Life Cycle Assessment (LCA) in Energy Willow Cultivation on Plantations with Varied Surface Area
Keywords:
energy willow, environmental impact, environmental footprint, surface area of plantation, Life Cycle Assessment (LCA)Abstract
The paper carries out a comparative analysis of the production technology of energy willow on plantations varied on account of the surface area in the aspect of the impact on the natural environment. The studies covered the cultivation of willow in the southern part of Poland. Technologies from soil preparation for cultivation to first harvesting and transport to a farm were analysed. A type of the applied technological treatments, used machines and transport means as well as the time of their operation, amount of the consumed fuel, pesticides, fertilizers, and water were taken into consideration. The research results were referred to the surface area of willow cultivation (1 ha). To determine the environmental impact SimaPro program version 8.1.0.60 was used. It was concluded, inter alia, that cultivation of willow on smaller plantations constitutes a bigger environmental footprint.
References
Caputo, J., Balogh, S., Volk, T., Johnson, L., Puettmann, M., Lippke, B., Oneil, E. (2014). Incorporating uncertainty into a life cycle assessment (LCA) model of short-rotation willow biomass (Salix spp.) crops. BioEnergy Research 7, 48-59.
Dyjakon, A., den Boer, J., García-Galindob, D., Adamczyk, F., Lopezb, E., Sebastian, F., Suardid, A., Gebresenbete, G., Jirjise, R., Bosonae, T., Germerf, S., Bischoff, W. (2018). Orchards pruning to energy – the results of the environmental impact assessment of the new logistic chain developed within the europruning project – part 2, Agricultural Engineering, 22, 37-48.
Dyjakon, A., den Boer, J., Bukowski, P. (2014). Europruning – a new direction for energy production from biomass. Agricultural Engineering, 3, 29-39.
Igliński, B., Cichosz, M., Skrzatek, M., Buczkowski, R. (2018). Potencjał energetyczny biomasy na gruntach ugorowanych i nieużytkach w Polsce. Inżynieria i Ochrona Środowiska, 21, 79-87.
Klein, D., Wolf, Ch., Schulz, Ch., Weber-Blaschke, G. (2015). 20 years of life cycle assessment (LCA) in the forestry sector: state of the art and a methodical proposal for the LCA of forest production. International Journal of Life Cycle Assessment, 20, 556-575.
Kowalczyk, Z. (2019). Environmental impact of potato cultivation on plantations covering areas of various sizes. E3S Web of Conferences, 132: 02002.
Krzyżaniak, M., Stolarski, M., Szczukowski, S., Tworkowski1, J. (2016). Life Cycle Assessment of New Willow Cultivars Grown as Feedstock for Integrated Biorefineries. BioEnergy Research, 9, 224-238.
Kwaśniewski, D., Mudryk., K., Wróbel, M. (2006). Zbiór wierzby energetycznej z użyciem piły łańcuchowej. Inżynieria Rolnicza 13, 271-277.
Nathan, J., Sleight, N., Volk, T. (2016). Recently Bred Willow (Salix spp.) Biomass Crops Show Stable Yield Trends Over Three Rotations at Two Sites. BioEnergy Research 9, 782-797.
Roy, P., Nei, D., Orikasa, T., Xu, Q. , Okadome, H., Nakamura, N., Shiina, T. (2009). A review of life cycle assessment (LCA) on some food products. Journal of Food Engineering, 90, 1-10.
Sobczyk, W. (2007). Plonowanie wierzby wiciowej – w świetle badań. Polityka Energetyczna, 10(2), 547-556.
Stolarski, M., Szczukowski, S., Tworkowski, J. (2008). Biopaliwa z biomasy wieloletnich roślin energetycznych. Energetyka, 1, 77-80.
Szczukowski, S., Stolarski, M.J., Tworkowski, J., Rutkowski, P., Goliński, P., Mleczek, M., Szentner, K. (2014). Plon i jakość biomasy wybranych gatunków wierzby w czteroletniej rotacji zbioru. Fragmenta Agronomica, 31(2), 107-114.
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