APPLICATION OF SEMI-TRANSPARENT PHOTOVOLTAICS IN TRANSPORTATION INFRASTRUCTURE FOR ENERGY SAVINGS AND SOLAR ELECTRICITY PRODUCTION: TOWARDS NOVEL NET-ZERO ENERGY TUNNEL DESIGN

摘要

Lighting subsystems consume 50% of the energy needs of a typical tunnel. Day-time lighting levels account for over two-thirds of the total system lighting power; their periodic nature creates daily peaks in the tunnel's energy load profile. This paper studies the integration of semi-transparent photovoltaic (STPV) cells into sunscreen structures installed above tunnel entrances to reduce tunnel lighting requirements and offset their day-time lighting loads using energy generated from PVs. The electrical lighting load of a typical 1 km length road tunnel with and without semitransparent photovoltaics (STPV) sunscreen structures was modelled to establish the potential for energy savings. Using a daylighting and energy modeling plug-in called DIVA, the transparencies and ratios of photovoltaics (PV) to glass of a STPV sunscreen that are in accordance with the luminance reduction code requirements were determined. Reduced lighting requirements over the whole tunnel length, including the threshold, transition and interior lighting zones of the tunnel were considered, resulting in significant energy savings. The annual power production of the sections covered with STPV was then simulated using the PVsyst software. The integration of photovoltaic cells resulted in annual energy production that reduced annual energy use by up to 7% and the potential to reduce electric lighting loads by up to 60% during the day. Results also demonstrated that STPV sunscreens have the potential to meet luminance requirements if supplemented with an intelligent lighting control system.