Svenson et al., 2008
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Haimson et al. | ISRM suggested methods for rock stress estimation—part 3: hydraulic fracturing (HF) and/or hydraulic testing of pre-existing fractures (HTPF) | |
| Quinn et al. | Using constant head step tests to determine hydraulic apertures in fractured rock | |
| Villamor Lora et al. | Geomechanical characterization of Marcellus shale | |
| Crow et al. | Wellbore integrity analysis of a natural CO2 producer | |
| Rinaldi et al. | Inverse modeling of ground surface uplift and pressure with iTOUGH-PEST and TOUGH-FLAC: The case of CO2 injection at In Salah, Algeria | |
| Cherian et al. | Evaluating horizontal well completion effectiveness in a field development program | |
| Hawkes et al. | Pressure transient testing for assessment of wellbore integrity in the IEAGHG Weyburn–Midale CO2 Monitoring and Storage Project | |
| Wiese et al. | Hydraulic characterisation of the Stuttgart formation at the pilot test site for CO2 storage, Ketzin, Germany | |
| Svenson et al. | Field evaluation of the hydromechanical behavior of flat-lying fractures during slug tests | |
| Tenthorey et al. | Fault modelling and geomechanical integrity associated with the CO2CRC Otway 2C injection experiment | |
| Schweisinger et al. | Introduction to hydromechanical well tests in fractured rock aquifers | |
| Distinguin et al. | Determination of hydraulic properties of the Callovo-Oxfordian argillite at the bure site: Synthesis of the results obtained in deep boreholes using several in situ investigation techniques | |
| Bohloli et al. | Determination of the fracture pressure from CO2 injection time-series datasets | |
| Molenaar et al. | Applying Geo-Mechanics and 4D:" 4D In-Situ Stress" as a Complementary Tool for Optimizing Field Management | |
| Jackson et al. | An integrated approach to interval pressure transient test analysis using analytical and numerical methods | |
| Younessi et al. | Calibration of sand production prediction models at early field life in the absence of field sanding data | |
| Carnegie et al. | An advanced method of determining insitu reservoir stresses: wireline conveyed micro-fracturing | |
| Malik et al. | Microfracturing in Tight Rocks: A Delaware Basin Case Study | |
| Khaksar et al. | Comparison and validation of analytical and numerical sand production prediction methods with core tests and field sanding data | |
| Hossini et al. | Investigation of post-abandonment surface subsidence in steam-assisted-gravity-drainage operations | |
| Miller et al. | In-situ stress profiling and prediction of hydraulic fracture azimuth for the West Texas Canyon Sands formation | |
| Ramazanov et al. | Determination of geothermal temperature and temperature gradient via measurements in the production well sump | |
| Evans et al. | A Study of Stress in Devonian Shale: Part I—3D Stress Mapping Using a Wireline Microfrac System | |
| Howarth et al. | Interpretation of In-Situ Pressure and Flow Measurements of the Salado Formation at the Waste Isolation Pilot Plant | |
| Scott et al. | Application of open-hole diagnostic fracture injection test results to regional stress interpretation in Bowen basin coals |