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Injecting hydrogen into the natural gas grid supports gradual decarbonization. To check the accuracy of equations of state for hydrogen-enriched natural gas mixtures, precise density data from well-characterized reference mixtures are essential. In a prior study, we provided experimental measurements for a natural gas constituted mainly of methane and for two derived hydrogen-enriched mixtures. In the present study, being the second and final part of our investigation, density measurements for a high-calorific natural gas with significant ethane and propane content, along with two hydrogen-enriched variants (10 and 20 mol-% hydrogen) are provided. The mixtures are gravimetrically prepared following ISO 6142-1. Density measurements, conducted with a single-sinker densimeter at temperatures from (260–350) K and pressures up to 20 MPa, are compared with three equations of state: AGA8-DC92, GERG-2008, and an improved GERG-2008. Results indicate that all models perform better for methane-dominant mixtures than for those containing heavier hydrocarbons. • H 2 -enriched NG promotes hydrogen integration into energy infrastructure. • A reference-quality, high-calorific natural gas mixture was precisely prepared. • Two additional H 2 -enriched NG mixtures were made with 10 % and 20 % hydrogen. • Densities for the three mixtures were measured over a wide T and p range. • Experimental data were compared with GERG-2008 and AGA8-DC92 equations of state.
Lozano-Martín et al. (Fri,) studied this question.
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