BILVOSITA QUYOSH QURITGICHINING QUYOSH HAVO KOLLEKTORIDAGI HAVO HARORATINING О‘ZGARISHINI MATEMATIK MODELLASHTIRISH
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quyosh quritgichiumumiy vergul ro'yxat seperatori quyosh havo kollektoriumumiy vergul ro'yxat seperatori havoumumiy vergul ro'yxat seperatori haroratumumiy vergul ro'yxat seperatori quyosh radiatsiyasiumumiy vergul ro'yxat seperatori issiqlik miqdoriumumiy vergul ro'yxat seperatori issiqlik berish##article.abstract##
Hozirgi vaqtda bilvosita quyosh quritgichlari qishloq xо‘jalik mahsulotlarini quritishda keng qо‘llaniladi. Quyosh havo kollektori bilvosita quyosh quritgichlarining asosiy jihozlaridan biri bо‘lib, quritgichga uzatilayotgan havoni zarur haroratgacha qizdirib berish uchun xizmat qiladi. Ushbu tadqiqot ishida bilvosita quyosh quritgichi uchun ishlab chiqilgan quyosh havo kollektoridan oqib о‘tayotgan havo haroratini о‘zgarishini aniqlash imkonini beradigan matematik model taklif etilgan va matematik model bо‘yicha olingan nazariy natijalar tajribaviy tadqiqot natijalari bilan yetarlicha mos kelishi asoslangan. Shuningdek yilning may-oktabr oylarining xarakterli kunida о‘tkazilgan tadqiqotlar natijalari va ularni tahlili keltirilgan.
##submission.citations##
Akpinar E.K. Mathematical modelling and experimental investigation on sun and solar drying of white mulberry. J Mech. Sci. Technol. (2008) 22:1544–1553.
Akpinar E.K., Bicer Y. Modeling of the drying of eggplants in thin-layers. Int. J Food Sci. Technol. (2005) 40:273–281.
Akpinar E.K., Bicer Y. Mathematical modeling of thin layer drying process of long green pepper in solar dryer and under open sun. Energy Convers Manag. (2008) 49:1367–1375.
Bahnasawy A.H., Shenana M.E. A mathematical model of direct sun and solar drying of some fermented dairy products (Kishk). J Food Eng. (2004) 61(3):309–319.
Fudholi A., Ruslan M.H., Othman M.Y., Zaharim A., Sopian K. Mathematical modeling of solar drying of thin layer Ginger. Kuala Lumpur, Malaysia, April 2-4, 2013, pp 273–278. ISBN:978-1-61804-175-3.
Ismail M.A., Ibn Idriss E.M. Mathematical modelling of thin layer solar drying of whole okra pods. Int. Food Res J (2013) 20(4):1983–1989.
Onwude D.I., Hashim N., Janius R.B., Nawi N.M., Abdan K. Modeling the thin-layer drying of fruits and vegetables: a review. Compr. Rev Food Sci. Food Saf. (2016) 15(3):599–618.
Rene Tchinda. A review of the mathematical models for predicting solar air heaters systems, Renewable and Sustainable Energy Reviews 13 (2009) 1734–1759.
Ong KS. Thermal performance of solar air heaters: mathematical model and solution procedure. Solar Energy 1995;55 (2):93–109.
Paisarn N, Kongtragool B. Theoretical study on heat transfer characteristics and performance of the flat-plate solar air heaters. International Communications in Heat and Mass Transfer 2003;30 (8):1125–36.
Ammari H.D. A mathematical model of thermal performance of a solar air heater with slats. Renewable Energy 2003; 28:1597–615.
Ergashev S. H., Fayziev T. A., Khusenov A. A. Mathematical modeling of heat regime of underground heat accumulator //AIP Conference Proceedings. – AIP Publishing, 2023. – Т. 2612. – №. 1.
Nematov I. L. et al. Quyosh hajmiy havo qizdirish kollektorli quritgichda mevalarni quritish jarayonida issiqlik-massa almashinuvi jarayonlarini tadqiq qilish //Muqobil energetika. – 2022. – Т. 1. – №. 04. – С. 57-62.
Чориева С. Ю. и др. Применение тепловых насосов для теплоснабжения сельскохозяйственных сооружений //современные проблемы и перспективы развития агропромышленного комплекса. – 2021. – С. 143-145.
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