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Table of contents
1 General introduction
1.1 Flow in fractured media
1.1.1 Single fracture
1.1.2 Fracture networks
1.2 Transport in fractured media
1.3 Flow and transport modeling in fractured media
1.4 Imaging of hydraulic and transport properties of fractured media
1.4.1 Hydraulic tomography
1.4.2 Flowmeter tests
1.4.2.1 Single-borehole flowmeter test
1.4.2.2 Cross- borehole flowmeter test
1.4.3 Temperature
1.4.3.1 Heat tracer test
1.5 Approaches proposed in thesis
2 Inverse framework for flow tomography experiment
2.1 Introduction
2.2 Paper: Inverse modelling of flow tomography experiments in fractured media (Klepikova et al., submitted for possible publication in Water Resources Research)
2.3 Conclusions
3 Ploemeur field site
3.1 Introduction
3.2 Site localization
3.3 Hydrogeological context
3.4 Stang er Brune site
3.4.1 Analysis of thermal properties
3.5 Conclusions
4 Using borehole temperature profiles to estimate borehole flow velocities
4.1 Introduction
4.2 Paper: A methodology for using borehole temperature-depth profiles under ambient, single and cross-borehole pumping conditions to estimate fracture hydraulic properties (Klepikova et al., Journal of Hydrology, 2011)
4.3 Conclusions
5 Temperature tomography experiment in fractured media
5.1 Introduction
5.2 Paper: Temperature tomography experiment in fractured media (Klepikova et al., in preparation)
5.3 Conclusions
6 Heat and solute transport in fractured media
6.1 Introduction
6.2 Heat transport: numerical modeling
6.2.1 Sensitivity analysis
6.2.1.1 Sensitivity of temperature recovery to push time
6.2.1.2 Sensitivity of temperature recovery to flow rate and geometry
6.2.1.3 Sensitivity of temperature recovery to the fracture aperture
6.3 Heat transport: push-pull heat tracer tests
6.4 Discussion and Conclusions
7 Conclusions and perspectives
7.1 Conclusions
7.2 Perspectives
7.2.1 Tomography approaches
7.2.2 Temperature and flow heterogeneity
7.2.3 Heat as a tracer
