Exogenous influences on deployment and profitability of photovoltaics for self-consumption in multi-apartment buildings in Australia and Austria
Although the amount of solar photovoltaic systems installed in residential buildings is increasing globally, it is largely limited to single-occupancy dwellings and is extremely uneven across jurisdictions. Deployment on apartment buildings remains low, even in Australia with its world-leading resid...
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| Published in | Applied energy Vol. 283; p. 116309 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.02.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0306-2619 1872-9118 1872-9118 |
| DOI | 10.1016/j.apenergy.2020.116309 |
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| Abstract | Although the amount of solar photovoltaic systems installed in residential buildings is increasing globally, it is largely limited to single-occupancy dwellings and is extremely uneven across jurisdictions. Deployment on apartment buildings remains low, even in Australia with its world-leading residential photovoltaic penetration, or in countries subject to specific enabling legislation, such as Austria. We present a comparative study of photovoltaic system deployment on multi-occupancy residential buildings in these two countries, examining the impact of their distinct climates, financial settings, heating and cooling technologies and regulatory environments. A mixed-integer linear optimisation model is used to compare cost-optimal photovoltaic system size and achievable cost savings for a nine-apartment building. We find that Australia’s higher insolation and lower investment costs drive higher optimal system size and bill savings, but lower electricity tariffs and regulatory barriers constrain deployment. By contrast, European enabling legislation has not yet achieved success in overcoming Austria’s higher investment costs and lower solar exposure, partly due to significant administrative hurdles. Our findings point to possible country-specific policy approaches to increase deployment in this important sector.
•Factors affecting photovoltaic deployment on apartment buildings in 2 countries.•Cost-optimal photovoltaic system sizes and achievable cost savings for 9-unit building.•Austrian deployment constrained by investment costs and low solar exposure.•Australian deployment constrained by regulatory and organisational barriers. |
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| AbstractList | Although the amount of solar photovoltaic systems installed in residential buildings is increasing globally, it is largely limited to single-occupancy dwellings and is extremely uneven across jurisdictions. Deployment on apartment buildings remains low, even in Australia with its world-leading residential photovoltaic penetration, or in countries subject to specific enabling legislation, such as Austria. We present a comparative study of photovoltaic system deployment on multi-occupancy residential buildings in these two countries, examining the impact of their distinct climates, financial settings, heating and cooling technologies and regulatory environments. A mixed-integer linear optimisation model is used to compare cost-optimal photovoltaic system size and achievable cost savings for a nine-apartment building. We find that Australia’s higher insolation and lower investment costs drive higher optimal system size and bill savings, but lower electricity tariffs and regulatory barriers constrain deployment. By contrast, European enabling legislation has not yet achieved success in overcoming Austria’s higher investment costs and lower solar exposure, partly due to significant administrative hurdles. Our findings point to possible country-specific policy approaches to increase deployment in this important sector. Although the amount of solar photovoltaic systems installed in residential buildings is increasing globally, it is largely limited to single-occupancy dwellings and is extremely uneven across jurisdictions. Deployment on apartment buildings remains low, even in Australia with its world-leading residential photovoltaic penetration, or in countries subject to specific enabling legislation, such as Austria. We present a comparative study of photovoltaic system deployment on multi-occupancy residential buildings in these two countries, examining the impact of their distinct climates, financial settings, heating and cooling technologies and regulatory environments. A mixed-integer linear optimisation model is used to compare cost-optimal photovoltaic system size and achievable cost savings for a nine-apartment building. We find that Australia’s higher insolation and lower investment costs drive higher optimal system size and bill savings, but lower electricity tariffs and regulatory barriers constrain deployment. By contrast, European enabling legislation has not yet achieved success in overcoming Austria’s higher investment costs and lower solar exposure, partly due to significant administrative hurdles. Our findings point to possible country-specific policy approaches to increase deployment in this important sector. •Factors affecting photovoltaic deployment on apartment buildings in 2 countries.•Cost-optimal photovoltaic system sizes and achievable cost savings for 9-unit building.•Austrian deployment constrained by investment costs and low solar exposure.•Australian deployment constrained by regulatory and organisational barriers. |
| ArticleNumber | 116309 |
| Author | Auer, Hans Bruce, Anna MacGill, Iain Fina, Bernadette Roberts, Mike B. |
| Author_xml | – sequence: 1 givenname: Bernadette orcidid: 0000-0002-1976-8197 surname: Fina fullname: Fina, Bernadette email: fina@eeg.tuwien.ac.at organization: AIT Austrian Institute of Technology, Giefinggasse 4, 1210 Vienna, Austria – sequence: 2 givenname: Mike B. surname: Roberts fullname: Roberts, Mike B. organization: Collaboration on Energy and Environmental Markets, University of New South Wales, Sydney 2052, Australia – sequence: 3 givenname: Hans orcidid: 0000-0002-9111-9941 surname: Auer fullname: Auer, Hans organization: Energy Economics Group (EEG), Technische Universität Wien, Gusshausstraße 25-29, E370-3, 1040 Vienna, Austria – sequence: 4 givenname: Anna surname: Bruce fullname: Bruce, Anna organization: Collaboration on Energy and Environmental Markets, University of New South Wales, Sydney 2052, Australia – sequence: 5 givenname: Iain orcidid: 0000-0002-9587-6835 surname: MacGill fullname: MacGill, Iain organization: Collaboration on Energy and Environmental Markets, University of New South Wales, Sydney 2052, Australia |
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| SubjectTerms | Apartment buildings Australia Austria comparative study electricity energy Energy communities issues and policy laws and regulations Mixed integer linear optimisation Photovoltaics profitability PV sharing Residential electricity Self-consumption solar collectors solar energy solar radiation |
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| Title | Exogenous influences on deployment and profitability of photovoltaics for self-consumption in multi-apartment buildings in Australia and Austria |
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