Skip to the main content

Original scientific paper

Investigation of the solar and wind energy usage of a positive energy factory

István Ervin Háber ; Department of Information Technology, Pollack Mihály Faculty of Engineering and Information Technology, University of Pécs, Rókus str. 2, H-7624 Pécs, Hungary
István Kistelegdi ; Department of Information Technology, Pollack Mihály Faculty of Engineering and Information Technology, University of Pécs, Rókus str. 2, H-7624 Pécs, Hungary
István Farkas ; Department of Physics and Process Control, Szent István University of Gödöllő, Prater Károly str. 1, H-2034 Gödöllő, Hungary


Full text: croatian pdf 1.755 Kb

versions

page 1243-1248

downloads: 488

cite

Full text: english pdf 1.755 Kb

versions

page 1243-1248

downloads: 405

cite


Abstract

Very important to know at a positive-energy building in the design phase is what portion of the whole energy usage will be collected from renewable resources. In this case, at RATI Factory building in Komlo, Hungary, numerical fluid simulations (CFD) have been made to determine the heat transfer coefficients (α) for photovoltaic modules in this specific installation, and to investigate the passive ventillation, assisted by so-called Venturi-Plates. The efficiency of the natural ventilation depends on the geometrical properties (openings, Venturi-tower height, Venturi-plate design, etc.), and the photovoltaic efficiency is also influenced by air flow, since it is cooling the modules. Heat transfer at photovoltaic modules can be described among other methods, with heat resistance network. The inside of material behaviour depends on physical properties, but the heat transfer at the boundary is described by α, which hangs big rate on the air flow around the modules. These CFD simulations were validated by real wind tunnel tests, and on these pre-tests is based the ventilation control and the coming measurements in the already existing building.

Keywords

CFD; energy yield; heat transfer; passive ventilation; photovoltaic; solar energy; wind tunnel

Hrčak ID:

131320

URI

https://hrcak.srce.hr/131320

Publication date:

21.12.2014.

Article data in other languages: croatian

Visits: 1.717 *