THE DISTRIBUTION OF CASH EXPENSES FOR THE CREATION OF BIOENERGY WILLOW PLANTATIONS IN UKRAINE

Authors

  • Serhii Yermakov Research Laboratory "DAK GPS", Higher Educational Institution "Podillia State University" (UA)
  • Anatolii Rud Faculty of Engineering and Technology, Higher Educational Institution "Podillia State University" (UA)
  • Mykola Vusatyi Faculty of Energy and Information Technologies, Higher Educational Institution "Podillia State University" (UA)

DOI:

https://doi.org/10.17770/etr2023vol1.7191

Keywords:

biofuels, willow, renewable fuels, economic efficiency, energy willow, bioenergy plantation

Abstract

The economic cost analysis of creating energy willow plantations in Ukraine is provided in the present paper. The experience of creating bioenergy willow plantations at scientific and industrial institutions in Ukraine has been used in the paper. The purpose of this scientific work is to conduct an analysis of the structure of cash expenses for the creation of bioenergy willow plantations based on the experience of various institutions of Ukraine. The analysis is based on a technological map created during the study on drained peat lands at Panfyly Research Station. Analyzing the cost structure by category, the data obtained during the creation of bioenergy willow plantations of Salix Energy LLC and the Institute of Bioenergy Crops and Sugar Beet were also taken into account. After analyzing all the technology stages of growing bioenergy willow, it was revealed that the most expensive is the second stage associated with the preparation for planting and planting willow cuttings in the context of the pricing policy in Ukraine. In general, more than 60% of all expenses fall upon the first year of cultivation. According to the experience of Ukrainian institutions, the cost structure will have a significant shift towards planting material - 55-60%. The remaining costs are distributed during the use of equipment in the field, which constitute 26-30% and transportation costs respectively are 12-19%.

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References

“Energy strategy of Ukraine for the period until 2030”. Cabinet of Ministers of Ukraine. [Online]. Available: http://zakon5.rada.gov.ua/laws/show/n0002120-13/paran3#n3. [Accessed: Dec. 3, 2022]

“Energy for Sustainable Development”.UNDP. New York, 2002

O. I. Rod'kin “Economic aspects of alternative energy production using fast growing wood”, Nauchnyj zhurnal NIU ITMO. Serija Ekonomika i jekologicheskij menedzhment, vol.2, 2013

D.J. Nixon “The potential for short rotation energy forestry on restored landfill caps”. Bioresource Technology.Vol.77 (3). 2001, P. 237-245.

“Directive 2009/28/EC of the European Parliament and of the Council of 23 April 2009 on the promotion of the use of energy from renewable sources and amending and subsequently repealing Directives 2001/77/EC and 2003/30/EC”. [Online]. Available: http://eurlex.europa.eu/eli/dir/2009/28/oj [Accessed: Dec. 3, 2022]

V. S.Bondar, A. V. Fursa “Economic justification of technologies for cultivation and processing of plant raw materials into solid types of biofuel”. Economics of Agriculture. № 3. 2015. p. 22–27.

M. V.Roik, O. M Ganzhenko., Y. D.Fuchylo, V. M. Kvak “Economic aspects of growing perennial energy crops”. Bioenergetics.№ 1(13). 2019

L.P. Abrahamson “Willow Biomass Producer's” Handbook State University of New York. 2002.

H. Rosenqvist, L. Nilsson “Energy crop production costs in the EU”. Lund: Lund University. 2007

B.Caslin, J.Finnan, A.R. McCracken “Short Rotation Coppice Willow Best Practice Guidelines”. 2010.

E.Krasuska, H.Rosenqvist “Economics of energy crops in Poland today and in the future”. Biomass and Bioenergy. 2011. https://doi.org/10.1016/j.biombioe.2011.09.011

G.Berhongaray, O.El Kasmioui, R. Ceulemans. “Comparative analysis of harvesting machines on an operational high density short rotation woody crop (SRWC) culture: Oneprocess versus two$process harvest operation”. Biomass and Bioenergy 58, 2013, pp. 333-342.

G.A.Keoleian, T.A.Volk” Renewable Energy from Willow Biomass Crops”. Life Cycle Energy, Environmental and Economic Performance, Critical Reviews in Plant Sciences, 24:5-6, 2005, pp. 385-406, https://doi.org/10.1080/07352680500316334

H.Rosenqvist, M. Dawson “Economics of willow growing in Northern Ireland”, Biomass and Bioenergy, V. 28, Issue 1, 2005 pp.7-14. https://doi.org/10.1016/j.biombioe.2004.06.001.

M.J Stolarski., E.Olba-Zięty, H.Rosenqvist, M.Krzyżaniak “Economic efficiency of willow, poplar and black locust production using different soil amendments”, Biomass and Bioenergy, V. 106, 2017 pp. 74-82. https://doi.org/10.1016/j.biombioe.2017.08.019.

I.Slyusar, A. Tkachenko “Economic aspects of obtaining willow biomas” Agrosvit V. 15-16, 2017

S.Yermakov, K.Mudryk, T. Hutsol “The analysis of stochastic processes in unloadingthe energywillow cuttings from the hopper.” Environment. Technology. Resources. Rezekne, Latvia. Vol. III. 2019, pp. 249-252, https://doi:10.17770/etr2019vol3.4159.

V.Ivanyshyn, S.Yermakov , T.Ishchenko “Calculation algorithm for the dynamic coefficient of vibro-viscosity and other properties of energy willow cuttings movement in terms of their unloading from the tanker”. Renewable Energy Sources, vol. 154, E3S Web of Conferences. 2020, pp. 04005, https://doi:10.1051/e3sconf/202015404005 .

S.Yermakov, T.Hutsol, O. Ovcharuk and I. Kolosiuk “Mathematic simulation of cutting unloading from the bunker”. Independent journal of management & amp; production (IJM&P). Vol. 10, No. 7. 2019, pp. 758-777.

M.Korchak, S.Yermakov, V.Maisus “Problems of field contamination when growing energy corn as monoculture”. E3S Web of Conferences. Krynica, Poland. Vol.154, 2020.

M.Korchak, S.Yermakov, T.Hutsol, L.Burko, W. Tulej. “Features of weediness of the field by root residues of corn” Vide. Tehnologija. Resursi - Environment, Technology, Resources, V. 1, 2021. pp. 122–126

Tryhuba, A., Komarnitskyi, S., Tryhuba, I. Planning and Risk “Analysis in Projects of Procurement of Agricultural Raw Materials for the Production of Environmentally Friendly Fuel” International Journal of Renewable Energy Developmentthis, V.11(2), 2022. pp. 569–580

“Scientific foundations of technologies for growing highly productive species of woody and herbaceous vegetation for the production of solid biofuel on drained organic soils”: a report on the NDR:№ DR 0111U009081. К. 2015. 36p.

“The structure of monetary costs when establishing a bioenergy willow plantation on organic soils” [Online]. Available: http://www.economy.nayka.com.ua/?op=1&z=5722 [Accessed: Dec. 3, 2022].

V.M.Sinchenko, M.V.Roik, Y.D.Fuchilo, V.I.Pirkin, S.P.Tanchyk “Energy willow: growing technology and us”e. Vinnytsia: LLC “Nilan-LTD”, 2015. [Online]. Available: https://bio.gov.ua/sites/default/files/documentation/energetychna_verba.pdf [Accessed: Dec. 3, 2022].

V. Sinchenko. “Energy willow: usage and growing technology”, Nilan Ltd, Vinnytsia, Ukraine. 2015

I.Hnap “Technology of growing and cultivating biomass” [Online]. Available: https://uabio.org/wp-content/uploads/2020/09/Gnap_Salix_09092020.pdf [Accessed: Dec. 3, 2022].

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Published

2023-06-13

How to Cite

[1]
S. Yermakov, A. Rud, and M. Vusatyi, “THE DISTRIBUTION OF CASH EXPENSES FOR THE CREATION OF BIOENERGY WILLOW PLANTATIONS IN UKRAINE”, ETR, vol. 1, pp. 74–80, Jun. 2023, doi: 10.17770/etr2023vol1.7191.