Maqolada biogaz-issiqlik quvurli qurilma reaktorining issiqlik balansi tuzilgan. Ushbu balans tenglamasi asosida havo va biomassa harorati o‘zgarishini matematik modeli keltirilgan. Biogaz-issiqlik quvurli qurilmaning tiniq yuzasidan o‘tgan quyosh energiyasi hisobidan havoning haroratini 80-85℃ gacha qizdirishi hamda qurilma ichidagi biomassa ham qizishi natijasida anaerobik bijg‘ish jarayoni davom etishi aniqlangan. Ushbu issiqlikni issiqlik quvuri ichidagi issiqlik tashuvchi orqali issiqhonaga uzatish va issiqxonaning harorat rejimini ta’minlash imkoniyatini berishi tajriba natijalari asosida isbotlangan. Natijada, biogaz-issiqlik quvurli qurilma issiqxonani isitish mavsumida issiqlik yuklamasini to‘liq qoplashi mumkindigi asoslangan. Modellashtirish natijalari bilan o‘tkazilgan eksperimental tadqiqot natijalari 4-6% farq qilishi grafiklarda yoritilgan.
Maqolada biogaz-issiqlik quvurli qurilma reaktorining issiqlik balansi tuzilgan. Ushbu balans tenglamasi asosida havo va biomassa harorati o‘zgarishini matematik modeli keltirilgan. Biogaz-issiqlik quvurli qurilmaning tiniq yuzasidan o‘tgan quyosh energiyasi hisobidan havoning haroratini 80-85℃ gacha qizdirishi hamda qurilma ichidagi biomassa ham qizishi natijasida anaerobik bijg‘ish jarayoni davom etishi aniqlangan. Ushbu issiqlikni issiqlik quvuri ichidagi issiqlik tashuvchi orqali issiqhonaga uzatish va issiqxonaning harorat rejimini ta’minlash imkoniyatini berishi tajriba natijalari asosida isbotlangan. Natijada, biogaz-issiqlik quvurli qurilma issiqxonani isitish mavsumida issiqlik yuklamasini to‘liq qoplashi mumkindigi asoslangan. Modellashtirish natijalari bilan o‘tkazilgan eksperimental tadqiqot natijalari 4-6% farq qilishi grafiklarda yoritilgan.
№ | Author name | position | Name of organisation |
---|---|---|---|
1 | Ergashev S.H. | t.f.f.d., dotsen | QarMII |
2 | Xusenov A.A. | doktorant | QarMII |
3 | Boynazarov R.. | magistr | QarMII |
4 | Norboyev Z.. | magistr | QarMII |
№ | Name of reference |
---|---|
1 | G N Uzakov, S M Shomuratova and B M Toshmamatov 2021 Study of a solar air heater with a heat exchanger – accumulator IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052013. doi:10.1088/1755-1315/723/5/052013. |
2 | Khusenov, A.A., Davlonov, K.A., Ergashev, S.H. Heat balance modeling of heat pipe biogasbiofertilizer device reactor (2022) IOP Conference Series: Earth and Environmental Science, 1070 (1), art. no. 012032, |
3 | Ergashev, Sh.H., Fayziev, T.A., Khusenov, A.A. Mathematical modeling of heat regime of underground heat accumulator (2023) AIP Conference Proceedings, 2612, art. no. 030019. |
4 | Hayriddinov B. E., Holmirzayev N. S., Ergashev S. H. Combination of the solar greenhouselivestock farms with the subsoil accumulator of heat. «//Symbol of science». International scientific magazine. OMEGA SCIENCE INTERNATIONAL CENTER OF INNOVATION. – 2017. – Т. 16. |
5 | 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. |