As a critical component in the mix of regenerative energies, photovoltaics help slow the progress of climate change and furnish the earth with a long-term and affordable supply of energy. They are fascinating, with their ability to produce electricity seemingly from qnothing, q silently, cleanly, and virtually maintenance-free. As a building-integrated technology, photovoltaics have their ideal point of use precisely where electricity is needed and utilize existing spaces and wiring. Yet the scale of current applications of photovoltaics still lags far behind their potential, despite the fact that manufacturers already offer a wide range of different technologies and products. The principal culprits are design and constructional problems as well as issues related to planning law and building regulations. This volume in the DETAIL Practice series is an illustrated guide to the technical, design, and constructional aspects of integrating solar plants into buildings. The chapter on building law, a glossary, and additional sources and directories point the way for further study. Impeccably realized example projects round out the book with demonstrations of the various options for installing photovoltaics on roofs and facades.42 Central inverter of 100 kW output power 43 Wall-mounted string inverters and DC disconneca tors in a basement plant room. ... roof installation): building envelope penetrated by DC cable(s) 46 Module interconnection with central inverter repairs ... The generation meter is normally rented from the network operator and installed in the existing building distribution board alongside the consumer meter.
|Title||:||Detail Practice: Photovoltaics|
|Author||:||Bernhard Weller, Claudia Hemmerle, Sven Jakubetz, Stefan Unnewehr|
|Publisher||:||Walter de Gruyter - 2010-01-01|