Publications, Conferences and Seminars

JOURNAL ARTICLES

32. Bernier, L.§,*, R. Soliva*, D. Roubinet, S. Dominguez, S. Mayolle, M. Bulliard, C. Wibberley, T. Korbar (2025), Spatial distribution of permeability in carbonate fault damage zones, Journal of Structural Geology, 105371 (194), doi: 10.1016/j.jsg.2025.105371

31. Lelimouzin, L.‡,*, C. Champollion, L. Lévy, and D. Roubinet (2024), Preferential pathways inversion from cross-borehole electrical data, Geophysical Research Letter, 51, e2024GL111202, doi: 10.1029/2024GL111202

30. Jiang, C.‡ , D. Roubinet*, Q. Lei, Y. Wang, and X. Wang (2024), Anomalous transport and upscaling in critically-connected fracture networks under stress conditions, Journal of Hydrology, 130661 (630), doi: 10.1016/j.jhydrol.2024.130661

29. Song, G.‡, D. Roubinet, X. Wang, G. Li, X. Song, and D. M. Tartakovsky* (2024), Surrogate models of heat transfer in fractured rock and their use in parameter estimation, Computers & Geosciences, 183 (105509), doi: 10.1016/j.cageo.2023.105509

28. Lods, G and D. Roubinet* (2023), Models and Interpretation Methods for Single-Hole Flowmeter Experiments, Water, 15(16), 2960. doi: 10.3390/w15162960

27. Gouze, P.*, A. Puyguiraud‡, D. Roubinet, and M. Dentz (2023), Pore-scale transport in rocks of different complexity modelled by random walk methods, Transport in Porous Media, 146, pages 139–158, doi: 10.1007/s11242-021-01675-2

26. Pryet A.*, P. Matran, Y. Cousquer, and D. Roubinet (2022), Particle tracking as a vulnerability assessment tool for drinking water production, Front. Earth Sci., 10:975156, doi: 10.3389/feart.2022.975156

25. Leger, M.‡, L. Luquot*, and D. Roubinet (2022), Role of mineralogical, structural and hydrodynamic rock properties in conduits formation in three distinct carbonate rock types, Chemical Geology, 607, 121008, doi: 10.1016/j.chemgeo.2022.121008

24. Klepikova, M.*, B. Brixel, and D. Roubinet (2022), Analysis of thermal dilution experiments with Distributed Temperature Sensing for fractured rock characterization, Journal of Hydrology, 127874, doi: 10.1016/j.jhydrol.2022.127874

23. Roubinet, D.*, P. Gouze, A. Puyguiraud, and M. Dentz (2022), Multi-scale random walk models for reactive transport processes in fracture-matrix systems, Advances in Water Resources, 104183 (164), doi: 10.1016/j.advwatres.2022.104183

22. Leger, M.‡*, D. Roubinet, M. Jamet§, and L. Luquot (2022), Impact of hydro-chemical conditions on structural and hydro-mechanical properties of chalk samples during dissolution experiments, Chemical Geology, 594, 120763, doi: 10.1016/j.chemgeo.2022.120763

21. Zhou, Z.‡, D. Roubinet, and D. M. Tartakovsky* (2021), Thermal experiments for fractured rock characterization: theoretical analysis and inverse modeling, Water Resources Research, 57, e2021WR030608, doi:10.1029/2021WR030608

20. Gouze, P.*, A. Puyguiraud‡, D. Roubinet, and M. Dentz (2020), Characterization and Upscaling of Hydrodynamic Transport in heterogeneous Dual Porosity Media, Advances in Water Resources, 103781, doi:10.1016/j.advwatres.2020.103781

19. Lods, G., D. Roubinet*, J. M. Matter, R. Leprovost, and P. Gouze (2020), Groundwater flow characterization of an ophiolitic hard-rock aquifer from cross-borehole multi-level hydraulic experiments, Journal of Hydrology, 125152, doi:10.1016/j.jhydrol.2020.125152

18. Roubinet, D.*, S. Demirel‡, E. Voytek, X. Wang, and J. Irving (2020), Hybrid analytical and numerical approach for modeling fluid flow in simplified three-dimensional fracture networks, Geofluids, 3583817, doi:10.1155/2020/3583817

17. Demirel, S.‡, J. Irving*, and D. Roubinet (2019), Comparison of REV size and tensor characteristics for the electrical and hydraulic conductivities in fractured rock, Geophysical Journal International, 216(3), 1953-1973, doi:10.1093/gji/ggy537

16. Köpke, C.‡, J. Irving*, and D. Roubinet (2019), Stochastic inversion for soil hydraulic parameters in the presence of model error:  an example involving ground-penetrating radar monitoring of infiltration, Journal of Hydrology, 569, 829-843, doi:10.1016/j.jhydrol.2018.12.016

15. Demirel, S.‡,π, D. Roubinetπ, J. Irving*, and E. Voytek (2018), Characterizing near-surface fractured-rock aquifers: insights provided by the numerical analysis of electrical resistivity experiments, Water, 10(9), 1117, doi:10.3390/w10091117

14. Roubinet, D.*, J. Irving, and P. A. Pezard (2018), Relating topological and electrical properties of fractured porous media: insights into the characterization of rock fracturing, Minerals, 8, 14, doi:10.3390/min8010014

13. Caballero Sanz, V.§,π, D. Roubinet*,π, S. Demirel‡, and J. Irving (2017), 2.5D discrete-dual-porosity model for simulating geoelectrical experiments in fractured rock, Geophysical Journal International, 209(2), 1099-1110, doi:10.1093/gji/ggx080

12. Gisladottir, V. R.‡, D. Roubinet, and D. M. Tartakovsky* (2016), Particle methods for heat transfer in fractured media, Transport in Porous Media, 1-16, doi:10.1007/s11242-016-0755-2

11. Roubinet, D.*, N. Linde, D. Jougnot, and J. Irving (2016), Streaming potential modeling in fractured rock: insights into the identification of hydraulically active fractures, Geophysical Research Letters, 43(10), 4937-4944, doi:10.1002/2016GL068669

10. Noetinger, B.*, D. Roubinet, A. Russian, T. Le Borgne, F. Delay, M. Dentz, J.-R. de Dreuzy, and P. Gouze (2016), Random walk methods for modeling hydrodynamic transport in porous and fractured media from pore to reservoir scale, Transport in Porous Media, 1-41, doi:10.1007/s11242-016-0693-z

9. Moscoso Lembcke, L. G.§,π, D. Roubinet*,π, F. Gidel#, J. Irving, P. Pehme, and B. L. Parker (2016), Analytical analysis of borehole experiments for the estimation of subsurface thermal properties, Advances in Water Resources, 91, 88-103, doi:10.1016/j.advwatres.2016.02.011

8. Roubinet, D.*, J. Irving, and F. D. Day-Lewis (2015), Development of a new semi-analytical model for cross-borehole flow experiments in fractured media, Advances in Water Resources, 76, 97-108, doi:10.1016/j.advwatres.2014.12.002

7. Roubinet, D.* and J. Irving (2014), Discrete-dual-porosity model for electric current flow in fractured rock, Journal of Geophysical Research - Solid Earth, 119(2), 767-786, doi:10.1002/2013JB010668

6. Ruiz Martinez, A.§, D. Roubinet, and D. M. Tartakovsky* (2014), Analytical models of heat conduction in fractured rocks, Journal of Geophysical Research - Solid Earth, 119(1), 83-98, doi:10.1002/2012JB010016

5. Roubinet, D.* and D. M. Tartakovsky (2013), Hybrid modeling of heterogeneous geochemical reactions in fractured porous media, Water Resources Research, 49, 7945–7956, doi:10.1002/2013WR013999

4. Roubinet, D.*, J.-R. de Dreuzy, and D. M. Tartakovsky (2013), Particle-tracking simulations of anomalous transport in hierarchically fractured rocks, Computers and Geosciences, 50(SI), 52-58, doi:10.1016/j.cageo.2012.07.032

3. Roubinet, D.*, J.-R. de Dreuzy, and D. M. Tartakovsky (2012), Semi-analytical solutions for solute transport and exchange in fractured porous media, Water Resources Research, 48, W01542, doi:10.1029/2011WR011168

2. Roubinet, D.*, H.-H. Liu, and J.-R. de Dreuzy (2010), A new particle-tracking approach to simulating transport in heterogeneous fractured porous media, Water Resources Research, 46, W11507, doi:10.1029/2010WR009371

1. Roubinet, D.*, J.-R. de Dreuzy, and P. Davy (2010), Connectivity-consistent mapping method for 2-D discrete fracture networks, Water Resources Research, 46, W07532, doi:10.1029/2009WR008302

BOOKS, CONFERENCE PROCEEDINGS AND OTHER PUBLICATIONS

10. Roubinet, D., Processus hydro-géophysiques et hydro-thermo-géochimiques dans les milieux poreux fracturés hétérogènes - Caractérisation et modélisation à plusieurs échelles, Habilitation à Diriger des Recherches (HDR) en Sciences de l'Univers, Université de Montpellier

9. Godard, M., P. Gouze, P. Benezeth, I. Martinez, T. Decrausaz, R. Leprovost, D. Roubinet, and P. Pézard (2022), In situ CO2 mineralization in mantle-derived ultramafic basements: Insights from laboratory experiments and field studies (Oman ophiolite), 16th International Conference on Greenhouse Gas Control Technologies GHGT-16, 23-27th October 2022, Lyon, France

8. Song, G., D. Roubinet, Z. Zhou, X. Wang, D. M. Tartakovsky, and X. Song (2022), Estimation of Statistical Properties of Fracture Networks from Thermal-tracer Experiments, Proceedings, 47th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February 7-9, 2022, SGP-TR-223

7. Wang, X., M. Sheng, and D. Roubinet (2020), Augmentation de la perméabilité par cisaillement et ses impacts sur le transfert de chaleur dans les « roches sèches et chaudes », Projet de Recherche Conjoint - PermHeat (2019-2021), Le CNRS en Chine, La vie des laboratoires, N°32, Automne-Hiver 2020-2021

6. Jougnot, D.*, D. Roubinet, L. Guarracino, and A. Maineult (2020), Modeling streaming potential in porous and fractured media, description and benefits of the effective excess charge density approach, “Advances in Modeling and Interpretation in Near Surface Geophysics" in Springer Geophysics Series (Ed. Arkoprovo Biswas, PhD), doi: 10.1007/978-3-030-28909-6

5. Gisladottir, V. R.‡, D. Roubinet, and D. M. Tartakovsky (2018), Efficient simulations of heat transfer in fractured rocks, Proceedings, 43rd Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February 12-14, 2018, SGP-TR-213 (pdf)

4. Boisson, A.*,π, Roubinet, D.π, L. Aquilina, O. Bour, and P. Davy (2015), Impact of flow velocity on biochemical processes - A laboratory experiment, Hydrology and Earth System Sciences Discuss., 11, 9829-9862, doi:10.5194/hessd-11-9829-2014 (pdf)

3. Irving, J.*, C. Köpke‡, and D. Roubinet (2015), Accounting for model error in Bayesian solutions to near-surface geophysical inverse problems, Near-Surface Asia Pacific Conference, Waikoloa, Hawaii, 7-10 July 2015, pp. 79-82, doi:10.1190/nsapc2015-020 (pdf)

2. Roubinet, D. (2012), Flux et transport de solutés dans les milieux poreux fracturés, Editions Universitaires Européennes

1. Roubinet, D. (2011), Impact des structures géologiques sur les échanges entre fractures et matrice dans les milieux poreux fracturés, Thèse de Doctorat, Université de Rennes1 (pdf)

CONFERENCES AND SEMINARS

72. Soliva R., S. Mayolle, L. Bernier, S. Dominguez, D. Roubinet, C. Wibberley, Hétérogénéité et perméabilité effective des zones endommagées de faille, RST Montpellier 2025

71. Lelimouzin L., C. Champollion, D. Roubinet, Caractérisation de chemins préférentiels par inversion transdimensionnelle de données électriques provenant d’un aquifère contaminé, RST Montpellier 2025

70. Roubinet D., L. Brun, C. Medjahed, Y. Cousquer, G. Lods, E. Le Ber, G. Henry, T. Widemann, Y. Caballero, J. Lofi, P. Pézard, Caractérisation et suivi des intrusions salines dans les aquifères côtiers du Roussillon, Kick-off PEPR Maths-Vives, Axe Environnement, Projet HYDRAUMATH, 24-25/03/2025

69. Lelimouzin L., C. Champollion, and D. Roubinet, Inversion transdimensionnelle de résistivités électriques appliquée aux milieux fracturés, 14ème colloque GEOFCAN 2025, 4-6 juin, Avignon

68. Caballero Y., F. Bouchette, G. Nadal, B. Ladouche, D. Roubinet, S. Lanini, and Y. Balouin, Influence of meteo-marine forcings on groundwater level fluctuations of a costal multi-layer aquifer, Salt Water Intrusion Congress (SWIM 2025), June 2-6, Barcelona, Spain 

67. Lelimouzin L., C. Champollion., L. L.évy, and D. Roubinet, Inversion of cross-borehole electrical data to identify preferential flow-paths, 6th Summer School on FLOW and Transport In porous & fractured MEdia (FLOWTIME), 2024

66. Lelimouzin L., C. Champollion, L. Lévy, and D. Roubinet, Modelling preferential pathway networks that control fluid transport in the critical zone using cross-borehole electrical monitoring, AGU Fall Meeting 2023, poster H33N-1974

65. Lévy, L., L. M. Madsen, D. Roubinet, L. Lelimouzin, C. Delbet, T. Günther, P. L. Bjerg, and  N. Tuxen, Building Reliable Groundwater Transport Models at Contaminated Sites Using Cross-Borehole Electrical Monitoring, Global Summit on Environmental Remediation 2023, PNNL (talk)

64. Roubinet, D. (2023), Hydro-geophysical and hydro-thermo-geochemical processes in heterogeneous fractured porous media – Characterization, modeling, and inversion at several scales, HDR, Montpellier University, France

63. Roubinet, D., Stochastic approaches for modeling hydrodynamic reactive transport in fractured porous media, RhEOVOLUTION Meeting, Sète, France, 2023/01/09-12

62. Roubinet, D., Reactive transport models in heterogeneous systems from pore to reservoir scale, EGU General Assembly 2023 (invited talk)

61. Roubinet, D. (2023), Efficient modeling strategies for hydro-geophysical and hydro-thermo-chemical processes in heterogeneous systems, Invited seminar, I2M, Bordeaux, France

60. Roubinet, D. (2023), Efficient modeling strategies for hydro-geophysical and hydro-thermo-chemical processes in heterogeneous systems, Invited seminar, Geology Laboratory ENS, Paris, France

59. Roubinet, D. (2023), Hydro-geophysical and hydro-thermo-geochemical processes in heterogeneous fractured porous media – Characterization, modeling, and inversion at several scales, Invited seminar, ITES, Strasbourg, France

58. Roubinet, D. (2023), Hydro-geophysical and hydro-thermo-geochemical processes in heterogeneous fractured porous media – Characterization, modeling, and inversion at several scales, Invited seminar, Geosciences Rennes, France

57. Roubinet, D. (2023), Hydro-geophysical and hydro-thermo-geochemical processes in heterogeneous fractured porous media – Characterization, modeling, and inversion at several scales, Invited seminar, ISTO, Orléans, France

56. Roubinet, D. (2022), Streaming Potential Modeling to Understand the Identification of Hydraulically Active Fractures and Fracture-Matrix Fluid Interactions Fractures and Fracture-Matrix Fluid Interactions, CRITEX-OZCAR workshop - Passive Geophysics (talk)

55. Luquot, L., M. Leger‡, and D. Roubinet (2022), Role of mineralogical, structural and hydrodynamic rock properties in conduits formation in three distinct carbonate rock types, AGU Fall Meeting 2022, 1066202 (talk)

54. Godard, M., P. Gouze, P. Benezeth, I. Martinez, T. Decrausaz, R. Leprovost, D. Roubinet, and P. Pézard (2022), In situ CO2 mineralization in mantle-derived ultramafic basements: Insights from laboratory experiments and field studies (Oman ophiolite), 16th International Conference on Greenhouse Gas Control Technologies GHGT-16, 23-27th October 2022, Lyon, France (talk)

53. Pryet, A., P. Matran, Y. Cousquer, and D. Roubinet (2022), Particle tracking as a vulnerability assessment tool for drinking water production, hybrid EGU General Assembly 2022, EGU22-5966 (talk)

52. Leger, M., L. Luquot, and D. Roubinet (2022), Impact of hydro-chemical conditions on structural and hydro-mechanical properties of chalk samples during dissolution experiments, Interpore Conference (talk)

51. Champollion, C. and D. Roubinet (2022), Discrete Fracture Network geophysical imaging from Electrical Resistivity Methods, IAHS-AISH Scientific Assembly, IAHS2022-390 (poster)

50. Champollion, C. and D. Roubinet (2022), Inversion of synthetic Electrical Resistivity Tomography experiments for the characterization of fractured rocks, Eurokarst (talk)

49. Song, G., D. Roubinet, Z. Zhou, X. Wang, D. M. Tartakovsky, and X. Song (2022), Estimation of Statistical Properties of Fracture Networks from Thermal-tracer Experiments, Stanford Geothermal Workshop (talk)

48. Roubinet, D., Z. Zhou, and D. M. Tartakovsky (2021), Efficient inversion of synthetic thermal experiments for fractured rock characterization, AGU, H41C-06 (talk)

47. Roubinet, D., B. Perrin, and Champollion C. (2021), Inversion of synthetic Electrical Resistivity Tomography experiments for the characterization of fractured rocks , AGU Fall Meeting 2021, H35B-1047 (poster)

46. Champollion, C. , B. Perrin, and D. Roubinet (2021), Discrete Fracture Network inversion from Electrical Resistivity Dataset, OZCAR TERENO International Conference (poster)

45. Roubinet, D. (2021), Derivation of numerical modeling approaches for flow and transport processes in fractured rocks, 5th Summer School on Flow and Transport in porous & fractured media (invited talk)

44. Leger, M., M. Jamet, D. Roubinet, and L. Luquot (2021), Monitoring of hydrodynamic, mechanical and chemical properties of chalk during experimental dissolution, Goldschmidt conference, doi: 10.7185/gold2021.4648 (poster and talk, online meeting)

43. Roubinet, D. (2021), What can we learn from electrical measurements? Applications to fractured rocks from laboratory to field scale, GeoScience & GeoEnergy Webinar (https://www.youtube.com/watch?v=iiM6Up9DC_c)

42. Lods, G. and D. Roubinet (2021), Expériences hydrauliques entre puits: mesures, données et modèles d’interprétation, Initiatives #GeoMaths - Géologie et Mathématiques à Montpellier : explorations et perspectives, Université de Montpellier (talk)

41. Champollion, C. and D. Roubinet (2021), Modélisation et inversion d’hétérogénéités discrètes en géophysique: fractures et tomographie de résistivité électrique, Initiatives #GeoMaths - Géologie et Mathématiques à Montpellier : explorations et perspectives, Université de Montpellier (talk)

40. Klepikova, M., B. Brixel, M. Dentz, and D. Roubinet (2020) New insights in the characterization of sparse fracture systems obtained from Distributed Temperature Sensing data acquired during thermal experiments, AGU Fall Meeting 2020 (online meeting)

39. Roubinet, D., M. Dentz, and P. Gouze (2020), Particle-based methods for simulating the propagation and (bio)degradation of contaminants in heterogeneous fractured porous media, CMWR online conference, Stanford University, June 21-25 2020 (talk)

38. Jiang, C., X. Wang, X., D. Roubinet, and Z. Sun (2020), Combined effects of network topology, hydraulic conditions and in-situ stress variations on solute propagation in natural fracture networks, Interpore online conference, 12th annual meeting (talk)

37. Roubinet, D., Z. Zhou, and D. M. Tartakovsky (2020), Numerical strategies for characterizing fractured rock from heat tracer experiments, EGU, online conference, D973, EGU2020-13699, doi:10.5194/egusphere-egu2020-13699 (talk)

36. Lods, G., D. Roubinet, J.M. Matter, R. Leprovost, P. Gouze, and the Oman Drilling Project Science Party (2020), Groundwater flow characterization of the Drilling Project Batin test site (Sultanate of Oman) using cross-borehole and multiple-level hydraulic tests, International Conference on Ophiolites and the Oceanic Lithosphere: Results of the Oman Drilling Project and Related Research, 12-14th January, 2020, Sultan Qaboos University, Muscat, Sultanate of Oman (talk)

35. Matter, J.M., P.A. Pezard, P. Gouze, D. Roubinet, G. Lods, R. Leprovost, A. Paukert, M. Stute, D.B. Nothaft, G. Henry, L. Brun, J. Paris, A.-M. Benchikh, B. Célérier, M. Al Shukaili, S. Al-Amri, A. Al Qassabi, A. Al Shukaili, P. Kelemen, D. Teagle, J. Coggon, and the Oman Drilling Project Science Team (2020), Groundwater flow and fluid-rock interaction in the mantle peridotites of the Samail Ophiolite: Results from advanced downhole hydrogeophysical logging and borehole testing from the Oman Drilling Project, International Conference on Ophiolites and the Oceanic Lithosphere: Results of the Oman Drilling Project and Related Research, 12-14th January, 2020, Sultan Qaboos University, Muscat, Sultanate of Oman (talk)

34. Roubinet, D. (2019), Analytical and numerical models for heat transfer and geothermal performances in fractured rocks, ARMA-CUPB, Geothermal International Conference, Beijing, China (talk)

33. Roubinet, D. (2019), Multi-scale modeling and characterization approaches in heterogeneous fractured porous media, Oceanographical Institute of China, Qingdao, China (seminar)

32. Roubinet, D. (2019), Multi-scale modeling and characterization approaches in heterogeneous fractured porous media, Wuhan University, Wuhan, China (seminar)

31. Roubinet, D., S. Demirel‡, J. Irving, and E. Voytek (2018), Mixed analytical and numerical modeling approach for fluid flow in simplified 3D fracture networks, AGU, Washington D.C., USA (talk reference: H34F-04)

30. Irving, J., S. Demirel‡, and D. Roubinet (2018), Numerical investigation of electrical resistivity profiling for near-surface fracture characterization, AGU, Washington D.C., USA (poster reference: NS33C-0808)

29. Gisladottir, V. R.‡, D. Roubinet, and D. M. Tartakovsky (2018), Efficient simulations of heat transfer in fractured rocks, 43rd Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California (talk reference: SGP-TR-213)

28. Roubinet, D. (2018), Pollution et remédiation dans les aquifères et réservoirs fracturés - Apport des méthodes (hydro-)géoélectriques pour la détection et la caractérisation des fractures, Géosciences Montpellier, Université de Montpellier, Montpellier, France (seminar)

27. Roubinet, D., A. Russian, M. Dentz, and P. Gouze (2017), Modeling reactive transport processes in fractured rock using the time domain random walk approach within a dual-porosity framework, AGU, New Orleans, Louisiana, USA (talk reference: H52A-03)

26. Gouze, P., D. Roubinet, M. Dentz, V. Plane, and A. Russian (2017), Characterization and upscaling of pore scale hydrodynamic mass transfers, AGU, New Orleans, Louisiana, USA (talk reference: H14G-03)

25. Irving, J., V. Caballero Sanz§, S. Demirel‡, and D. Roubinet (2017), 2.5-D discrete-dual-porosity model for simulating geoelectrical experiments in fractured rock, AGU, New Orleans, Louisiana, USA (poster reference: H33A-1644)

24. Roubinet, D., A. Russian, M. Dentz, and P. Gouze (2017), A new Time Domain Random Walk approach for modeling reactive transport processes in heterogeneous fractured porous media, Reactive Transport - Workshop, Amboise, France (invited talk)

23. Gouze, P., F. Gjetvaj, A. Russian, M. Dentz, D. Roubinet, V. Plane, E.-A. Fiorentino, P. Smal, and A. Puyguiraud (2017), Modeling non-Fickian dispersion in X-ray-microtomography imaged rock samples, 79th EAGE Conference & Exhibition 2017 - Workshop, Paris, France (talk)

22. Roubinet, D., N. Linde, D. Jougnot, and J. Irving (2016),  Streaming potential modeling to understand the identification of hydraulically active fractures and fracture-matrix fluid interactions using the self-potential method, AGU, San Francisco, California, USA

21. Demirel, S.‡, J. Irving, and D. Roubinet (2016), Estimation of REV size and tensor characteristics for the electrical and hydraulic conductivities in fractured rock, AGU, San Francisco, California, USA

20. Irving, J., C. Köpke‡, and D. Roubinet (2016), Addressing the issue of model error in Bayesian solutions to near-surface geophysical inverse problems, SIMAI Conference, Milan, Italy (talk)

19. Irving, J., C. Köpke‡, and D. Roubinet (2016), Accounting for known sources of model error during Bayesian posterior sampling of geophysical inverse problems, SIAM Conference on Uncertainty Quantification, Lausanne, Switzerland (talk)

18. Irving, J, C. Köpke‡, and D. Roubinet (2015), Accounting for model error in Bayesian solutions to near-surface geophysical inverse problems, Near-Surface Asia Pacific Conference, Waikoloa, Hawaii (talk)

17. Gisladottir, V. R.‡, D. Roubinet, and D. M. Tartakovsky (2015), Two-dimensional heat transfer in a heterogeneous fracture network, AGU, San Francisco, California, USA 

16. Roubinet, D., J. Irving, and F. Day-Lewis (2014), Semi-analytical model of cross-borehole flow experiments for fractured medium characterization, AGU, San Francisco, California, USA 

15. Köpke C.‡, J. Irving, and D. Roubinet (2014), Assessing and accounting for the effects of model error in Bayesian solutions to hydrogeophysical inverse problems, AGU, San Francisco, California, USA 

14. Demirel, S.‡, D. Roubinet, and J. Irving (2014), Modeling electric current flow in 3D fractured media, AGU, San Francisco, California, USA 

13. Roubinet, D., and J. Irving (2014), Discrete dual porosity modeling of electrical current flow in fractured media, RST, France (talk)

12. Gisladottir, V. R.‡, Roubinet, D., and D. M. Tartakovsky (2013), Heat transfer in heterogeneous fractured rocks, AGU, San Francisco, California, USA (talk)

11. Roubinet, D., and J. Irving (2013), Discrete dual porosity modeling of electrical current flow in fractured media, AGU, San Francisco, California, USA 

10. Demirel, S.‡, D. Roubinet, and J. Irving (2013), Modeling electric current flow in 3D fractured media, SGM, Lausanne, Switzerland 

9. Köpke, C.‡, J. Irving, and D. Roubinet (2013), Exploring the issue of model error in stochastic solutions to hydrogeophysical inverse problems, SGM, Lausanne, Switzerland 

8. Roubinet, D., and J. Irving (2013), Discrete dual porosity modeling of electrical current flow in fractured media, SGM, Lausanne, Switzerland

7. Roubinet, D., A. Boisson, L. Aquilina, O. Bour, and P. Davy (2012), Impact of flow velocity on denitrification process, AGU, San Francisco, California, USA

6. Roubinet, D., D. M. Tartakovsky, and I. Battiato (2011), A hybrid description of biogeochemical processes: a continuum-scale model with pore-scale refinement, AGU, San Francisco, California, USA (talk)

5. Roubinet, D., J.-R. de Dreuzy, and H.H. Liu (2010), Influence of Fracture-Network Structures on Radionuclide Behavior in Fractured Porous Media, CMWR, Barcelona, Spain 

4. Roubinet, D., J.-R. de Dreuzy, P. Davy, D. Tartakovsky, and Y. Meheust (2010), Fracture matrix exchanges driven by fracture-scale and network-scale flow organizations, Summer School on Flow and Transport in Porous and Fractured Media, Cargèse, France

3. Roubinet, D., J.-R. de Dreuzy, H.H. Liu, and Q. Zhou (2009), Influence of the Fracture-Network Structure on Contaminant Transport in Fractured Porous Media, AGU, San Francisco, California, USA

2. Roubinet, D., J.-R. de Dreuzy, and P. Davy (2008), A discrete dual-porosity fracture network for modeling flow in heterogeneous porous fractured media, Gordon conference, Oxford, England

1. Paturel, J.-E., Casenave, L., Rescan, M., Roubinet, D., Ardoin-Bardin, S., Dezetter, A., Mahe, G., and Servat, E. (2007), Impact of climate change on water resources in West Africa, International conference for impact of climate change on natural, economical and societal systems in West Africa, Ouagadougou, Burkina Faso

• • *  Corresponding author

  • ‡ PhD, § Master, and # Bachelor student

  • π These authors contributed equally to this work