反应堆包层结构温度和应力计算与分析[J].待发表.