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Effect of land use change for bioenergy production on feedstock cost and water quality

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  • Zhong, Jia
  • Yu, T. Edward
  • Clark, Christopher D.
  • English, Burton C.
  • Larson, James A.
  • Cheng, Chu-Lin

Abstract

Producing renewable fuel from dedicated energy crops, such as switchgrass, has the potential to generate localized environmental benefits. This study uses high-resolution spatial data for west Tennessee to quantify the effects of producing switchgrass for cellulosic ethanol on the grey water footprint (GWF), or the amount of freshwater needed to dilute nitrate leachate to a safe level, relative to existing agricultural production. In addition, the estimated cost and GWF are incorporated in a mixed-integer multi-objective optimization model to derive the efficient frontier of the feedstock supply chain and determine a switchgrass supply chain that achieves the greatest reduction in GWF at the lowest cost. Results suggest that background nitrate concentration in ambient water and the types of agricultural land converted to switchgrass production influence the extent of the GWF. The average GWF of switchgrass in the study area ranges between 131.8LL−1 and 145.9LL−1 of ethanol, which falls into the range of estimated GWF of other lignocellulosic biomass feedstock in the literature. Also, the average cost of reducing GWF from the feedstock supply chain identified by the compromise solution method is $0.94m−3 in the region. A tradeoff between biofuel production costs and reduced nitrate loading in groundwater is driven by differences in the agricultural land converted to feedstock production. Our findings illustrate the energy-water-food nexus in the development of a local bioenergy sector and provide a management strategy associated with land use choices for the supply of energy crops. However, the water quality improvements associated with displacing crop with feedstock production in one region could be offset by expanded or more intensive agricultural production in other regions.

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  • Zhong, Jia & Yu, T. Edward & Clark, Christopher D. & English, Burton C. & Larson, James A. & Cheng, Chu-Lin, 2018. "Effect of land use change for bioenergy production on feedstock cost and water quality," Applied Energy, Elsevier, vol. 210(C), pages 580-590.
    • Handle: RePEc:eee:appene:v:210:y:2018:i:c:p:580-590
    DOI: 10.1016/j.apenergy.2017.09.070
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    References listed on IDEAS

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    2. Chen, Xiaoguang & Khanna, Madhu, 2018. "Effect of corn ethanol production on Conservation Reserve Program acres in the US," Applied Energy, Elsevier, vol. 225(C), pages 124-134.
    3. Petrelli, Marina & Fioriti, Davide & Berizzi, Alberto & Bovo, Cristian & Poli, Davide, 2021. "A novel multi-objective method with online Pareto pruning for multi-year optimization of rural microgrids," Applied Energy, Elsevier, vol. 299(C).
    4. Sobratee-Fajurally, N. & Mabhaudhi, Tafadzwanashe, 2022. "Inclusive sustainable landscape management in West and Central Africa: enabling co-designing contexts for systemic sensibility," IWMI Books, Reports H051652, International Water Management Institute.
    5. Mancini, G. & Luciano, A. & Bolzonella, D. & Fatone, F. & Viotti, P. & Fino, D., 2021. "A water-waste-energy nexus approach to bridge the sustainability gap in landfill-based waste management regions," Renewable and Sustainable Energy Reviews, Elsevier, vol. 137(C).
    6. Gorelick, David E. & Baskaran, Latha M. & Jager, Henriëtte I., 2019. "Visualizing feedstock siting in biomass production: Tradeoffs between economic and water quality objectives," Land Use Policy, Elsevier, vol. 88(C).
    7. Li, Mo & Fu, Qiang & Singh, Vijay P. & Liu, Dong & Li, Jiang, 2020. "Optimization of sustainable bioenergy production considering energy-food-water-land nexus and livestock manure under uncertainty," Agricultural Systems, Elsevier, vol. 184(C).
    8. Bustamante-Silveira, Mauricio & Siri-Prieto, Guillermo & Carrasco-Letelier, Leonidas, 2021. "Water footprints of bioethanol cropping systems in Uruguay," Agricultural Water Management, Elsevier, vol. 252(C).
    9. Weng, Yuwei & Cai, Wenjia & Wang, Can, 2021. "Evaluating the use of BECCS and afforestation under China’s carbon-neutral target for 2060," Applied Energy, Elsevier, vol. 299(C).
    10. Farajiamiri, Mina & Meyer, Jörn-Christian & Walther, Grit, 2023. "Multi-objective optimization of renewable fuel supply chains regarding cost, land use, and water use," Applied Energy, Elsevier, vol. 349(C).

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