Abstract
Previous hydraulic and thermal modellings of an operating mode of a doublet, with a stochastic approach of the fissured medium, do not take into account some characteristic parameter interactions, as hydraulic impedance and fluid loss rate with the mechanical strain level of the fracture system. A hydraulic and mechanical interaction based coupled model is presented here. Numerical simulations show that the calculated behaviour agree well with the observed phenomenons.
Citation Formats
Bruel, D, Cacas, M C, and Ledoux, E.
Heat extraction from hot and dry rocks. Presentation of a coupled hydro-mechanical model.
France: N. p.,
1990.
Web.
Bruel, D, Cacas, M C, & Ledoux, E.
Heat extraction from hot and dry rocks. Presentation of a coupled hydro-mechanical model.
France.
Bruel, D, Cacas, M C, and Ledoux, E.
1990.
"Heat extraction from hot and dry rocks. Presentation of a coupled hydro-mechanical model."
France.
@misc{etde_10117789,
title = {Heat extraction from hot and dry rocks. Presentation of a coupled hydro-mechanical model}
author = {Bruel, D, Cacas, M C, and Ledoux, E}
abstractNote = {Previous hydraulic and thermal modellings of an operating mode of a doublet, with a stochastic approach of the fissured medium, do not take into account some characteristic parameter interactions, as hydraulic impedance and fluid loss rate with the mechanical strain level of the fracture system. A hydraulic and mechanical interaction based coupled model is presented here. Numerical simulations show that the calculated behaviour agree well with the observed phenomenons.}
place = {France}
year = {1990}
month = {Dec}
}
title = {Heat extraction from hot and dry rocks. Presentation of a coupled hydro-mechanical model}
author = {Bruel, D, Cacas, M C, and Ledoux, E}
abstractNote = {Previous hydraulic and thermal modellings of an operating mode of a doublet, with a stochastic approach of the fissured medium, do not take into account some characteristic parameter interactions, as hydraulic impedance and fluid loss rate with the mechanical strain level of the fracture system. A hydraulic and mechanical interaction based coupled model is presented here. Numerical simulations show that the calculated behaviour agree well with the observed phenomenons.}
place = {France}
year = {1990}
month = {Dec}
}