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JAEA-Research 2010-034 5.1.3 Hydraulic characteristic ············································································································· 82 5.1.4 Geochemical characteristic ········································································································ 84 5.2 Data setting on the shotcrete ·········································································································· 85 5.2.1 Thermal characteristic ················································································································ 85 5.2.2 Mechanical characteristic ··········································································································· 85 5.2.3 Hydraulic characteristic ············································································································· 85 5.2.4 Geochemical characteristic ········································································································ 86 5.3 Data setting on the waste and the over-pack ·················································································· 87 5.4 Data setting on the buffer material ································································································· 88 5.5 FEM model and boundary conditions ···························································································· 89 5.5.1 Outline of analytical region ········································································································ 89 5.5.2 Optimization of disposal pit intervals using thermal analysis ····················································· 90 5.6 Results ··········································································································································· 91 6. Conclusion ······································································································································· 124 Acknowledgement ···································································································································· 125 References ................................................................................................................................................... 126 vi
JAEA-Research 2010-034 表目次表 3.1-1 THMC モデルにおける連成相関マトリクス ············································································· 7 表 3.2-1 材料比熱・熱伝導率の依存性関数 ··························································································· 9 表 3.3-1 表データとしての比透水係数 ································································································ 13 表 3.3-2 Na 型および Ca 型化クニゲル V1 の交換性陽イオン成分分析結果 ···································· 14 表 3.3-3 液状水と蒸気水に関する記号一覧 ························································································· 16 表 3.3-4 液状水と蒸気水の質量,質量分率,体積分率の一覧 ·························································· 19 表 3.4-1 膨潤評価式における材料パラメータの設定例 ······································································· 23 表 3.4-2 膨潤評価式における物理定数例 ······························································································· 23 表 3.4-3 膨潤評価式における環境条件パラメータ例 ··········································································· 23 表 3.4-4 膨潤応力の飽和度依存性 ·········································································································· 24 表 3.4-5 軟岩系岩盤に対する吹き付けコンクリートの仕様 ······························································· 26 表 3.6-1 地球化学特性に関する支配方程式群 ······················································································· 33 表 3.6-2 Atkinson モデルによる CSH ゲルと端成分の解離式および平衡定数 ··································· 36 表 3.6-3 杉山モデルによる溶解平衡定数 ······························································································· 36 表 4.1-1 TOUGHREACT との比較解析ケース ······················································································· 43 表 4.1-2 基本パラメータ ·························································································································· 43 表 4.1-3 化学条件 ······································································································································ 44 表 4.1-4 イオン交換反応条件 ·················································································································· 44 表 4.2-1 塩濃縮試験仕様の一覧 ·············································································································· 52 表 4.2-2 熱電対の設置位置 ······················································································································ 53 表 4.2-3 分析対象元素と分析方法 ·········································································································· 54 表 4.2-4 一次元塩濃縮試験結果の一覧··································································································· 55 表 4.2-5 三次元塩濃縮試験結果の一覧··································································································· 57 表 4.2-6 緩衝材に占める層間水量の推定 ······························································································· 60 表 4.2-7 一次元塩濃縮試験における間隙水組成の PHREEQC による推定値 ···································· 61 表 4.2-8 三次元塩濃縮試験における間隙水組成の PHREEQC による推定値 ···································· 63 表 4.2-9 緩衝材の主な入力条件 ·············································································································· 66 表 4.2-10 PHREEQC により設定した緩衝材中の初期間隙水組成 ······················································ 67 表 5.1-1 解析における熱特性の設定値··································································································· 80 表 5.1-2 地質環境における物理・力学特性の設定値 ··········································································· 81 表 5.1-3 解析における固有透過度の設定値 ··························································································· 83 表 5.1-4 van Genuchten パラメータ ········································································································· 83 表 5.1-5 解析における地球化学特性の設定値 ······················································································· 84 表 5.2-1 コンクリート支保工の熱特性の設定値 ··················································································· 85 表 5.2-2 軟岩系岩盤に対する吹き付けコンクリートの仕様 ······························································· 85 表 5.2-3 コンクリート支保工の固有透過度の設定値 ··········································································· 85 表 5.2-4 コンクリート支保工の不飽和水理特性の設定値 ··································································· 86 表 5.2-5 コンクリート支保工の地球化学特性の設定値 ······································································· 87 表 5.3-1 オーバーパックとガラス固化体の熱特性の設定値 ······························································· 87 表 5.3-2 ガラス固化体の発熱量一覧 ······································································································ 88 表 5.3-3 オーバーパックとガラス固化体の物理・力学・水理特性の設定値 ···································· 88 vii
Page 3 and 4: JAEA-Research 2010-034 緩衝材中
Page 5 and 6: JAEA-Research 2010-034 目次 1.
Page 7: JAEA-Research 2010-034 Contents 1.
Page 11: JAEA-Research 2010-034 図 5.1-4
Page 14 and 15: JAEA-Research 2010-034 る試験(Zh
Page 16 and 17: JAEA-Research 2010-034 2. 熱-水-
Page 18 and 19: JAEA-Research 2010-034 3. 熱-水-
Page 20 and 21: JAEA-Research 2010-034 3.2 熱特
Page 22 and 23: JAEA-Research 2010-034 3.3 水理
Page 24 and 25: JAEA-Research 2010-034 また、水
Page 26 and 27: a � Sr � 0. 7 � � S r � 0
Page 28 and 29: ペースト空隙率 θ p (%) 90 8
Page 30 and 31: V vap � �n�� w �lV Mpv
Page 32 and 33: JAEA-Research 2010-034 表面積の
Page 34 and 35: (=6.023×10 23 )である。 JAEA-R
Page 36 and 37: 膨潤応力(MPa) 正規化膨潤
Page 38 and 39: (2)支保工の弾性係数 JAEA-Re
Page 40 and 41: JAEA-Research 2010-034 を実流速
Page 42 and 43: 要素格子節点 JAEA-Research
Page 44 and 45: ② フォン・ノイマン基準
Page 46 and 47: JAEA-Research 2010-034 一般に Da
Page 48 and 49: JAEA-Research 2010-034 表 3.6-2 At
Page 50 and 51: JAEA-Research 2010-034 但し、図
Page 52 and 53: R Na t � � � �liquid NaZ t
Page 54 and 55: JAEA-Research 2010-034 度に比べ
Page 56 and 57: 初期化学種濃度 (mol・m -3 _
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飽和度 (-) 液相Cl濃度 (mol/m
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飽和度 (-) 液相Na濃度 (mol/m
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飽和度 (-) 液相Na濃度 (mol/m
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JAEA-Research 2010-034 4.2 室内
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押出し治具 JAEA-Research 2010-
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JAEA-Research 2010-034 表 4.2-4
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JAEA-Research 2010-034 V � �m
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緩衝材仕様 JAEA-Research 2010-
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4.2.4 解析結果・考察 JAEA-Re
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温度 [℃] pH [-] 液相Na濃度
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液相Cl濃度 (mol/m3_water) 温
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液相Cl濃度 (mol/m3_water) 温
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pH (-) pe (-) 温度 (℃) 飽和
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液相Mg濃度 (mol・m -3 _water)
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JAEA-Research 2010-034 5. 具体的
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深度 (m) 深度(m) 100 200 300 40
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5.1.4 地球化学特性 JAEA-Resea
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ﾏﾄﾘｯｸﾎﾟﾃﾝｼｬ
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JAEA-Research 2010-034 オーバー
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5.5.2 熱解析による解析領
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JAEA-Research 2010-034 と同様に
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pH pH pe pe 13 12 11 10 9 8 7 JAEA-
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液相Ca濃度(mol m -3 _water) 液
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液相Mg濃度(mol m -3 _water) 液
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Anhydrite濃度(mol m -3 _cell) Cal
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Quartz濃度(mol m -3 _cell) 4500 4
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液相C濃度(mol m -3 _water) 液
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液相Si濃度(mol m -3 _water) JAE
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Ca(OH) 2濃度(mol m -3 _cell) SiO
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温度(℃) 飽和度(-) pH pe JAEA
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液相K濃度(mol m -3 _water) 液
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Anhydrite濃度(mol m -3 _cell) Cal
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Ettringite 濃度(mol m -3 _cell) Q
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液相C濃度(mol m -3 _water) 液
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液相Si濃度(mol m -3 _water) JAE
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Ca(OH) 2 濃度(mol m -3 _cell) SiO
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JAEA-Research 2010-034 6. まとめ
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JAEA-Research 2010-034 参考文献
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報告), JNC TN8400 2004-015. JAEA-
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JAEA-Research 2010-034 高治一彦
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表1.SI 基本単位基本量 SI
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