This is the dataset presented in the article "Local thermodynamic description of isothermal single-phase flow in porous media" [1]. This dataset contains three files: "equilibrium.out", "equilibrium_bulk.out", and "flow.out". The first file contains data for equilibrium simulations of the porous medium, while the second file contains data for equilibrium simulations of bulk fluid, and the third file contains data for non-equilibrium simulations of the porous medium. [1] https://doi.org/10.1007/s11242-022-01844-x In the file "equilibrium.out" the columns from left to right are Temperature Standard deviation of the temperature Lattice constant Fluid chemical potential Potential energy Standard deviation of the potential energy Kinetic energy Standard deviation of the kinetic energy Fluid mass density Standard deviation of the fluid mass density In the file "equilibrium_bulk.out" the columns from left to right are Temperature Standard deviation of the temperature Fluid chemical potential Potential energy Standard deviation of the potential energy Kinetic energy Standard deviation of the kinetic energy Fluid mass density Standard deviation of the fluid mass density Trace of the mechanical pressure tensor divided by 3 Standard deviation of the trace of the mechanical pressure tensor divided by 3 In the file "flow.out" the columns from left to right are Temperature Standard deviation of the temperature Lattice constant Fluid chemical potential Passing probability of reflecting particle method (RPM) Mass flux Standard deviation of the mass flux Integral pressure gradient Standard deviation of the integral pressure

This is the dataset presented in the article "Local thermodynamic description of isothermal single-phase flow in porous media" [1]. This dataset contains three files: "equilibrium.out", "equilibrium_bulk.out", and "flow.out". The first file contains data for equilibrium simulations of the porous medium, while the second file contains data for equilibrium simulations of bulk fluid, and the third file contains data for non-equilibrium simulations of the porous medium. [1] https://doi.org/10.1007/s11242-022-01844-x In the file "equilibrium.out" the columns from left to right are Temperature Standard deviation of the temperature Lattice constant Fluid chemical potential Potential energy Standard deviation of the potential energy Kinetic energy Standard deviation of the kinetic energy Fluid mass density Standard deviation of the fluid mass density In the file "equilibrium_bulk.out" the columns from left to right are Temperature Standard deviation of the temperature Fluid chemical potential Potential energy Standard deviation of the potential energy Kinetic energy Standard deviation of the kinetic energy Fluid mass density Standard deviation of the fluid mass density Trace of the mechanical pressure tensor divided by 3 Standard deviation of the trace of the mechanical pressure tensor divided by 3 In the file "flow.out" the columns from left to right are Temperature Standard deviation of the temperature Lattice constant Fluid chemical potential Passing probability of reflecting particle method (RPM) Mass flux Standard deviation of the mass flux Integral pressure gradient Standard deviation of the integral pressure

This is the dataset presented in the article "Nanothermodynamic description and molecular simulation of a single-phase fluid in a slit pore" [1]. The columns from left to right are Slit pore height Normal pressure Standard deviation of the mean of the normal pressure Integral pressure Standard deviation of the mean of the integral pressure Surface tension Standard deviation of the mean of the surface tension Normal pressure from local fluid number density profile Standard deviation of the mean of the normal pressure from local fluid number density profile Fluid number density Standard deviation of the mean of the fluid number density Number of samples Zeroes Temperature Standard deviation of the mean of the temperature Potential energy Standard deviation of the mean of the potential energy Kinetic energy Standard deviation of the mean of the kinetic energy https://arxiv.org/abs/2012.00562

This is the dataset presented in the article "Nanothermodynamic description and molecular simulation of a single-phase fluid in a slit pore" [1]. The columns from left to right are Slit pore height Normal pressure Standard deviation of the mean of the normal pressure Integral pressure Standard deviation of the mean of the integral pressure Surface tension Standard deviation of the mean of the surface tension Normal pressure from local fluid number density profile Standard deviation of the mean of the normal pressure from local fluid number density profile Fluid number density Standard deviation of the mean of the fluid number density Number of samples Zeroes Temperature Standard deviation of the mean of the temperature Potential energy Standard deviation of the mean of the potential energy Kinetic energy Standard deviation of the mean of the kinetic energy https://arxiv.org/abs/2012.00562