Author(s)

Akira Nishimura¹, Satoshi Kitagawa¹, Masafumi Hirota¹, Mohan Lal Kolhe²

¹Division of Mechanical Engineering, Graduate School of Engineering, Mie University, Tsu, Japan.
²Faculty of Engineering and Science, University of Agder, Kristiansand, Norway.

A building integrated energy system (photovoltaic (PV) and fuel cell (FC)) is proposed for assessment of the energy self-sufficiency rate in five cities of Mie prefecture in Japan. In this work, it is considered that the electricity requirement of the building is provided by the building integrated photovoltaic (BIPV) system and the gap between the energy demand and BIPV supply is fulfilled by the FC. The FC is powered by the electrolytic H2 produced from the surplus power of PV. A design study of using the proposed system in five cities in Mie prefecture, which are in center part of Japan, has been performed. It has been observed that the monthly power production from BIPV is higher in spring and summer, while it is lower in autumn and winter at all considered locations. The self-sufficiency rate of the FC system is higher with decreasing households’ number and it has been observed that the 12 households are more suitable for full cover of the electricity demand by the combined system of PV and FC. The relationship between the households’ number and self-sufficiency rate of the FC system per solar PV installation area can be expressed by exponential curve. The coefficient of the exponential curve can predict the suitable city for the BIPV system with FC system utilizing electrolytic H2 generated by using excess energy from the PV system.

Smart Building, Photovoltaics, H2 Produced by Water Electrolysis, Fuel Cell, Self-Sufficiency Rate

Nishimura, A. , Kitagawa, S. , Hirota, M. and Kolhe, M. (2017) Energy Assessment of Building Integrated Photovoltaics and Fuel Cell Systems: Design Study for Building(s) of Mie, Japan. Smart Grid and Renewable Energy, 8, 129-144. doi: 10.4236/sgre.2017.85009.