A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
An Innovative HVAC Systems Based on Hydrogen for Buildings
The objective of this scientific research is to evaluate the performances of a hydrogen chain to produce an energy cogeneration and especially heat or cold for buildings. For this we have a technological platform MYRTE platform (Renewable Hydrogen Mission for Integration to the Electric Grid) wich integrate several sub-systems like a 565 kWc photovoltaic farm that aims to provide electrical energy to the electrical network but also to the electrolyser, two PEM electrolysers (10 Nm3/h and 13 Nm3/h electrolysis capacity), two H2/O2 PEM fuel cells (100 kW and 50 kW) that provide electricity using the gas stored in the tanks to deliver electricity to the network, three Tanks to store hydrogen (1960Nm3) and oxygen (980 Nm3) produced via the electrolyser, a SCADA system that ensures the real-time control of the whole system, an electrical components (inverters, rectifiers and transformer station) that ensure the conditioning of the electrical energy to provide the electrical network. It possible to establish an energy cogeneration by valuing the residual heat of the process from electrolyser and the fuel cells for building heating or domestic hot water applications. In order to be part of the continuity of having an innovative multi-purpose platform, we have studied the addition of a third energy dimension by producing cold, which positions us on a tri-generation system (electricity, heat and cold). This Hydrogen Chain is truly a completely \"green\" energy chain.
An Innovative HVAC Systems Based on Hydrogen for Buildings
The objective of this scientific research is to evaluate the performances of a hydrogen chain to produce an energy cogeneration and especially heat or cold for buildings. For this we have a technological platform MYRTE platform (Renewable Hydrogen Mission for Integration to the Electric Grid) wich integrate several sub-systems like a 565 kWc photovoltaic farm that aims to provide electrical energy to the electrical network but also to the electrolyser, two PEM electrolysers (10 Nm3/h and 13 Nm3/h electrolysis capacity), two H2/O2 PEM fuel cells (100 kW and 50 kW) that provide electricity using the gas stored in the tanks to deliver electricity to the network, three Tanks to store hydrogen (1960Nm3) and oxygen (980 Nm3) produced via the electrolyser, a SCADA system that ensures the real-time control of the whole system, an electrical components (inverters, rectifiers and transformer station) that ensure the conditioning of the electrical energy to provide the electrical network. It possible to establish an energy cogeneration by valuing the residual heat of the process from electrolyser and the fuel cells for building heating or domestic hot water applications. In order to be part of the continuity of having an innovative multi-purpose platform, we have studied the addition of a third energy dimension by producing cold, which positions us on a tri-generation system (electricity, heat and cold). This Hydrogen Chain is truly a completely \"green\" energy chain.
An Innovative HVAC Systems Based on Hydrogen for Buildings
Cristofari, Christian (author) / Espinoza, M. (author) / Canaletti, J. (author) / Si Ahmed, D. (author) / Norvaišienė, Rosita (author)
2019-01-01
Conference on sustainable developmet of energy, Water and Environment Systems. Book of Abstracts. Dubrovnik, 1-6.10.2019 SDEWES 14th Croatia: 14th SDEWES CONFERENCE, Faculty of Mechanical Engineering and Naval Architecture, Zagreb, 2019, p. 244 ; ISSN 1847-7186 ; eISSN 1847-7178
Conference paper
Electronic Resource
English
DDC:
690
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