Hydrogen plays a crucial role in the zero-carbon emission objective of the global 2050 long-term strategy. The injection into the gas grid, of the hydrogen “green” gas produced by the power to gas technology, is a potential solution to reduce CO2 emissions. This paper developed a steady-state model for quality tracking in gas networks. A gas distribution network with two principal natural gas sources and a localized hydrogen source was simulated. Results show how the hydrogen injected affects the pressure and the quality of gas delivered. The influence depends on the location of the injection node and changes during the day. It can be reduced by choosing an appropriate position of the hydrogen source.
STEADY-STATE SIMULATION OF GAS DISTRIBUTION NETWORKS IN THE PRESENCE OF LOCALIZED HYDROGEN INJECTIONS / Dominique Adolfo; Carlo Carcasci. - ELETTRONICO. - (2019), pp. 96-1-96-8. (Intervento presentato al convegno International Conference on Applied Energy 2019 (ICAE) tenutosi a Västerås, Sweden nel Aug 12-15, 2019).
STEADY-STATE SIMULATION OF GAS DISTRIBUTION NETWORKS IN THE PRESENCE OF LOCALIZED HYDROGEN INJECTIONS
Dominique Adolfo;Carlo Carcasci
2019
Abstract
Hydrogen plays a crucial role in the zero-carbon emission objective of the global 2050 long-term strategy. The injection into the gas grid, of the hydrogen “green” gas produced by the power to gas technology, is a potential solution to reduce CO2 emissions. This paper developed a steady-state model for quality tracking in gas networks. A gas distribution network with two principal natural gas sources and a localized hydrogen source was simulated. Results show how the hydrogen injected affects the pressure and the quality of gas delivered. The influence depends on the location of the injection node and changes during the day. It can be reduced by choosing an appropriate position of the hydrogen source.
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