A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Design of the back-up system in Patio 2.12 photovoltaic installation
Highlights Sustainable and building integrated solar housing participant in Solar Decathlon 2012. Design of the building integrated PV system in Patio 2.12 house. PV installation with global electrical energy management system. Model to analyze the electrical energy balance of the entire PV installation. Estimation of the electrical PV generation and the electric exchanges with the grid and the battery bank.
Abstract Andalucía team presented in the Solar Decathlon Europe 2012 competition a proposal of a modular, sustainable, self-sufficient housing, Patio 2.12. Inspired by Mediterranean style, Patio 2.12 was composed of four habitable modules around a common space (“patio”). Each habitable module has a photovoltaic system on its roof. Simplicity and modularity determined the design of the photovoltaic system so that, together with a global electrical energy management system, the use of the locally generated electrical energy can be optimized. Amongst others, a remarkable innovation included in Patio 2.12 was the use of an intelligent controlling device, based on an energetic support system that could manage the flows of electrical energy of all elements of the electrical installation integrated in the house. This system allows adapting the electricity availability to the consumption demand, maximizing the amount of photovoltaic energy locally generated and instantaneously consumed. This paper implements the use of a simulation software model to analyze the electrical energy balance of the photovoltaic electrical installation. This model estimates the electrical photovoltaic generation and the electrical exchanges with the grid and the battery bank, under a determined load profile, and for a specific period of time, using environmental data as inputs to the model.
Design of the back-up system in Patio 2.12 photovoltaic installation
Highlights Sustainable and building integrated solar housing participant in Solar Decathlon 2012. Design of the building integrated PV system in Patio 2.12 house. PV installation with global electrical energy management system. Model to analyze the electrical energy balance of the entire PV installation. Estimation of the electrical PV generation and the electric exchanges with the grid and the battery bank.
Abstract Andalucía team presented in the Solar Decathlon Europe 2012 competition a proposal of a modular, sustainable, self-sufficient housing, Patio 2.12. Inspired by Mediterranean style, Patio 2.12 was composed of four habitable modules around a common space (“patio”). Each habitable module has a photovoltaic system on its roof. Simplicity and modularity determined the design of the photovoltaic system so that, together with a global electrical energy management system, the use of the locally generated electrical energy can be optimized. Amongst others, a remarkable innovation included in Patio 2.12 was the use of an intelligent controlling device, based on an energetic support system that could manage the flows of electrical energy of all elements of the electrical installation integrated in the house. This system allows adapting the electricity availability to the consumption demand, maximizing the amount of photovoltaic energy locally generated and instantaneously consumed. This paper implements the use of a simulation software model to analyze the electrical energy balance of the photovoltaic electrical installation. This model estimates the electrical photovoltaic generation and the electrical exchanges with the grid and the battery bank, under a determined load profile, and for a specific period of time, using environmental data as inputs to the model.
Design of the back-up system in Patio 2.12 photovoltaic installation
García-Domingo, B. (author) / Torres-Ramírez, M. (author) / de la Casa, J. (author) / Aguilera, J. (author) / Terrados, F.J. (author)
Energy and Buildings ; 83 ; 130-139
2014-01-01
10 pages
Article (Journal)
Electronic Resource
English
Self-sufficient housing , Building-integrated photovoltaic , Solar decathlon , Photovoltaic system design , Electrical energy balance , PV , photovoltaic , SDE , Solar Decathlon Europe , IDEA , investigation and development in solar energy , TMY , typical meteorological year , AC , : alternating current , SOC , : state of charge , NOCT , normal operation cell temperature , MPP , maximum power point , STC , standard test conditions , DC , direct current
Design of the back-up system in Patio 2.12 photovoltaic installation
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