Abstract
This article concerns the numerical analysis of high pressure hydrogen-natural gas mixtures flows in pipeline networks during steady and transient states. The considered fluid is an homogeneous mixture of hydrogen and natural gas. An isentropic process is admitted for both components and under such assumption the density of the binary gas mixture is defined. The steady state was studied by the use of Hardy Cross method. The numerical simulation of the transient regime was performed by solving the conservation equations, for one-dimensional isentropic compressible flow, using the characteristics method of specified time intervals. The obtained results have proved the efficiency of the characteristics method compared to other numerical techniques. The numerical obtained results have shown that, during transients, pressure oscillations for hydrogen and hydrogen-natural gas mixtures are higher compared to those for natural gas.
•Adiabatic gas flow through looped network ducts is analysed.•A correction term for gas mixture network equilibrium is established.•Characteristic method is used for analysing transient flow in a looped gas network.•The effect of hydrogen injection into natural gas looped network is analyzed.•The transient wave propagation phenomenon, through the network duct is emphasized.