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Life cycle assessment of pasture-based agrivoltaic systems: Emissions and energy use of integrated rabbit production
2021-08-10 返回列表
Alexis S. Pascaris a , Rob Handler b , Chelsea Schelly a , Joshua M. Pearce c,d,* 
a Department of Social Sciences, Michigan Technological University, 1400 Townsend Drive, Houghton, MI, 49931, USA
b Sustainable Futures Institute, Michigan Technological University, 1400 Townsend Dr., Houghton, MI, 49931, USA
c Department of Materials Science & Engineering and Department of Electrical & Computer Engineering, Michigan Technological University, 1400 Townsend Drive, Houghton, MI, 49931, USA
d Department of Electrical & Computer Engineering, Western University, London, ON, N6A 5B9, Canada
 
Keywords: Agrivoltaic Photovoltaic Life cycle assessment Land use Dual use Rabbit
 
ABSTRACT
Agrivoltaic systems, which deliberately maximize the utility of a single parcel of land for both solar photovoltaic (PV) electricity production and agriculture, have been demonstrated as a viable technology that can ameliorate competing land uses and meet growing energy and food demands efficiently. The goal of this study is to assess the environmental impacts of a novel pasture-based agrivoltaic concept: co-farming rabbits and solar PV. A life cycle assessment (LCA) quantified the impacts of 1) the integrated agrivoltaic concept in comparison to conventional practices including 2) separate rabbit farming and PV production and 3) separate rabbit farming and conventional electricity production. The impact assessment methods employed to determine the environmental impacts were IPCC 2013 global warming potential 100a V1.03 and fossil energy demand V1.11. The results indicate that the pasture-based agrivoltaic system produces the least amount of greenhouse gas emissions (3.8 million kg CO₂ equivalent) and demands the least amount of fossil energy (46 million MJ) per functional unit of cumulative MWh output of electricity and cumulative kg of meat over 30 years in comparison to the two other scenarios under study. The pasture-based agrivoltaic system features a dual synergy that consequently produces 69.3 % less emissions and demands 82.9 % less fossil energy compared to non-integrated production. The potential for agrivoltaic systems to significantly reduce environmental impacts revealed by this LCA demonstrates that integrated solar and pasture-based agricultural systems are superior to conventional practices in terms of their comparatively lower emission and energy intensity. These findings provide empirical support for increased agrivoltaic system development more broadly.
 
To read the full article: https://doi.org/10.1016/j.clrc.2021.100030
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