The integration of photovoltaics (PV) into buildings goes beyond energy saving by providing a clean and elegant way of actually generating electricity. There are already numerous successful examples and rapid technological improvements promise expansion of PV's present niche market to that of a major energy provider of the 21st century. This handbook is the outcome of a five year programme which took place under the auspices of the International Energy Agency. Architects and solar experts from 13 countries addressed the wide range of engineering and architectural issues involved in the successful integration of PV into buildings. It demonstrates how to maximise the overall solar contribution to the building; integrate PV effectively with the building structure; clarify the relationship of PV with other elements of the building's energy system; optimise the system economics. It forms a thorough design guide that covers all aspects if the subject and will enable all building designers, engineers and property owners to make the integration of PV into buildings an architecturally appealing and energetically effective option.increasing the size of the PV array and its requisite energy storage system (the battery). ... Substantial cost savings can be achieved and overall system reliability is enhanced. ... REGULATOR r ~ DC LOAD CENTER POWER I QApMSMT SYSTEM --------------------------- tTMT CONTROL 60*7*01 ENGINE GENERA TOR ~ BATTERY CHARGER POWER INVERTER ac ... I L O A D S J tO/*D CENTER I L O A D S I Figure 10.3 Block diagram of a hybrid PVGenset system (Photron Canada Inc.).
|Title||:||Photovoltaics in Buildings|
|Author||:||Friedrich Sick, Thomas Erge|
|Publisher||:||Routledge - 2014-01-14|