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Assessing the dual radiative consequences of urban PV integration: Albedo change and radiative forcing dynamics

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  • Zhou, Yilong
  • Marathe, Shredatta
  • Zeman, Miro
  • Isabella, Olindo
  • Ziar, Hesan

Abstract

Integrating photovoltaic (PV) systems in urban areas enhances local renewable electricity production but also reduces surface albedo due to the lower reflectivity of PV panels. This albedo reduction increases Earth’s energy absorption, resulting in positive radiative forcing (RF), while the displacement of fossil fuels by PV electricity leads to negative RF through avoided CO2 emissions. This study quantifies the net RF impact of urban rooftop PV deployment using a novel workflow. This proposed workflow combines: (1) a geometric spectral albedo (GSA) model, using LiDAR data and geo-referenced material maps to simulate albedo changes before and after PV integration; and (2) a simplified skyline-based PV model, using LiDAR-derived roof geometry to estimate annual PV electricity generation. The method is applied to the city of Delft, the Netherlands, and the average simulated albedo of Delft is 0.1584, differing by 6.12 % from MODIS observations (0.1493). Full PV integration on all rooftops reduces the city-wide albedo to 0.1557, corresponding to a positive RF of 3.53×10−8 W/m2. This can be offset in about 40 days by negative RF from PV electricity, assuming a grid carbon intensity of 454 gCO2-eq/kWh. However, under a low-carbon grid scenario (30 gCO2-eq/kWh), the payback time increases to 623 days, indicating that positive RF from albedo reduction becomes more relevant in future decarbonized scenarios. This study contributes to understanding the climatic implications of urban PV deployment and offers insights into the realistic potential of PV systems in mitigating climate change.

Suggested Citation

  • Zhou, Yilong & Marathe, Shredatta & Zeman, Miro & Isabella, Olindo & Ziar, Hesan, 2025. "Assessing the dual radiative consequences of urban PV integration: Albedo change and radiative forcing dynamics," Applied Energy, Elsevier, vol. 401(PA).
    • Handle: RePEc:eee:appene:v:401:y:2025:i:pa:s0306261925012747
    DOI: 10.1016/j.apenergy.2025.126544
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