期刊
ENERGY
卷 110, 期 -, 页码 5-22出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2016.03.097
关键词
Renewable hydrogen; H(2)NG hydrogen-methane mixtures; MHHP metal hydride heat pump; GHP gas-driven heat pump; SCH4 synthetic methane; Energy transition
Nowadays, two fundamental issues are related to the Energy transition towards Future Smart Energy Systems: the design of new high efficiency technological appliances and the use of new Eco-fuels. The crucial challenge is to integrate the increasing share of intermittent RES (Renewable Energy Sources) in National energy mix. Above all, linking both heat and electricity production is the key strategy to face this challenge at urban, regional and national scale. Power-To-Gas application by means of Renewable Hydrogen (H-2) production would be the viable solution due to H-2 has a double application: as a fuel for combustion or chemical conversion as well as an energy storage medium for RES mismatch compensation. In this paper four different H-2-technologies were considered: Hydrogen enriched Natural Gas (H2NG), MHHP (Metal Hydride Heat Pump), GHP (Gas-driven Heat Pump) and SCH4 (Synthetic Methane). An aggregated energy system model was built to assess H-2 contribution in PES (primary energy saving). When RES share ranges from 25% to 50%, using H-2 for heating purposes avoids the low round trip efficiency of its deferred electricity purpose. If transport excluded, there are no meaningful gains from H2Ts systems but, they allow to green NG end-uses and decarbonize heating, especially, where NG-Grid is widespread. (C) 2016 Elsevier Ltd. All rights reserved.
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