放射性废物的SHS固化处理研究及应用

材料导报, 2011, 25(21): 71-90.

放射性废物的SHS固化处理研究及应用

秦志桂 ^1, , 毛仙鹤 ^2, , 陈曼 ^3, , 袁晓宁 ^4, , 刘宁 ^5,

1.四川大学原子核科学技术研究所,辐射物理及技术教育部重点实验室,成都610064;西北核技术研究所,西安710024

2.西北核技术研究所,西安710024

3.西北核技术研究所,西安710024

4.西北核技术研究所,西安710024

5.四川大学原子核科学技术研究所,辐射物理及技术教育部重点实验室,成都610064

关键词：放射性废物 , 自蔓延高温合成 , 固化 , 铝热剂 , 污染砂土 , 锕系核素

Radioactive Waste Immobilisation by Self-propagating High Temperature Synthesis: A Review

采用自蔓延高温合成技术(SHS)固化处理放射性废物是固化方法新的研究方向.分析探讨了SHS固化处理方法的固化机理、研究现状及固化特点.SHS固化具有工艺简单、能量利用效率高、处理过程快速、成本低廉等优点,可针对不同类型的放射性废物选择合适的反应体系,进行产物设计,可直接应用到废物处置点或实现废物就地处置.介绍了近期笔者采用铝热剂自蔓延高温合成固化处理爆炸过程产生的有毒物质和受锕系核素污染的砂土及时两种形态的核废物的模拟固化实验研究.

参考文献

[1]	罗上庚.核废物的安全和环境影响[J].安全与环境学报,2001(02):16-20.
[2]	罗上庚.放射性废物概论[M].北京:原子能出版社,2003
[3]	Shi C;Spence R .Designing of cement-based formula for solidification/stabilization of hazardous, radioactive, and mixed wastes[J].Critical reviews in environmental science and technology,2004(4):391-417.
[4]	车春霞,滕元成,桂强.放射性废物固化处理的研究及应用现状[J].材料导报,2006(02):94-97,101.
[5]	金承黎,易发成,李玉香.碱矿渣水泥固化核废物研究现状[J].核科学与工程,2004(01):27-30.
[6]	Sheng Jiawei;Tang Baolong;Luo Shanggeng .Vitrification of borate waste generated by nuclear power plants[J].Nuclear Technology: A journal of the American Nuclear Society,1999(1):85-92.
[7]	罗上庚.玻璃固化国际现状及发展前景[J].硅酸盐通报,2003(01):42-48.
[8]	Ojovan M I;Lee W E.An introduction to nuclear waste immobilization[M].英国:谢菲尔德大学,2004:315.
[9]	Ringwood A E;Kesson S E;Ware N G et al.Immoblisation of high level nuclear reactor wastes in SYNROC[J].Nature,1979,278(15):219.
[10]	Rodney C Ewing .Nuclear waste forms for actinides[J].Proceedings of the National Academy of Sciences of the United States of America,1999,96(03):3432.
[11]	Katherine I Smith;Michael Colella;Ronald Coope et al.Measured displacement energies of oxygen ions in titanates and zirconates[J].Journal of Nuclear Materials,2003,321:19.
[12]	罗上庚,杨建文,朱鑫璋.人造岩石固化包容锕系核素废物[J].化学学报,2000(12):1608-1614.
[13]	朱鑫璋;罗上庚 .富钙钛锆石型人造岩石固化模拟锕系废物研究[J].核科学与工程,1999,19(02):182.
[14]	殷声.燃烧合成[M].北京:冶金工业出版社,2004:1.
[15]	McCauley J W;Puszynski J A .Self-propagating high-temperature synthesis[J].lnt J,2008,17:58.
[16]	Ojovan M I;Sobolev I A;Dmitriev S A.Thermochemiacal Processing of Radioactive Waste Using Power Metal Fuels[A].Tucson,AZ,2003
[17]	Borovinskaya I P;Barinova T V;Ratnikov et al.Cconsolidation of radioactive waste into mineral-like material by the SHS method[J].International SHS,1998,7(01):129.
[18]	Barinova T V;Borovinskaya I P .SHS immobilization of radio-active wastes[J].Key Engineering Materials,2002,217:193.
[19]	Borovinskaya I P;Barinova T V;Ramikov et al.Self-propagating high-temperature synthesis for immobilization of highlevel waste in mineral-like ceramics[J].Radiochemistry(Moscow Russian Federation),2008,50(03):316.
[20]	Glagovskii E M;Kuprin A V;Pelevin L P et al.Study of matrices synthesided by a self-propagating high-temperature synthesis[J].Atomic energy,1999,87:514.
[21]	Glagovskii E M;Yudintsev S V;Kuprin A V et al.Crystalline host phases for actinides obtained by self-propagating high-temperature synthesis[J].Radionchemistry,2001,43(06):557.
[22]	Karlina O K;Varlackova G A;Ojovan M I.Ash and soil conditioning using exothermic metallic compositions[A].,2001
[23]	Karlina O K;Varlackova G A;Ozhovan M I et al.Conditioning of radiaoactive ash residue in a wave of solid-phase exothermal reactions[J].Atomic Energy,2001,90(01):43.
[24]	M. I. Ojovan;W. E. Lee .Self sustaining vitrification for immobilization of radioactive and toxic waste[J].Glass Technology,2003(6):218-224.
[25]	Ojovan M I;Lee W E;Sobolev I A et al.Thermochemical processing using powder metal fuels of radioactive and hazardous waste[J].Process Mech Eng,2004,218:l.
[26]	Vinokurov S E;Kulyako Yu M;Derevalov S A et al.Immobilization of actinides in pyrochlore-type matrices produced by self-proagating high-temperature synthesis[J].Comptes Rendus Chimie,2007,10:1128.
[27]	张瑞珠 .利用自蔓延高温合成技术固化放射性废物[D].北京:北京科技大学,2005.
[28]	张瑞珠,郭志猛,高峰.用SHS将核废物固定于类矿石[J].稀有金属,2005(01):25-29.
[29]	张瑞珠,郭志猛,贾成厂,卢广峰,张华.自蔓延高温合成钙钛矿型人造岩石固化体[J].北京科技大学学报,2004(05):485-488.
[30]	Glagovsky E M;Kouprine A V;Pelevine L F .Study of matrices synthesised by a self-propagating high-temperature synthesis[J].Journal of Physics,2003,53(SupplA):657.
[31]	Application of thermal technologies for processing of radioactive waste [IAEA-TECDOC-1527][R].Vienna:International Atomic Energy Agency,2006.
[32]	张松林,张庆明,李文杰,王新征,田梅,秦志桂.含沙铝热剂对受爆炸作用有毒物质的SHS固化[J].北京理工大学学报,2009(07):574-578,583.
[33]	张松林,张庆明,秦志桂,田梅.锕系核素污染沙土的铝热剂SHS固化模拟实验[J].硅酸盐通报,2010(01):253-256.
[34]	曾可;金玉仁;吴王锁等.某污染场地内土壤中钚的结合形态[OL].http://www.paper999.com/paper_eokb5o/,2010.
[35]	施燕梅,王旭辉,张海涛,李冬梅,周国庆,李小侠.某地区土壤中241Am和239Pu的化学形态[J].核化学与放射化学,2007(04):248-252.

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材料期刊网

放射性废物的SHS固化处理研究及应用

Radioactive Waste Immobilisation by Self-propagating High Temperature Synthesis: A Review

参考文献