Active surfaces selection method for building-integrated photovoltaics (BIPV) in renovation projects based on self-consumption and self-sufficiency

Moreno, Sergi Aguacil; Lufkin, Sophie; Rey, Emmanuel

doi:10.1016/j.enbuild.2019.03.035

Cited by 54 publications

(21 citation statements)

References 30 publications

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“…BIPV are PV installed in either roofs or other parts of the building such as facades, windows, or balconies. They are used where solar PV modules are joined into the building structure [34,41]. BIPVT is a building-integrated photovoltaic-thermal system, which is used for the simultaneous conversion of the energy of radiant solar energy into electricity and thermal energy [42,43].…”

Section: Overview Of the Pv Systemsmentioning

confidence: 99%

Semitransparent Building-Integrated Photovoltaic: Review on Energy Performance, Challenges, and Future Potential

Joseph

Pogrebnaya

Kichonge

2019

International Journal of Photoenergy

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Buildings consume large amounts of energy, and their transformation from energy users to producers has attracted increasing interest in the quest to help optimize the energy share, increasing energy efficiency and environmental protection. The use of energy-efficient materials is among the proposed approaches to increase the building’s energy balance, thus increasing the performance of building facades. Semitransparent building-integrated photovoltaic (BIPV), being one of the technologies with the potential to increase a building’s energy efficiency, is considered as a feasible method for renewable power generation to help buildings meet their own load, thus serving dual purposes. Semitransparent BIPV integration into buildings not only displaces conventional building facade materials but also simultaneously generates energy while retaining traditional functional roles. The awareness in improving building energy efficiency has increased as well as the awareness in promoting the use of clean or renewable energy technologies. In this study, semitransparent BIPV technology is reviewed in terms of energy generation, challenges, and ways to address limitations which can be used as a reference for the BIPV stakeholders.

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Section: Overview Of the Pv Systemsmentioning

confidence: 99%

Semitransparent Building-Integrated Photovoltaic: Review on Energy Performance, Challenges, and Future Potential

Joseph

Pogrebnaya

Kichonge

2019

International Journal of Photoenergy

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“…Approaching the end of 21st century second decade, architects and engineers working in Mediterranean countries will have no difficulty to access updated books and advanced studies on solar architecture to learn how to effectively integrate solar energy technology into the architectural envelope.…”

Section: Introductionmentioning

confidence: 99%

Solar Energy and New Energy Technologies for Mediterranean Countries

et al. 2019

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“…is is because the solar PV has minimal greenhouse gas emissions related to burning fossil fuel or any other source of energy. is is also proved by [3,12] that photovoltaic solar energy is an e cient and cost e ective energy as it has transformed socio-economic lives in villages, cities, and countries in Africa. Solar energy is converted to direct current electricity by PV materials, such as monocrystalline silicon, polycrystalline silicon, and amorphous silicon as described by Green et al [13].…”

Section: Introductionmentioning

confidence: 99%

“…O ce buildings are particularly suitable for BIPV as they consume energy primarily in daytime, which is when the PV system collects and converts the solar energy into electricity; thus, the e ort and cost associated with energy storage can be avoided according to Yang et al [27]. BIPV technology is becoming widely used in most modern buildings worldwide, especially o ce buildings, residential buildings, and greenhouses [12,28]. e technology most used in an o ce building is the semi-transparent integrated PV because it creates a pleasant environment allowing natural light to enter the building and avoiding overheating in the summertime while producing electricity.…”

Section: Introductionmentioning

confidence: 99%

Semi-Transparent Building Integrated Photovoltaic Solar Glazing: Investigations of Electrical and Optical Performances for Window Applications in Tropical Region

2019

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Integrating solar PV technology with semi-transparent windows permits multifunctional operation as electricity generation and allowing natural light to enter the building, hence overall energy efficiency improvement. The performance of the semi-transparent building integrated PV glazing on office building facade has been investigated in Tanzania’s tropical climate. Experimental measurements of the electrical and optical parameters for the system efficacy evaluation were done at various conditions which included cloudy, normal, and clear sky days. The weather parameters under consideration were solar irradiance, air temperature, relative humidity, and wind speed. The experimental set-up consisted of building integrated silicon mono crystalline semi-transparent PV module rated at 50 W and accessories. The I-V and P-V curves were measured at different irradiances. Throughout the experiment, the observed module temperature was between 20°C and 51°C and the air temperature was 17–33°C while the humidity was recorded at the range of 23–63%. Module electrical efficiency was observed to vary from 4% to 9% while the visible light transmission was obtained between 11% and 19%. It was proved that at high temperature regardless of irradiance increase, there were observed output power and efficiency drops caused by high heat losses.

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Active surfaces selection method for building-integrated photovoltaics (BIPV) in renovation projects based on self-consumption and self-sufficiency

Cited by 54 publications

References 30 publications

Semitransparent Building-Integrated Photovoltaic: Review on Energy Performance, Challenges, and Future Potential

Semitransparent Building-Integrated Photovoltaic: Review on Energy Performance, Challenges, and Future Potential

Solar Energy and New Energy Technologies for Mediterranean Countries

Semi-Transparent Building Integrated Photovoltaic Solar Glazing: Investigations of Electrical and Optical Performances for Window Applications in Tropical Region

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