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The article developed a non-stationary mathematical model of the solar greenhouse heating system in non-stationary mode based on the energy of biogas from animal waste and solar energy, which makes it possible to calculate the heat utilization factor of livestock buildings.

  • Read count 109
  • Date of publication 24-06-2022
  • Main LanguageO'zbek
  • Pages61-67
English

В статье разработана нестационарная математическая модель системы отопления гелиотеплицы в нестационарном режиме на основе энергии биогаза из отходов животноводства  и солнечной энергии,  позволяющая рассчитать коэффициент использования тепла животноводческих помещений. 

Ўзбек

The article developed a non-stationary mathematical model of the solar greenhouse heating system in non-stationary mode based on the energy of biogas from animal waste and solar energy, which makes it possible to calculate the heat utilization factor of livestock buildings.

Author name position Name of organisation
1 Ergashev S.H. 1 QarMII
2 Uzoqov G.N. 2 QarMII
3 Fayziyev T.A. 3 QarMII
Name of reference
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3 Ghosal, M.K., Tiwari, G.N., 2006. Modeling and parametric studies for thermal performance of an earth to air heat exchanger integrated with a greenhouse. Energy Convers. Manage. 47 (13–14), 1779–1798.
4 Sharan, G., Prakash, H., Jadhav, R., 2004. Performance of Greenhouse Coupled to EarthTube-Heat-Exchanger in Closed-Loop Mode.
5 Khayriddinov B.E., Namazov F.A., Ergashev Sh.H. About mathematical of heliobioenergetic citcuit for heating system of stock and poultry buildings. «Развитие энергосистем АПК: перспективные технологии» материалы международной научно-практической конференции Института агороинженерии, Челябинск, 2018. p.p 101-107.
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8 Didier Oudart, Etienne Paul, Paul Robin, Jean Marie Paillat. MATHEMATICAL MODELING OF WEIGHT AND THERMAL BALANCES DURING WINDROW COMPOSTING OF LIVESTOCK EFFLUENTS. Emissions of gas and dust from livestock, IFIP - Institut du Porc, 2013. ffhal-01461135.
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10 G.N. Uzakov. “Calculation of the heat engineering characteristics of a combined system of a vegetable storage facility and solar greenhouse”. // Applied Solar Energy 47.3 (2011): 248-251.
11 Shakhriyor Khamudillayevich Ergashev, Botir Egamberdiyevich Khayriddinov, Tulkin Amirovich Fayziyev. Biogas installation for processing of organic biomass. International Journal of Advanced Research in Science, Engineering and Technology. Vol. 7, Issue 12, December 2020. pp. 16250-16256.
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