KO‘P FUNKSIYALI GELIOTEXNIK QURILMASI KAMERASI DEVORLARI ORQALI ISSIQLIK YO‘QOTILISH HISOBI
##semicolon##
quyosh paneli, quyosh suv isitish kollektorlari, inkubator, inkubator kamerasi, kameradagi havo massasi, izolyatsiya materiali, Inkubatorning tashqi va ichki devorlari, issiqlik o‘tkazuvchanlik koeffitsiyenti.##article.abstract##
The heat requirement of an egg incubator working with solar energy is studied in the
article. In the determination, the following were made: there is a steady-state condition, onedimensional heat flow prevails, the incubator materials have a constant thermal conductivity, and
the incubator is a closed system at a constant temperature. When it comes to incubator design, the
heat required and delivery are important considerations. The temperature and relative humidity in
the incubator depend on the degree of heat and ventilation supplied. Adequate heat supply and
ventilation increase air circulation and heat transfer. It is provided with continuous heat and electricity, and the heating, ventilation and cooling
system of the hatchery can save up to 1.5-2.0 times the electricity compared to incubators with lamps
or TENs that work on traditional full electric energy, useful work coefficient It was found to be 95%.
As a result of the introduction of the device, the cost of the product was reduced by 30-40% due to
alternative energy sources. In addition, the drying of medicinal plants allows temporary storage of
perishable agricultural products.
Based on the analysis of scientific and technical materials and scientific research, the scheme
and heat losses through the walls of the multifunctional heliotechnical device were substantiated.
It was found that the proposed multi-functional solar powered heliotechnical device has the
ability to effectively incubate in the incubation mode. The results of the indoor environment of the
installed incubator were found to be close to the results required by natural egg incubation. The use
of the system in the poultry industry eliminates the problem of electricity supply.
##submission.citations##
O‘zbekiston Respublikasi Prezidentining 2017-yil 26-maydagi “2017-2021 yillarda qayta
tiklanuvchi energetikani yanada rivojlantirish, iqtisodiyot tarmoqlari va ijtimoiy sohada
energiya samaradorligini oshirish chora tadbirlari to‘g‘risida”gi PQ-3012 sonli qarori. //
www.lex.uz
O‘zbekiston Respublikasi Prezidentining 2023-yil 16-fevraldagi “2023-yilda qayta tiklanuvchi
energiya manbalarini va energiya tejovchi texnologiyalarni joriy etishni jadallashtirish choratadbirlari toʼgʼrisida”gi PQ-57 sonli qarori. // www.lex.uz
Uj, Etoamaihe & Paul, Tosin. (2023). Development of a Charcoal-Heated Egg Incubator for
Family Poultry Farming. Open Access Journal of Agricultural Research. 8. 10.23880/oajar16000342.
Ahiaba, U. N.; Theresa U.V.; and Obetta S.E. (2015). Development and Evaluation of a Passive
Solar System for Poultry Egg Incubation. International Journal of Engineering Research and
General Science Vol. 3: 748-760.
Abulasan Kabaradin. Development and Performance Evaluation of Home-Made Electric and
Kerosene Lump Egg Incubator ко В.В. – International Journal of Precision Farming Volume 1
Issue 1, Year 2023
Atif A. H., Sayda A. M., ElBeeli M.Y.M., Elfadil, A. A. and Fawgia E. S. (2015). Effect of
Using Different Pre-Storage Warming Times on Hatchability of White Hisex Breeders’ Eggs.
International Journal of Veterinary Sciences Research, Vol. 1(3): 54-62.
Bashir M.A., Ali H.M., Khalil S., Ali M. and Siddiqui A.M. (2014). Comparison of
Performance Measurements of Photovoltaic Modules during Winter Months in Taxila,
Pakistan. International Journal of Photoenergy.
Инкубация яиц: Справочник Буртов Ю.З., Гольдин Б.Е., Кривошипин И.П. - М.:
Агропромиздат, 1990.
Bell, D.D. and Weaver, W.D. (2002). Commercial Chicken Meat and Egg Production. Springer
Science and Business Media.
Основы теории и расчета инкубаторов. /Лев А.М. – М.: Машиностроение, 1972.
Uzakov G.N., Khamraev S.I., Khuzhakulov S.M. Rural house heat supply system based on
solar energy // IOP Conf. Series: Materials Science and Engineering 1030 (2021) 012167 IOP
Publishing doi:10.1088/1757-899X/1030/1/012167
Khamraev S.I, Ibragimov U.Kh KamolovB.I. Removal of hydrodynamic lesions of a heated
floor with a solar collector// APEC-V-2022 IOP Conf. Series: Earth and Environmental Science
(2022) 012018 IOP Publishing doi:10.1088/1755-1315/1070/1/012018.
Кириллин В.А., Сычев В.В., Шейндлин А.Е. Техническая термодинамика. - М.:
Энергоатомиздат, 1983. - 416 с.
Chineke, T.C. and Igwiro, E.C. (2008). Urban and rural electrification: enhancing the energy
sector in Nigeria using photovoltaic technology. African Jour Science and Tech Vol. 9, No. 1,
pp. 102 – 108.
Clauer P.J. (2009). Incubating Eggs. Poultry Extension Specialist, Animal and Poultry
Sciences, Virginia State University.
Алексеев Ф.Ф. Промышленное птицеводство. - М. Агропромиздат, 1991.
Буртов Ю.З. Динамика температуры воздуха в промышленных инкубаторах.- Сб. трудов
ВНИТИП, вып. 54, 1982.
County A., (2016). Poultry. Indiana Counties and U.S. Department of Agriculture Cooperating,
Purdue University.
Еременко С.В. Система управления инкубатором.- Авт. свид. № 1644850 М. Бюл. №16,
##submission.downloads##
Taqdimot chop etildi
##submission.howToCite##
##issue.issue##
Bo'lim
##submission.license##
##submission.copyrightStatement##
##submission.license.cc.by-nc4.footer##
