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Gas Generation and Migration in Deep Geological Radioactive Waste Repositories

Subject ISBN Author Publisher Number of Pages Title Year Price
Geology and Earth Science 9781862397224 R.P. Shaw The Geological Society of London 264 Gas Generation and Migration in Deep Geological Radioactive Waste Repositories 2015 £ 100.00
Author: R.P. Shaw
Description: Understanding the behaviour of gases in the context of radioactive waste disposal is a fundamental requirement in developing a safety case for the disposal of radioactive waste. Of particular importance are the long-term performance of bentonite buffers and cement-based backfill materials that may be used to encapsulate and surround the waste in a repository, and the behaviour of plastic clays, indurated mudrocks and crystalline formations that may be the host rocks for a repository. The EC Euratom programme funded project, FORGE, has provided new insights into the processes and mechanisms governing gas generation and migration with the aim of reducing uncertainty. This volume brings together papers on aspects of this topic arising from both the FORGE project and work undertaken elsewhere. This has been achieved by the acquisition of new experimental data coupled with modelling, through a series of laboratory and field-scale experiments performed at a number of underground research laboratories throughout Europe.
Table of Content: SHAW, R. P. The Fate of Repository Gases (FORGE) project JACOPS, E., MAES, T., MAES, N., VOLCKAERT, G., WEETJENS, E. & SILLEN, X. Gas-driven radionuclide transport in undisturbed and disturbed Boom Clay POPP, T., R ÖLKE, C. & SALZER, K. Hydromechanical properties of bentonite–sand block assemblies with interfaces in engineered barrier systems PURSER, G., MILODOWSKI, A. E., NOY, D. J., ROCHELLE, C. A., HARRINGTON, J. F., BUTCHER, A. & WAGNER, D. Modification to the flow properties of repository cement as a result of carbonation GUTIÉRREZ-RODRIGO, V., VILLAR, M. V., MARTÍN, P. L ROMERO, F. J. & BARCALA, J.M. Gas-breakthrough pressure of FEBEX bentonite VILLAR, M. V., MARTÍN, P. L., ROMERO, F. J., GUTIÉRREZ-RODRIGO, V. & BARCALA, J.M. Gas and water permeability of concrete ZHANG, C.-L. Investigation of gas migration in damaged and resealed claystone SVOBODA, J. & SMUTEK, J. The experimental in-situ study of gas migration in crystalline rock with a focus on the EDZ POPP, T., MINKLEY, W., WIEDEMANN, M. & SALZER, K. Gas-pressure-induced integrity of salt formations AHUSBORDE, E., AMAZIANE, B. & JURAK, M. Three-dimensional numerical simulation by upscaling of gas migration through engineered and geological barriers for a deep repository for radioactive waste ALCOVERRO, J., OLIVELLA, S. & ALONSO, E. E. Modelling fluid flow in Opalinus Clay excavation damage zone. A semi-analytical approach DYMITROWSKA, M., SMAÏ, F. & BOURGEAT, A. Thermodynamic modelling of hydrogen migration in argillite for a deep geological radioactive waste repository: IRSN contribution to FORGE SEDIGHI, M., THOMAS, H. R., AL MASUM, S., VARDON, P. J., NICHOLSON, D. & CHEN, Q. Geochemical modelling of hydrogen gas migration in an unsaturated bentonite buffer SHAO, H., XU, W., MARSCHALL, P., KOLDITZ, O. & HESSER, J. Numerical interpretation of gas-injection tests at different scales YAMAMOTO, S., KUMAGAI, M., KOGA, K. & SATO, S. Mechanical stability of engineered barriers in a subsurface disposal facility during gas migration based on coupled hydromechanical modelling BENNETT, D. P., CUSS, R. J., VARDON, P. J., HARRINGTON, J. F., SEDIGHI, M. & THOMAS, H. R. Exploratory data analysis of the Large Scale Gas Injection Test (Lasgit) dataset, focusing on second-order events around macro-scale gas flows NORRIS, S. EC FORGE project: updated consideration of gas generation and migration in the safety case

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