1. A novel socio-techno-environmental GIS approach to assess the contribution of ground-mounted photovoltaics to achieve climate neutrality in Germany.
- Author
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Fakharizadehshirazi, Elham and Rösch, Christine
- Subjects
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GEOGRAPHIC information systems , *PHOTOVOLTAIC power generation , *BIODIVERSITY conservation , *SOLAR energy , *SOLAR radiation , *SOIL erosion , *ELECTRIC power consumption , *WIND power - Abstract
The German government's goal of achieving climate neutrality by 2045 and increasing the use of renewable energy, particularly wind and solar power, has public support. However, the local siting of wind and solar farms is highly controversial due to land-use conflicts. We have developed a comprehensive Geographic Information System (GIS) model that integrates criteria from the literature to identify optimal locations for ground-mounted photovoltaic (GM-PV). The model is based on a holistic approach considering energy-related factors and broader environmental and climate aspects. The unique feature of the model is its integration of socio-technical and environmental criteria, including a novel approach to achieving a dual land-use climate benefit by protecting erosion-prone soils and conserving soil carbon in areas prone to organic matter decomposition and associated CO 2 release. Our multi-criteria GM-PV model includes 12 restrictions and five suitability criteria representing key socio-technical, economic and environmental aspects. Scenario analysis highlights the sensitivity of Germany's GM-PV potential to defined criteria. In Scenario 1, with minimal constraint, 14.2 % of Germany's land is available for GM-PV, decreasing to 1.9 % in the highly constrained Scenario 12. Suitable areas (>10 ha) account for 0.4 % of Germany's land area, which could cover 8.1 % of Germany's electricity consumption in 2045 in the highly restricted scenario. The spatial distribution results show that the innovative approach of the model changes the preference of GM-PV locations based on factors such as solar radiation in the south and soil carbon storage in the north of Germany. The application of restriction and suitability criteria significantly reduces the potential for GM-PV in Germany but also potential pitfalls for decision-makers. The GIS model can be applied in regional context to integrate stakeholder values and generate region-specific scenarios, as criteria and thresholds can be easily adapted to regional characteristics, preferences, and concerns, including those related to agriculture, biodiversity, and social acceptance. • The model considers climate aspects and integrates socio-technical and ecological criteria. • The novel approach includes soil erosion and CO 2 release from the decomposition of organic matter. • Ground-mounted PV meets at least 8.1 % of Germany's electricity demand in 2045, using 0.4 % of the country's land. • The innovative approach of the model changes the preferred locations for Ground-mounted PV. • The model can integrate stakeholders' local preferences and generate region-specific scenarios. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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