КОНСТРУКТИВНІ ОСОБЛИВОСТІ ДОЗАТОРА КОМБІКОРМУ НА ДОЇЛЬНОМУ РОБОТІ ФІРМИ GEA

Tatiana Buhay; Ihor Hnoievyі; mykola bezuhlyi; Victor Shigimaga

doi:10.30890/2709-2313.2023-17-04-017

Authors

Tatiana Buhay Chief technologist of the dairy complex Private Agricultural Enterprise "Vilshanskoe", Dvurechansky district, Kharkiv region https://orcid.org/0000-0002-9348-5072
Ihor Hnoievyі State Biotechnological University https://orcid.org/0000-0003-1350-6898
mykola bezuhlyi State Biotechnological University https://orcid.org/0000-0002-1659-3029
Victor Shigimaga State Biotechnological University https://orcid.org/0000-0003-2508-8742

DOI:

https://doi.org/10.30890/2709-2313.2023-17-04-017

Keywords:

high producing dairy cows, robotic milking plant, feeding te

Abstract

High-yielding cows are at risk of carbohydrate poisoning because they get concentrated feed as part of the main diet on the feed table, as well as from the milking system. In order to reduce the risk of overfeeding cows, the ways to improve feed dispenser

Metrics

Metrics Loading ...

References

Lehkodukh, V.A., Lutsenko, M.M. (2018). The perspectives for the development of robotized milking systems technology. Ukrainian Black Sea region agrarian science, 3. 51-56.

Piwczynski, D., Gondek, J., & Sitkowska, B. & coauthors (2020). Comparison of results coming from automatic milking system in selected countries in Europe and U.S.. Journal of Central European Agriculture, 21, 187-196.

Bogdanov, G. (2012). Theory and practice of rationed cattle feeding. Zhytomyr. Ruta.

John, A., Garcia, S., & Kerrisk, K. & coauthors (2019). 2. The effect of temporal variation in feed quality and quantity on the diurnal feeding behaviour of dairy cows. Animal, 13, 2519-2526.https://agteh.com.ua/uk/doinnya-vrh/doilnyj-robot

Hofstetter, P., Frey, H., & Gazzarin, C. & coauthors (2014). Dairy farming: indoor v. pasture-based feeding. Journal of Agricultural Science, 152, 994-1011.

GEA Monobox 4.23, G. (2018). Montazh sistemy` podachi kombikorma. GEA: GEA Ukraine.

Gargiulo, J., Lyons, N., & Kempton, K. & coauthors (2020). Physical and economic comparison of pasture-based automatic and conventional milking systems. Journal of dairy science, 2020-Jun-26, DOI:10.3168/jds.2020-18317.

Naumenko, A.A., Chigrin, A.A., & Palij, Andr. P. (2014). Robotic systems in dairy farming. Bulletin of the Kharkiv National Technical University of Agriculture named after Peter Vasylenko, 144, 92-96.

Palіi, Andrii, & Palіi, Anatoliy (2019). Technical and technological innovations in dairy farming . Kharkіv: Mіskdruk.

Chigrin, A., & Palij, Andrii (2015). Robotic systems in animal husbandry . Kharkіv: Mіs`kdruk.

Lebedynskyi, V.І., Hnoievyi, V.І., Buhai, T.A., & Hnoievyi, І.V. (2019). Scientific and practical components of technology for the use of milking robots at the dairy complex of Vilshanske. Veterinary medicine, animal husbandry technologies and nature management, 3, 185-193.

Maklaxov, A.V., Zhil`czov, V.I., Nikitin, L.A., & Uglin, V.K. (2017). Comparative assessment of the environmental efficiency of the use of milking robots in OOO "Pokrovskoe" in the Vologda region. Issues of territorial development, 40, 3-15.

Shimizu, Y., Cundall, P.A. (2001) Three-dimensional DEM simulations of bulk handling by screw conveyors. Journal of Engineering Mechanics, 127, 9, 864-872.

Lyalin, E.A., Trutnev, M.A. (2018). Discrete method of dosing free-flowing concentrated feed with spiral-screwed feeder. COMETa 2018 „Conference on Mechanical Engineering Technologies and Applications― Proceedings. East SarajevoJahorina, 401-406.

GEA Monobox, G. (2020). GEA automatic feeding: GEA engineering for a better world.

Bloch, V., & Pastell, M. (2020). Monitoring of Cow Location in a Barn by an Open-Source, Low-Cost, Low-Energy Bluetooth Tag System. Sensors (Basel, Switzerland), 20, DOI:10.3390/s20143841.

Yatsenko, Yu.V., Piskun, V.I. (2019). Justification of the structural parameters of the banker of the weight dosier of the technology of production of the compound feeding in the economy. https://www.sworld.com.ua/konferge9/14.pd

Banha, V., Krupych, O. (2019). Method of experimental research of the weight meter of combined feed in the dozer bunker. Prospective technologies and devices, 14, 31-37.

Kondratov, A.F., Ozhigov, V.P., & Mefod`ev, M.N. (2008). Mechanization of animal husbandry. Novosibirsk: Novosibirsk State Agrarian University.

Mogilevskij, E. (2013). Robotic milking unbeatable. Belarusian agriculture, 3, 75-76.

Sitkowska, B., Piwczynski, D., & Kolenda, M. (2020). The relationships between udder-quarter somatic-cell counts and milk and milking parameters in cows managed with an automatic milking system. Animal Production Science, DOI: 10.1071/AN18644

Antanaitis, R., Malasauskiene, D., & Televicius, M. (2020). Inline changes in lactate dehydrogenase, milk concentration according to the stage and number of lactation periods, including the status of reproduction and milk yield in dairy cows. Polish Journal of Veterinary Sciences , 23, 153-156.

Antanaitis, R., Juozaitiene, V., & Malasauskiene, D. & coauthors (2020). Biomarkers from automatic milking system for cows reproduction success. Livestock Science, 234, 1-2. UNSP 103987.

Hnoievyi, V.І., Lebedynskyi, V.І., Hnoievyi, І.V., & Buhai, T.A. (2018). Welfare of cows on dairy complexes . Kharkіv: «Operatyvna polіhrafіia» FOP Zdorovyi Ya.A.

Song, X., van der Tool, P., & Koerkamp, P. (2019). Hot topic: Automated assessment of reticulo-ruminal motility in dairy cows using 3-dimensional vision. Journal of dairy science, 102, 9076-9081.

Borshchenko, V.V., Kucher, D.M., Kochuk-Yashchenko, O.A., Lahovska, O.S (2021). Assessment of the influence of nutrition, feeding program management on the composition of cows' milk: a literature review. Bulletin of the Sumy National Agrarian University. Animal husbandry, 45, 62-67.

Mansbridge, R.J., Blake, J.S. (1997). Nutritional factors affecting the fatty acid composition of bovine milk. British Journal of Nutrition, 78, P. 37-47.

Jenkins, T.C. (1998). Fatty acid composition of milk from Holstein cows fed oleamide or high- oleic canola oil. Journal of Dairy Science, 81, 794-800.

Mentin, R.L., Cook, N.B. (2006). Short Communication: Feed bunk utilization in dairy cows housed in penswith either two or three rows of free stalls. Journal of Dairy Science, 89, 134-138.

Tyasi, T.L., Gxasheka, M., Tlabela, C.P. (2015). Assessing the effect of nutrition on milk composition of dairy cows: A review. International Journal of Current Science, 17, 56-63.

Borshch, O., Gutyj, B., & Sobolev, O. & coauthors (2020). Adaptation strategy of different cow genotypes to the voluntary milking system. Ukrainian Journal of Ecology, 10, 145-150.

DeLaval : Instruction Book VMS Best Practices (2008).

Heike, Diez (2014). Erstellung eines Leitfadens zur Verbesserung der Eutergesundheit in Betrieben mit automatischen Melksystemen. Technische Universität München, 133.

Tina, Müller (2012). Automatische Melksysteme: Auswirkungen der Umstellung und des Einsatzes i bayerischen Milchviehbetrieben. Fakultät Land- und Ernährungswirtschaft, Studiengang Landwirtschaft, Freising, 118.

THE DESIGN FEATURES OF THE COMPOUND FEED DISPENSER FOR DAIRY ROBOTIC MILKING SYSTEMS BY GEA

Authors

DOI:

Keywords:

Abstract

Metrics

References

Downloads

Published

How to Cite

Issue

Section

License

Language

11111

Announcements

IndexCopernicus

Submission