Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Phys. Chem. 1987, 91, 6269) and the polarizable COS/G2 (Yu and van Gunsteren, J. Chem. Phys. 2004, 121, 9549) force fields have been employed to calculate the thermal conductivity and other associated properties of methane hydrate over a temperature range from 30 to 260 K. The calculated results are compared to experimental data over this same range. The values of the thermal conductivity calculated with the COS/G2 model are closer to the experimental values than are those calculated with the nonpolarizable SPC/E model. The calculations match the temperature trend in the experimental data at temperatures below 50 K; however, they exhibit a slig...
Molecular dynamics simulations of methane hydrate have been carried out using the polarizable AMOEBA...
Thermal conductivity of methane hydrate was measured in hydrate dissociation self-preservation zone ...
We present molecular dynamics simulation results of a liquid water/methane interface, with and witho...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
The thermal conductivity of methane hydrate is an important physical parameter affecting the process...
Thermal properties of pure methane hydrate, under conditions similar to naturally occurring hydrate-...
Extensive equilibrium molecular dynamics (MD) simulations have been performed to investigate thermal...
This dissertation consists of two independent parts: Part I. methane hydrate, and Part II. water loa...
Molecular dynamics simulations are used to characterize the hydrates of Xe, methane, and CO2, allowi...
Methane hydrates are crystalline solids of water that contain methane molecules trapped inside their...
This article demonstrates a highly accurate molecular dynamics (MD) simulation of thermal conductivi...
Renewed interest in methane hydrates as a potential, unconventional energy source has prompted inves...
Molecular dynamics simulations of methane hydrate have been carried out using the polarizable AMOEBA...
In the present work, we used molecular dynamic simulations of the equilibrium NPT ensemble to examin...
The effective thermal conductivities of gas-saturated porous methane hydrates were measured by a sin...
Molecular dynamics simulations of methane hydrate have been carried out using the polarizable AMOEBA...
Thermal conductivity of methane hydrate was measured in hydrate dissociation self-preservation zone ...
We present molecular dynamics simulation results of a liquid water/methane interface, with and witho...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
The thermal conductivity of methane hydrate is an important physical parameter affecting the process...
Thermal properties of pure methane hydrate, under conditions similar to naturally occurring hydrate-...
Extensive equilibrium molecular dynamics (MD) simulations have been performed to investigate thermal...
This dissertation consists of two independent parts: Part I. methane hydrate, and Part II. water loa...
Molecular dynamics simulations are used to characterize the hydrates of Xe, methane, and CO2, allowi...
Methane hydrates are crystalline solids of water that contain methane molecules trapped inside their...
This article demonstrates a highly accurate molecular dynamics (MD) simulation of thermal conductivi...
Renewed interest in methane hydrates as a potential, unconventional energy source has prompted inves...
Molecular dynamics simulations of methane hydrate have been carried out using the polarizable AMOEBA...
In the present work, we used molecular dynamic simulations of the equilibrium NPT ensemble to examin...
The effective thermal conductivities of gas-saturated porous methane hydrates were measured by a sin...
Molecular dynamics simulations of methane hydrate have been carried out using the polarizable AMOEBA...
Thermal conductivity of methane hydrate was measured in hydrate dissociation self-preservation zone ...
We present molecular dynamics simulation results of a liquid water/methane interface, with and witho...