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calendar17 январ 2026
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FOTOELEKTRIK MODULLAR BILAN INTEGRATSIYALANGAN TROMB DEVORINING SAMARADORLIGIGA TASHQI OMILLAR VA IQLIM O‘ZGARISHINING TA’SIRINI EKSPERIMENTAL TAHLILI

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MAQOLA ANNOTATSIYASI

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Fotoelektrik modullar integratsiyalangan Tromb devorlari binolarning energiya samaradorligini oshiruvchi barqaror tizim sifatida baholandi. DC ventilatorli va ventilatorsiz ikki model orqali changli hamda changsiz kunlar tahlil qilindi. Changsiz kunlarda ventilator qo‘llanganda tizimning issiqlik va elektr samaradorligi mos ravishda 12,2% va 18,4% teng bo‘ldi, ventilatorsiz rejimda esa bu ko‘rsatkichlar sezilarli oshdi. Changli kunlarda esa har ikki modelda samaradorlik pasaygani kuzatildi. Tadqiqotda binolarning tomi va fasadlariga quyosh energiyasini integratsiya qilish orqali energiya iste’molini sezilarli darajada kamayishiga etibor qaratilmoqda sovitish tizimlarining ventilatorlar o‘rnatilgan devor “ventilatsiyalangan Tromb devori”, ventilatorsiz variant esa “ventilatorsiz Tromb devoridagi harorat o‘zgarishlari hisobga olinib taqqoslandi. Tadqiqotda FEM harorati va tizim samaradorligi ob-havo sharoiti, chang va ventilatorlar ishlashiga bog‘liqligini ko‘rsatdi. Ventilatorlar FEMni sovitib, elektr samaradorligini oshiradi, ammo issiqlik va umumiy samaradorlik ventilatorsiz, changsiz sharoitda yuqori bo‘ladi. Chang quyosh nurlanishini kamaytirib, tizim samaradorligini pasaytiradi, natijada umumiy energiya samaradorligiga issiqlik samaradorligi hal qiluvchi ta’sir ko‘rsatadi. Tadqiqotda fotoelektrik modullar bilan integratsiyalangan Tromb devori tizimi turli sharoitlarda sinovdan o‘tkazildi. Changli havoda haroratlar va elektr samaradorligi pasaydi. Changsiz kunda elektr samaradorlik 2,4% ga yuqori bo‘lib, eng yaxshi natijalar majburiy konveksiyada 10,2% va tabiiy konveksiyada 8,4% ni tashkil etdi. Issiqlik samaradorligi esa ventilatorlar bilan 17,6%, ventilatorsiz holatda 40,1% gacha yetdi.

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# bino energiya iste'moli# Changli ob-havo# Elektr va Issiqlik samaradorligi

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https://eroi.uz/11.0032/A0126-0022

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Mavjud emas

Foydalanilgan adabiyotlar

[1] Abdullah AA., Atallah FS., Ahmed OK., Daoud RW., “Enhancement of the performance of Photovoltaic/Trombe wall system using the porous medium: Experimental and theoretical study,” Energy, vol. 171, pp. 14–26, 2019.

[2] Daigle Q., O’Brien PG., “Heat generated using lumi nescent solar concentrators for building energy applications,” Energies, vol. 13, p. 5574, 2020.

[3] Bhadra S., Sen N., AK K., Singh H., “Design and evaluation of a water-based, semitrans parent photovoltaic thermal trombe wall,” Energies, vol. 16, pp. 16–18, 2023.

[4] Ibrahim AM., Ibraheem RR., Weli RB., “Energy saving in batteries using the photovoltaic system,” Al-Kitab J Pure Sci, vol. 4, pp. 78–94, 2023.

[5] Abdullah AA., Attulla FS., Ahmed OK., Algburi S., “Effect of cooling method on the performance of PV/ Trombe wall: Experimental assessment,” Therm Sci Eng. Prog, vol. 30, p. 101273, 2022.

[6] Abdullah AA., Atallah FS., Ahmed OK., Daoud RW., “Performance improvement of photovoltaic/Trombe wall by using phase change material: Experimental assessment,” J Energy Storage, vol. 55, p. 105596, 2022.

[7] Abed AA., Ahmed OK., Weis MM., Hamada KI., “Performance augmentation of a PV/Trombe wall using Al2O3/Water nano-fluid: An experimental investiga tion,” Renew Energy, vol. 157, pp. 515–529, 2020.

[8] Sánchez-Barroso G., González-Domínguez J., García Sanz-Calcedo J., Sanz JG., “Markov chains estimation of the optimal periodicity for cleaning photovol taic panels installed in the dehesa.,” Renew Energy, vol. 179, pp. 537–549, 2021.

[9] Wang L., Zhou J., Zhong W., Ji Y., Yuan Y., “Analysis of factors affecting the performance of a novel micro-channel heat pipe PV-Trombe wall system for space heating.,” Sustain Energy Technol Assess, vol. 58, p. 103347, 2023.

[10] Yao W., Han X., Huang Y., Zheng Z., Wang Y., Wamg X., “Analysis of the influencing factors of the dust on the surface of photovoltaic panels and its weakening law to solar radiation: A case study of Tianjin,” Energy, p. 124669, 256AD.

[11] Fatima K., Minai AF., Malik H., García Márquez FP., “Experimental analysis of dust composition impact on Photovoltaic panel Performance: A case study,” Sol Energy, vol. 267, p. 112206, 2023.

[12] Long H., Fu X., Kong W., Chen H, Zhou Y, Yang F., “Key technologies and applications of rural energy inter net in China,” Inf Process Agric, 2022, doi: 10.1016/j.inpa.2022.03.001.

[1] Abdullah AA., Atallah FS., Ahmed OK., Daoud RW., “Enhancement of the performance of Photovoltaic/Trombe wall system using the porous medium: Experimental and theoretical study,” Energy, vol. 171, pp. 14–26, 2019.

[2] Daigle Q., O’Brien PG., “Heat generated using lumi nescent solar concentrators for building energy applications,” Energies, vol. 13, p. 5574, 2020.

[3] Bhadra S., Sen N., AK K., Singh H., “Design and evaluation of a water-based, semitrans parent photovoltaic thermal trombe wall,” Energies, vol. 16, pp. 16–18, 2023.

[4] Ibrahim AM., Ibraheem RR., Weli RB., “Energy saving in batteries using the photovoltaic system,” Al-Kitab J Pure Sci, vol. 4, pp. 78–94, 2023.

[5] Abdullah AA., Attulla FS., Ahmed OK., Algburi S., “Effect of cooling method on the performance of PV/ Trombe wall: Experimental assessment,” Therm Sci Eng. Prog, vol. 30, p. 101273, 2022.

[6] Abdullah AA., Atallah FS., Ahmed OK., Daoud RW., “Performance improvement of photovoltaic/Trombe wall by using phase change material: Experimental assessment,” J Energy Storage, vol. 55, p. 105596, 2022.

[7] Abed AA., Ahmed OK., Weis MM., Hamada KI., “Performance augmentation of a PV/Trombe wall using Al2O3/Water nano-fluid: An experimental investiga tion,” Renew Energy, vol. 157, pp. 515–529, 2020.

[8] Sánchez-Barroso G., González-Domínguez J., García Sanz-Calcedo J., Sanz JG., “Markov chains estimation of the optimal periodicity for cleaning photovol taic panels installed in the dehesa.,” Renew Energy, vol. 179, pp. 537–549, 2021.

[9] Wang L., Zhou J., Zhong W., Ji Y., Yuan Y., “Analysis of factors affecting the performance of a novel micro-channel heat pipe PV-Trombe wall system for space heating.,” Sustain Energy Technol Assess, vol. 58, p. 103347, 2023.

[10] Yao W., Han X., Huang Y., Zheng Z., Wang Y., Wamg X., “Analysis of the influencing factors of the dust on the surface of photovoltaic panels and its weakening law to solar radiation: A case study of Tianjin,” Energy, p. 124669, 256AD.

[11] Fatima K., Minai AF., Malik H., García Márquez FP., “Experimental analysis of dust composition impact on Photovoltaic panel Performance: A case study,” Sol Energy, vol. 267, p. 112206, 2023.

[12] Long H., Fu X., Kong W., Chen H, Zhou Y, Yang F., “Key technologies and applications of rural energy inter net in China,” Inf Process Agric, 2022, doi: 10.1016/j.inpa.2022.03.001.

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