Manab Mukherjee

Post-Doctorant

Equipe TERA
Manab Mukherjee
Organisation:
Géosciences Rennes
Address:

Bât. 14B, campus Beaulieu

Université de Rennes 1

Localité:

RENNES 35042

France

Adresse courriel : manab [dot] mukherjee [at] univ-rennes1 [dot] fr

Numéro de bureau : Bât 14B, P209

Research

I work on storage and transport mechanisms of fluid in porous and fractured geomaterials using experimental tools such as rock mechanics and petrophysics. My research aims to utilize the subsurface for storage of fluids; such as CO2 which is harmful to the environment or phases such as H2 which can be utilized as energy sources . My overall research direction aims to provide technological mitigation measures to climate change with adaption of energy transition.

Expertise

  • Uniaxial, biaxial and triaxial rock deformation experiments in compression and tensional regimes
  • Core flooding and single or multi phase permeability measurements with both liquid as well as gas
  • Pore size characterization using gas intrusion and image analysis methods
  • Elasticity characterization and laboratory scale seismic event monitoring through acoustic emission sensors

Publications

  1. Mukherjee, M., & Misra, S., 2018. A review of experimental research on Enhanced Coal Bed Methane (ECBM) recovery via CO2 sequestration. Earth-Science Rev. 179, 392–410. https://doi.org/10.1016/j.earscirev.2018.02.018
  2. Mukherjee, M., Misra, S., & Raja, E., 2020. Determination of dynamic elastic properties of dry, wet and partially CO2 saturated coals from laboratory scale ultrasonic response. International Journal of Green-House Gas Control. 96, 103000. https://doi.org/10.1016/j.ijggc.2020.103000
  3. Mukherjee, M., Misra, S., & Gupta, A., 2020. CO2 adsorption volume and kinetics considering corresponding pore size distribution in Gondwana coals: implications for shallow-depth CO2 sequestration potential. Journal of Natural Gas Science and Engineering. 89, 103901. https://doi.org/10.1016/j.jngse.2021.103901
  4. Mukherjee, M., Bal, A., & Misra, S., 2021. Role of Pore-Size Distribution in Coals to Govern the Klinkenberg Coefficient and Intrinsic Permeability. Energy & Fuels. 35, 11, 9561–9569. https://doi.org/10.1021/acs.energyfuels.1c00480