Accurate numerical simulation of coupled fluid flow and heat transfer in heterogeneous geothermal reservoirs demand for high resolution computational grids. The resulting fine-scale discrete systems--though crucial for accurate predictions--are typically upscaled to lower resolution systems due to computational efficiency concerns. Therefore, advanced scalable methods which are efficient and accurate for real-field applications are more than ever on demand. To address this need, we present an algebraic dynamic multilevel method for flow and heat transfer in heterogeneous formations, which allows for different temperature values for fluid and rock. The fine-scale fully-implicit discrete system is mapped to a dynamic multilevel grid, the solu...
Accurate simulation of multiphase flow in subsurface formations is challenging, as the formations sp...
A multiscale gradient computation method for multiphase flow in heterogeneous porous media is develo...
Development of enhanced geothermal systems (EGS) will require creation of a reservoir of sufficient ...
Accurate numerical simulation of coupled fluid flow and heat transfer in heterogeneous geothermal re...
Accurate simulation of fluid flow and heat transfer in geothermal reservoirs is a crucial necessity ...
A dynamic multilevel method for fully-coupled simulation of flow and heat transfer in heterogeneous ...
An algebraic dynamic multilevel (ADM) method for fully-coupled simulation of flow and heat transport...
We develop a multiscale simulation strategy, namely, algebraic dynamic multilevel (ADM) method, for ...
Efficient heat exploitation strategies from geothermal systems demand for accurate and efficient sim...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
An algebraic dynamic multilevel method (ADM) is developed for fully-implicit (FIM) simulations of mu...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
Modern geoscience challenges motivate the development of advanced simulation methods for large-scale...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
An algebraic dynamic multilevel (ADM) method for multiphase flow in heterogeneous fractured porous m...
Accurate simulation of multiphase flow in subsurface formations is challenging, as the formations sp...
A multiscale gradient computation method for multiphase flow in heterogeneous porous media is develo...
Development of enhanced geothermal systems (EGS) will require creation of a reservoir of sufficient ...
Accurate numerical simulation of coupled fluid flow and heat transfer in heterogeneous geothermal re...
Accurate simulation of fluid flow and heat transfer in geothermal reservoirs is a crucial necessity ...
A dynamic multilevel method for fully-coupled simulation of flow and heat transfer in heterogeneous ...
An algebraic dynamic multilevel (ADM) method for fully-coupled simulation of flow and heat transport...
We develop a multiscale simulation strategy, namely, algebraic dynamic multilevel (ADM) method, for ...
Efficient heat exploitation strategies from geothermal systems demand for accurate and efficient sim...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
An algebraic dynamic multilevel method (ADM) is developed for fully-implicit (FIM) simulations of mu...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
Modern geoscience challenges motivate the development of advanced simulation methods for large-scale...
A coupled description of flow and thermal-reactive transport is spanning a wide range of scales in s...
An algebraic dynamic multilevel (ADM) method for multiphase flow in heterogeneous fractured porous m...
Accurate simulation of multiphase flow in subsurface formations is challenging, as the formations sp...
A multiscale gradient computation method for multiphase flow in heterogeneous porous media is develo...
Development of enhanced geothermal systems (EGS) will require creation of a reservoir of sufficient ...