:: International Transaction Journal of Engineering, Management, & Applied Sciences & Technologies
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ISSN 2228-9860
eISSN 1906-9642
CODEN: ITJEA8
FEATURE PEER-REVIEWED ARTICLE
Vol.11(16) (2020) |
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Using an Electric Field to Stimulate the Vegetable Crops Growth
Sergey Mashkov, Sergey Vasil'ev, Marat Fatkhutdinov, Tat'yana Gridneva (Department of Electrification and Automation of Agro-industrial Complex, Samara State Agrarian University, RUSSIA).
Disciplinary: Plant and Crop Sciences, Bioscience and Biotechnology, Electrical Technology.
DOI: 10.14456/ITJEMAST.2020.331
Keywords: Electrical technology; LED vegetation; LED phyto lamp; Biomodule; Supplementary lighting; Electric field; Electrical plant stimulation; Plant growth.
AbstractThis paper presents the development of a set of energy-saving elements of the technology for growing vegetables under controlled conditions. The proposed adaptive lighting method and a device for electrical stimulation form a complex of energy-saving elements of growing vegetable crops' technology. The developed methods of adaptive lighting and electrical stimulation are applicable for the cultivation of organic vegetable products, making it possible to obtain a multiplicative effect, expressed in their accelerated growth, development, and increase in productivity in general.Paper ID: 11A16V
Cite this article:
Mashkov, S., Vasil'ev, S., Marat Fatkhutdinov, M., Tat'yana Gridneva, T. (2020). Using an Electric Field to Stimulate the Vegetable Crops Growth. International Transaction Journal of Engineering, Management, & Applied Sciences & Technologies, 11(16), 11A16V, 1-11. http://doi.org/10.14456/ITJEMAST.2020.331
References:
[1] Yudaev, I.V., Charova, D.I., Feklistov, A.S. (2017). Growing lettuce in LED irradiation. Sel'skiy mekhanizator, 1, 20-21.
[2] Vasilev, S.I., Mashkov, S.V., Syrkin, V.A. (2018) Results of studies of plant stimulation in a magnetic field. Journal of Pharmaceutical, Biological and Chemical Sciences, 9(4), 706-710.
[3] Kasakova, A.S., Yudaev, I.V., Fedorishchenko, M.G. (2018). New approach to study stimulating effect of the pre-sowing barley seeds treatment in the electromagnetic field. OnLine Journal of Biological Science, 18(2), 197-207.
[4] Yudaev, I., Ivushkin, D., Belitskaya, M., Gribust, I. (2019). Pre-sowing treatment of ROBINIA PSEUDOACACIA L. seeds with electric field of high voltage. IOP Conference Series: Earth and Environmental Sciences. 403(1), article # 012078.
[5] Budnikov, D.A ., Vasiliev, A.N., Vasilyev, A.A. (2019). The Application of Electrophysical Effects in the Processing of Agricultural Materials. Advanced Agro-Engineering Technologies for Rural Business Developments, 1-27.
[6] Lartsev, V.V. (2005). Method of electrical stimulation of plant life. Patent 2261588 Russian Federation.
[7] Loginov, V.V. (1999). Method for stimulating plant growth in greenhouses. Patent 2182759 Russian Federation.
[8] Nugmanov, S.S., Gridneva, T.S., Vasiliev, S.I., Fatkhutdinov, M.R. (2015). Improvement of electrophysical methods and technical means for control and impact on agricultural objects. Research report (intermediate), 49 p.
[9] Nugmanov, S.S., Gridneva, T.S., Vasiliev, S.I., Fatkhutdinov, M.R. (2018). Improvement of electrophysical methods and technical means for control and impact on agricultural objects. Research report (final), 160 p.
[10] Vasiliev, S.I., Mashkov, S.V., Fatkhutdinov, M.R. (2016). Electromagnetic stimulation of seeds and plants. Sel'skiy mekhanizator. 7, 8-9.
[11] Vasiliev, S.I., Mashkov, S.V., Syrkin, V.A., Gridneva, T.S. (2018). Development of intensive technology and technical means (biomodule) for the production of organic vegetable products. Innovative achievements of science and technology of the agro-industrial complex. Kinel, Russia, 576-579.
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