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| 研究生: |
江志善 Chih-Shan Chiang |
|---|---|
| 論文名稱: |
高階核廢料最終處置場之完全耦合熱-水-力學之等效模型分析 |
| 指導教授: |
張瑞宏
Jui-Hung Chang |
| 口試委員: | |
| 學位類別: |
碩士 Master |
| 系所名稱: |
工學院 - 土木工程學系 Department of Civil Engineering |
| 論文出版年: | 2016 |
| 畢業學年度: | 104 |
| 語文別: | 中文 |
| 論文頁數: | 115 |
| 中文關鍵詞: | 完全耦合熱-水-力學分析 、深層地層處置 、多處置孔分析 |
| 外文關鍵詞: | Full coupled thermos-hydro-mechanical, Deep geological disposal, Multi disposal hole analysis |
| 相關次數: | 點閱:9 下載:0 |
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高階核廢料其高放射線與殘存衰變熱等有害物質,必須對生物圈與環境是無害的,國際間均認為最安全可行的處理措施為深地層處置。
本研究以有限元素軟體ABAQUS進行完全耦合熱-水-力學之分析。處置場分析研究以深地層處置之概念為基礎,參考日本H12相關文獻,考慮熱源、緩衝材料、回填材料、母岩之熱與水力特性進行分析並對照文獻之結果。
多處置孔分析,以「代表體積單元」分析,其幾何配置與材料參數係參考核能研究所(2002)之概念設計。但真實的處置場幾何配置與材料性質並不會完全相同,在此情況下,「代表體積單元」則不適合作為分析使用,因此採用的模型概念為「處置設施多孔幾何配置」,較能呈現出真實情況。
Spent nuclear fuel waste must be harmless to the environment and zbiological. After the international evaluation and research, deep geological disposal is considered the most safe and effective treatment measures.
In this study, based upon the concept of the deep disposal method, thinking about the thermal, hydrological and mechanical properties of the paper in Japan(JNC H12). Considering the spent nuclear fuel waste, buffer materials, backfill material and rock material thermal and hydraulic characteristics of for analysis and comparison of the results of the literature countries.
The distance of deposition holes and disposal field size analysis using the Taiwan Power Company's exploration data, and considering domestic literature of the size of disposal site and material properties, In the disposal site, We use concept of “Representative volume element” to analysis, and If the shape or material properties is different ,we need use the Multi disposal hole analysis, to Presented the real situation.
參考文獻
[1] JCN, “H12-Project to Establish the Scientific and Technical Basis for HLW Disposal in Japan”, Japan Nuclear Cycle Development Institute, 2000.
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[3] 劉尚志、林鴻旭、焦自強「高放射性廢料深層地質處置」,原子委員會核能彙刊,第二十四卷,第五期,第2-33頁,1988。
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[5] KBS, “Final Storage of Spent Nuclear Fuel – KBS-3,ⅠGeneral ; Ⅱ Geology ; Ⅲ: Barriers ; Ⅳ Safety”, Swedish Nuclear Fuel Supply Co/Division KBS, 1983.
[6] SKB, “Final disposal of spent nuclear fuel. Importance of the bedrock for safety”, SKB Technical Report 92-20, 1992.
[7] Thunvik, R. and Braester, C., “Heat propagation from a radioactive waste repository-Complementary calculations for the SKB 91 reference canister”, SKB Technical Report 91-61, 1991.
[8] Lennart Börgesson, and Jan Hernelind, “Coupled thermal-hydro-Mechanical calculations of the water saturation phase of a KBS-3 deposition hole”, SKB Technical Report 99-41, 1999.
[9] 陳朝旭,「用過核廢料深層地下處置設計之研究」,國立中央大學,碩士論文,2002。
[10] Bear, J., Dynamics of fluids in porous media, American Elsevier Publishing Company, Dover, New York, 1972.
[11] 謝馨輝,「核廢料地下處置之熱傳導及初步熱應變分析」,國立中央大學,碩士論文,2003。
[12] JNC,Evaluation of Coupled Thermo-Hydro-Mechanical Phenomena in the Near Field for Geological Diaposal of High-Level Radioactive Waste
[13] 鄭博昇,「台灣用過核燃料最終處置之參數影響分析」,國立中央大學,所碩士論文,2014
[14] SKB, “Deep Repository for Spent Nuclear Fuel: SR 97 Post-Closure Safety”, SKB Technical Report 99-06, 1999.
