Permeability Enhancement by Microfracturing in Granite under Supercritical Water Conditions
スポンサーリンク
概要
- 論文の詳細を見る
This paper discusses the generation of micro-fractures in a granite under super critical water environment. In order to create an artificial pathway of water in geothermal reservoir with limited permeability, hydraulic stimulation technology is commonly employed. In this study, simulated hydraulic stimulation tests were performed using thick-walled cylindrical specimens of 45 mm outer diameter, under temperatures up to 600℃ and confining pressures up to 100 MPa. The experimental results of simulated hydraulic stimulations showed that no macroscopic fracturing took place and predominant fluid flow occurred at high temperature regime. The permeability of the granite was also measured using the same cylindrical specimen configuration as used in the simulated hydraulic stimulation tests. The permeability test results showed that the permeability of the granite was enhanced drastically when the temperature exceeded the critical point of water, whilst no significant increase in the permeability was observed under the subcritical water condition. Optical microscopy of the microstructural change revealed that the enhanced permeability was due to the formation of micro-fractures under the supercritical water environment. This laboratory-scale test result suggests that it may be possible to generate a micro-fracture network by injecting water into a high temperature rock mass whose conditions exceed the critical point of water and to extract the heat energy through the generated fracture network from the supercritical rock mass.
- 社団法人日本機械学会の論文
- 2003-01-15
著者
-
TAKAHASHI Toru
Fracture Research Institute, Tohoku University
-
TANIFUJI Koji
Center for Integrated Research in Science and Engineering
-
STAFFORD Catherine
Fracture Research Institute, Tohoku University
-
HASHIDA Toshiyuki
Fracture Research Institute, Tohoku University
-
Hashida Toshiyuki
Fracture And Reliability Res. Inst. Graduate School Of Engineering Tohoku Univ.
-
Hashida Toshiyuki
Fracture And Reliability Research Institute Tohoku University
-
Hashida Toshiyuki
Graduate School Of Environmental Studies Tohoku University
-
Hashida T
Tohoku Univ. Sendai‐shi
-
Tanifuji Koji
Fracture Research Institute Tohoku University
-
Stafford Catherine
Fracture Research Institute Tohoku University
-
高橋 亨
(財)深田地質研究所
-
Takahashi Toru
Fracture And Reliability Research Institute Tohoku University
関連論文
- 河川堤防調査における物理探査の適用性に関する研究成果の紹介 (小特集 物理探査とその最前線) -- (防災・減災)
- Low-Temperature Anode-Supported SOFC with Ultra-Thin Ceria-Based Electrolytes Prepared by Modified Sol—Gel Route
- Preparation and Characterization of Ce0.9Gd0.1O1.95 Electrolyte Films by Spray Coating Process
- Effects of Sintering Additive on Mechanical Properties of Alumina Matrix Composites Reinforced with Carbon Nanotubes
- 単層および多層カーボンナノチューブ固化体の作製と機械的特性評価
- 放電プラズマ焼結法により作製した単層カーボンナノチューブ固化体の機械的特性評価
- 河川堤防の内部構造調査と探査機器の開発研究(その1) : 研究の全体計画と平成18年度研究成果の概要
- 0542 CO_2地中貯留固定化に関連した岩石のCO_2収着量に関する評価(S52-2 温室効果ガス排出抑制技術(2),S52 温室効果ガス排出抑制技術)
- 518 多層カーボンナノチューブ/SiC複合材料の作製およびその機械的特性評価(材料力学III)
- 512 CO_2地中貯留・固定化のためのCO_2環境下における岩石鉱物のCO_2溶解特性に関する研究(材料力学I)
- 212 単層カーボンナノチューブ固化体の作製と機械的特性評価(材料力学 III,2.学術講演)
- 放電プラズマ焼結法により作製した単層カーボンナノチューブバルク固化体の機械的特性
- 花崗岩の透水挙動の時間依存性と超臨界水誘起微視き裂の影響
- 高温・高圧水環境下における花崗岩のせん断破壊とすべり軟化挙動(破壊力学)
- 216 放電プラズマ焼結法により作製した単層カーボンナノチューブ焼結体の機械的特性(材料力学III)
- 熱水誘起微視割れと透水挙動の温度・花こう岩種依存性
- Permeability Enhancement by Microfracturing in Granite under Supercritical Water Conditions
- 218 超臨界水環境下における花こう岩の破壊特性と水圧破砕挙動に関する研究
- 超臨界水環境下における花こう岩の微視割れと透水特性に関する研究
- Crack Healing and Micro-crack Formation in Granite under Conditions of High Temperature and in the Presence of Pressurized water(Student Poster Session)
- Permeability Enhancement by Microfracturing in Granite under Supercritical Water Conditions(Ceramics & Rocks 2)
- 花崗岩の透水挙動の時間依存性と超臨界水誘起微視き裂の影響
- Effects of Polycarbosilane Addition on the Mechanical Properties of Single-Walled Carbon Nanotube Solids(Recent Advances in Materials and Processing (I))
- Application of Pressurized Carbon Dioxide to Drying Process of Wood
- New Synthesis Technique for Making Hydroxyapatite Ceramics Using Hydrothermal Hot-Pressing
- G-6 A NEW METHOD FOR EVALUATING DEGRADATION OF SOLID OXIDE FUEL CELL UNDER OPERATING CONDITIONS BY COMBINING THE ELECTROCHEMICAL MEASUREMENT WITH NON-DESTRUCTIVE TEST(Session: Fuel Cell/Magnet)
- Fracture Behavior of a Hydroxyapatite-Metal Interface Jointed by Hydrothermal Hot-pressing Method(Ceramics & Rocks 1)
- Effects of titanium surface treatment on adhesive properties of hydroxyapatite ceramics coating to titanium substrates by double layered capsule hydrothermal hot-pressing
- Synthesis of Dense and Pinhole-free Y-zeolite for Separation Membrane Using a Modified Hydrothermal Method
- Preparation and Mechanical Properties of Hydroxyapatite Ceramics by Hydrothermal Hot Pressing at Low Temperature(Student Poster Session)
- Preparation of Multi-Walled Carbon Nanotube Compact by the Spark Plasma System (SPS) (特集 炭素系機能材料)
- Fracture Characteristics of Thermal Barrier Coating in Tension and Bending Tests(Student Poster Session)
- TED-AJ03-202 NUMERICAL MODEL FOR THE FRACTURE TYPE GEOTHERMAL RESERVOIR WITH THE MULTI-BOREHOLE SYSTEM
- Numerical Simulation of the Hijiori Geothermal Reservoir Hydraulic Stimulation(Ceramics & Rocks 2)
- TED-AJ03-203 MATHEMATICAL MODELING OF HEAT TRANSFER BETWEEN THE WELL AND SURROUNDING ROCKS
- Numerical Analysis of Crack Growth Behavior Induced by Hydraulic Fracturing at Great Depth(Ceramics & Rocks 1)
- Small Punch Creep Behavior of Service-Exposed SUS 316 HTB Superheater Boiler Tube(High Temperature Materials)
- Simulation of Complexity in Failure Process of Rocks under Biaxial Compression(Ceramics & Rocks 2)
- Crack Growth of Non-Coplanar Parallel Crack Array and Tension-Softening Model(Brittle Fracture)
- 物理探査データを利用した堤防の土質断面推定の試み
- Preparation and Microstructure of Carbon Nanotube-Toughened Alumina Composites
- Thermal Fatigue in Thermal Barrier Coating(Special Issue on Creep and Fatigue at Elevated Temperatures)
- Fabrication of a Si-PZT Hybrid XY-Microstage with CNT-Carbon Hinges
- Ionic Conductivity in Uniaxial Micro Strain/Stress Fields of Yttria-Stabilized Zirconia
- Development of Pressureless Sintering Method for Carbon Nanotube/Alumina Composites and Their Microstructure-Property Relationships
- Mechanical Properties of Single-Walled Carbon Nanotube Solids Prepared by Spark Plasma Sintering