Abstract
Existing machines for planting energy crops cuttings are characterized by the low productivity because of the speed restriction to hand stowing into a plant setter. Therefore, establishment of mechanisms for the cutting auto-stowing into a plant setter is a current scientific and production task. The research is set against the analysis of the known planting machine constructions that are used for setting the potted plants and forest seedlings. In this research, the methods of structural and factorial analysis with regard to the mechanisms’ arrangement were used, as well as peculiarities of the working processes occurring at each stage of the overall technological process of the cutting relocation from the reservoir to the land area were highlighted. In the issue of analysis, possible ways of different methods implementation into the technological process were singled out. This can be seen in the structural and logical scheme of the process. The promising solutions for planting automation of the energy crop cuttings were provided.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
I.M. Bartieniev, Automatizaciya processa posadki rasteniy [Automation of the planting process]. Sci. J. KubSAU 75(01), 384–396 (2012)
S. Yermakov, M. Borys, Analiz efektyvnosti agregativ dlya sadinnya energetychnoyi verby [Analysis of the machines’ efficiency for energy willow planting], in Materialy XI Mezinarodni vedecko-prakticka conference “Veda a vznik—2015”, vol. 14 (Publishing House “Edukation and Science” s.r.o., Praha, 2015), pp. 47–49
S.V. Yermakov, Perspectyvy udoskonalennia konstrukcyi dla sadinnya zhyvtsiv energetychnyh kultur [Prospects for improvement of constructions for planting energy crops cuttings] Podilskyi visnyk: silske gospodarstvo, tekhnika, ekonomika, T.2, pp. 37–45 (2017)
S.V. Yermakov, M.M. Borys, A.M. Borys, Suchasnyi stan tekhnichnodo zabezpechennia procesu sadinnia derevnyh energetychnyh kultur [The current state of the technical support of the energy wood crops planting process], in Collection of the Scientific Papers of the Scientific Conference “Agricultural Science and Education of Podillia”, vol. 2 (Krok, Ternopil, 2017), pp. 37–40
Y. Pantsyr, I. Garasymchuk, T. Hutsol, I. Gordiychuk, Energy parameters’ calculation of a hybrid heat supply system for a private house in the conditions of western part of Ukraine. Renew. Energy Sources: Eng. Technol. Innov.: ICORES 2017, 765–780 (2018)
K. Dziedzic, B. Łapczyńska-Kordon, K. Mudryk, M. Wróbel, M. Jewiarz, B. Dziedzic, S. Yermakov, Decision support systems to establish plantations of energy crops on the example of willow (Salix Viminalis L.), in Scientific Achievements in Agricultural Engineering, Agronomy and Veterinary Medicine Polish Ukrainian Cooperation, vol. 1, no. 1, pp. 150–160 (2017)
V. Ivanyshyn, T. Hutsol, The Ukrainian agricultural groups state and agromachinery rovision. Sci Achiev. Agric. Eng. Agron. Vet. Med. Pol. Ukrainian Coop. 1, 5–18 (2017)
M.V. Usenko, Kompleks malogabarytnyh mashyn dlya vyroshchuvannya odnorichnyh kultur na peresichnyi miscevosti [The small-size machine complex for growing non-perennial crops in rough terrain]. Monograph, vol. 240 (RVV LNU, Lutsk, 2010)
Plant setter. The technique of youth. [electronic resource]. http://technicamolodezhi.ru/rubriki_tm/rassadoposadochnaya_mashina/rassadoposadochnaya_mashina. Accessed 20 Aug 2017
S.V. Yermakov, N.M. Borys, Comparison of plant setter requirements for the energy wood crops (willow, poplar) (Sopostavlieniye resheniy liesoposadochnyh mashyn s trebovaniyami dlia energeticheskih drevesnyh kultur). Modern scientific reporter. Sci Pract. J. 20-1(267), 67–70 (2016)
I.M. Zyma, T.T. Maliutin, Mekhanizaciya lisohospodarskyh robit [Mechanization of the forest management work], vol. 488 (“INKOS” firm, Kyiv, 2006)
Y. Miwa, Automation of plant tissue culture process, in Automation in Biotechnology: A Collection of Contributions Presented at the Fourth Toyota Conference, Aichi, Japan, 21–24 October 1990, ed. by I. Karube (Elsevier, Amsterdam, 1991)
V. Tarasenko, How to mechanize the planting process of seedlings. Melitopol [electronic resource]. http://www.webfermerstvo.org.ua/roslynnyctvo/jak-mehanizuvaty-proces-vysadzhennja-rozsady.php
M.K. Asmolovskyi, V.N. Loi, A.V. Zhukov, Mekhanizaciya liesnogo i parkovogo hoziaystva [Mechanization of the forest, park and garden management], vol. 450 (BSTU, Minsk, 2004)
L.J. Kutz, J.B. Craven, Оцінка фотоелектричних датчиків для роботизованої пересадки. Appl. Eng. Agric. 10(1), 115–121 (1994)
H. Mao, L. Han, J. Hu, F. Kumi, Development of a pincette-type pick-up device for automatic transplanting of greenhouse seedlings. Appl. Eng. Agric. 30(4), 547–556 (2014)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this paper
Cite this paper
Yermakov, S., Hutsol, T., Slobodian, S., Komarnitskyi, S., Tysh, M. (2020). Possibility of Using Automation Tools for Planting of the Energy Willow Cuttings. In: Wróbel, M., Jewiarz, M., Szlęk , A. (eds) Renewable Energy Sources: Engineering, Technology, Innovation. Springer Proceedings in Energy. Springer, Cham. https://doi.org/10.1007/978-3-030-13888-2_42
Download citation
DOI: https://doi.org/10.1007/978-3-030-13888-2_42
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-13887-5
Online ISBN: 978-3-030-13888-2
eBook Packages: EnergyEnergy (R0)