ҚИШЛОҚ ХЎЖАЛИК МАҲСУЛОТЛАРИНИ ҚУРИТИШДА ҚУЁШ ЭНЕРГИЯСИДАН ФОЙДАЛАНИШНИНГ ТАҲЛИЛИ

Uzoqov G'ulom Norboyevich; Ibragimov Umidjon Xikmatullayevich; Ro'ziqulov G'ulom Yusupovich

Ушбу мақолада қишлоқ хўжалик маҳсулотларини қуёш энергияси ёрдамида қуритишнинг долзарблиги, очиқ ҳавода қуёш нурининг бевосита таъсирида қуритишнинг афзалликлари ва камчиликлари, қуёш энергиясидан бевосита ва билвосита фойдаланувчи бевосита ва билвосита қуёш қуритгичлари, иссиқлик аккумуляторли қуёш қуритгичлари бўйича чет эл олимлари томонидан олиб борилган тадқиқот ишларининг таҳлиллари келтирилган.

Jurnal nomiMUQOBIL ENERGETIKA
Nashr soni02 (05) 2022
Ko'rishlar soni 7

Internet havola

DOI

UzSCI tizimida yaratilgan sana 15-09-2024

O'qishlar soni 7

Nashr sanasi 29-06-2022

Asosiy tilO'zbek

Sahifalar16-21

Kalit so'z

қуёш энергияси

қуритиш жараёни

бевосита қуёш қуритгичлари

билвосита қуёш қуритгичлари

Ўзбек

Ушбу мақолада қишлоқ хўжалик маҳсулотларини қуёш энергияси ёрдамида қуритишнинг долзарблиги, очиқ ҳавода қуёш нурининг бевосита таъсирида қуритишнинг афзалликлари ва камчиликлари, қуёш энергиясидан бевосита ва билвосита фойдаланувчи бевосита ва билвосита қуёш қуритгичлари, иссиқлик аккумуляторли қуёш қуритгичлари бўйича чет эл олимлари томонидан олиб борилган тадқиқот ишларининг таҳлиллари келтирилган.

Kalit so'z

қуёш энергияси

қуритиш жараёни

бевосита қуёш қуритгичлари

билвосита қуёш қуритгичлари

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Uzoqov G.N. t.f.d., prof. QarMII

2 Ibragimov U.X. t.f.f.d., dots. QarMII

3 Ro'ziqulov G.Y. doktorant QarMII

№ Havola nomi

1 Erteken C., Yaldiz O. Drying of eggplant and selection of a suitable thin layer-drying model. Journal of Food Engineering 2004; 63. – p. 349–359.

2 2.Can A. Drying kinetics of pumpkin seeds. International Journal of Energy Research 2000; 24. – p. 965–975.

3 3.Pangavhane D.R., Sawheny R.L., Sarsavadia P.N. Design, development and performance testing of a new natural convection solar dryer. Energy 2002; 27. –p. 579–590.

4 4.Yaldiz O., Erteken C., Uzun HI. Mathematical modeling of thin layer solar drying of sultana grapes. Energy 2001; 26. – p. 457–465.

5 5.Furlan G., Mancini NA., Sayigh AAM. Non-conventional energy sources. Miramare-Triest, Italy; 1983.

6 6.Fudholi A., Sopian K., Ruslan MH., Alghoul MA., Sulaiman MY. Review of solar dryers for agricultural and marine products. Renewable and Sustainable Energy Reviews 2010; 14. – p. 1–30.

7 7.Mojola OO. Solar crop drying in a low humidity environment. International Journal of Energy Research 1987; 11(3). – p. 333–342.

8 8.Ampratwum DB., Dorvlo ASS. Evaluation of a solar cabinet dryer as an air heating system. Applied Energy 1998; 59(1). – p. 63–71.

9 9.Sharma SJ., Sharma VK., Ranjana JHA., Ray RA. Evaluation of the performance of a cabinet type solar dryer. Energy Conversion & Management 1990; 30(2). – p. 75–80.

10 10.Gbaha P., Andoh HY., Saraka JK., Koua BK., Toure S. Experimental investigation of a solar dryer with natural convective heat flow. Renewable Energy 2007; 32. – p. 1817–1829.

11 11.Singh PP., Singh S., Dhaliwal SS. Multi-shelf domestic solar dryer. Energy Conversion & Management 2006; 47. – p. 1799–1815.

12 12.Mursalim, Supratomo, Dewi YS. Drying of cashew nut in shell using solar dryer. Science & Technology 2002; 3(2). – p. 25–33.

13 13.Bolaji BO. Development and performance evaluation of box-type absorber solar air collector for crop drying. Journal of Food Technology 2005; 3(4). – p. 515–600.

14 14.Madhlopa A., Jones SA., Saka JDK. A solar air heater with composite-absorber systems for food dehydration. Renewable Energy 2002; 27. – p. 27–37.

15 15.Sharma VK., Colangelo A., Spagna G. Experimental investigation of different solar dryers suitable for fruit and vegetable drying. Renewable Energy 1995; 6(4). – p. 413–424.

16 16.Al-Juamily KEJ., Khalifa AJN., Yassen TA. Testing of performance of fruit and vegetable solar drying system in Iraq. Desalination 2007; 209. – p. 163–170.

17 17.Karim MA., Hawlader MNA. Development of solar air collectors for drying applications. Energy Conversion & Management 2004; 45. – p. 329–44.

18 18.El-Beltagi A., Gamea GR., Essa AHA. Solar drying characteristics of strawberry. Journal of Food Engineering 2007; 78. – p. 456–464.

19 19.Mohanraj M., Chandrasekar P. Drying ofcopra in forced convection solar drier. Biosystems Engineering 2008; 99. – p. 604–607.

20 20.Sarsilmaz C., Yildiz C., Pehlivan D. Drying of apricots in a rotary column cylindrical dryer (RCCD) supported with solar energy. Renewable Energy 2000; 21. – p. 117–127.

21 21.Tiwari GN., Bhatia PS., Singih AK., Goyal RK. Analytical studies of crop drying cum water heating system. Energy Conversion & Management 1997; 38(8). – p. 751–759.

22 22.Tiwari GN., Bhatia PS., Singh AK., Sutar RF. Design parameters of a shallow bed solar crop dryer with reflector. Energy Conversion & Management 1994; 35(6). – p. 542–635.

23 23.Chauhan PM., Choudhury C., Garg HP. Comparative performance of coriander dryer coupled to solar air heater and solar air-heater-cum-rockbed storage. Applied Thermal Engineering 1996; 16(6). – p. 475–486.

24 24.Jain D., Jain RK. Performance evaluation of an inclined multi-pass solar air heater within built thermal storage on deep-bed drying application. Journal of Food Engineering 2004; 65. – p. 497–509.

25 25.Jain D. Modeling the system performance of multi-tray crop drying using an inclined multi-pass solar air heater with in-built thermal storage. Journal of Food Engineering 2005; 71. – p. 44–54.

26 26.Bal LM., Satya S., Naik SN. Review of solar dryers with latent heat storage systems for agricultural products. Renewable and Sustainable Energy Reviews 2011; 15. – p. 876–880.

27 27.El-Sebaii AA., Aboul-Enein S., Ramadan MRI., El-Gohary HG. Experimental investigation of an indirect type natural convection solar dryer. Energy Conversion & Management 2002; 43. – p. 2251–2266.

28 28.Enibe SO. Performance of natural circulation solar air heating system with phase change material energy storage. Renewable Energy 2002; 27. – p. 69–86.

Kutilmoqda

№	Muallifning F.I.Sh.	Lavozimi	Tashkilot nomi
1	Uzoqov G.N.	t.f.d., prof.	QarMII
2	Ibragimov U.X.	t.f.f.d., dots.	QarMII
3	Ro'ziqulov G.Y.	doktorant	QarMII

№	Havola nomi
1	Erteken C., Yaldiz O. Drying of eggplant and selection of a suitable thin layer-drying model. Journal of Food Engineering 2004; 63. – p. 349–359.
2	2.Can A. Drying kinetics of pumpkin seeds. International Journal of Energy Research 2000; 24. – p. 965–975.
3	3.Pangavhane D.R., Sawheny R.L., Sarsavadia P.N. Design, development and performance testing of a new natural convection solar dryer. Energy 2002; 27. –p. 579–590.
4	4.Yaldiz O., Erteken C., Uzun HI. Mathematical modeling of thin layer solar drying of sultana grapes. Energy 2001; 26. – p. 457–465.
5	5.Furlan G., Mancini NA., Sayigh AAM. Non-conventional energy sources. Miramare-Triest, Italy; 1983.
6	6.Fudholi A., Sopian K., Ruslan MH., Alghoul MA., Sulaiman MY. Review of solar dryers for agricultural and marine products. Renewable and Sustainable Energy Reviews 2010; 14. – p. 1–30.
7	7.Mojola OO. Solar crop drying in a low humidity environment. International Journal of Energy Research 1987; 11(3). – p. 333–342.
8	8.Ampratwum DB., Dorvlo ASS. Evaluation of a solar cabinet dryer as an air heating system. Applied Energy 1998; 59(1). – p. 63–71.
9	9.Sharma SJ., Sharma VK., Ranjana JHA., Ray RA. Evaluation of the performance of a cabinet type solar dryer. Energy Conversion & Management 1990; 30(2). – p. 75–80.
10	10.Gbaha P., Andoh HY., Saraka JK., Koua BK., Toure S. Experimental investigation of a solar dryer with natural convective heat flow. Renewable Energy 2007; 32. – p. 1817–1829.
11	11.Singh PP., Singh S., Dhaliwal SS. Multi-shelf domestic solar dryer. Energy Conversion & Management 2006; 47. – p. 1799–1815.
12	12.Mursalim, Supratomo, Dewi YS. Drying of cashew nut in shell using solar dryer. Science & Technology 2002; 3(2). – p. 25–33.
13	13.Bolaji BO. Development and performance evaluation of box-type absorber solar air collector for crop drying. Journal of Food Technology 2005; 3(4). – p. 515–600.
14	14.Madhlopa A., Jones SA., Saka JDK. A solar air heater with composite-absorber systems for food dehydration. Renewable Energy 2002; 27. – p. 27–37.
15	15.Sharma VK., Colangelo A., Spagna G. Experimental investigation of different solar dryers suitable for fruit and vegetable drying. Renewable Energy 1995; 6(4). – p. 413–424.
16	16.Al-Juamily KEJ., Khalifa AJN., Yassen TA. Testing of performance of fruit and vegetable solar drying system in Iraq. Desalination 2007; 209. – p. 163–170.
17	17.Karim MA., Hawlader MNA. Development of solar air collectors for drying applications. Energy Conversion & Management 2004; 45. – p. 329–44.
18	18.El-Beltagi A., Gamea GR., Essa AHA. Solar drying characteristics of strawberry. Journal of Food Engineering 2007; 78. – p. 456–464.
19	19.Mohanraj M., Chandrasekar P. Drying ofcopra in forced convection solar drier. Biosystems Engineering 2008; 99. – p. 604–607.
20	20.Sarsilmaz C., Yildiz C., Pehlivan D. Drying of apricots in a rotary column cylindrical dryer (RCCD) supported with solar energy. Renewable Energy 2000; 21. – p. 117–127.
21	21.Tiwari GN., Bhatia PS., Singih AK., Goyal RK. Analytical studies of crop drying cum water heating system. Energy Conversion & Management 1997; 38(8). – p. 751–759.
22	22.Tiwari GN., Bhatia PS., Singh AK., Sutar RF. Design parameters of a shallow bed solar crop dryer with reflector. Energy Conversion & Management 1994; 35(6). – p. 542–635.
23	23.Chauhan PM., Choudhury C., Garg HP. Comparative performance of coriander dryer coupled to solar air heater and solar air-heater-cum-rockbed storage. Applied Thermal Engineering 1996; 16(6). – p. 475–486.
24	24.Jain D., Jain RK. Performance evaluation of an inclined multi-pass solar air heater within built thermal storage on deep-bed drying application. Journal of Food Engineering 2004; 65. – p. 497–509.
25	25.Jain D. Modeling the system performance of multi-tray crop drying using an inclined multi-pass solar air heater with in-built thermal storage. Journal of Food Engineering 2005; 71. – p. 44–54.
26	26.Bal LM., Satya S., Naik SN. Review of solar dryers with latent heat storage systems for agricultural products. Renewable and Sustainable Energy Reviews 2011; 15. – p. 876–880.
27	27.El-Sebaii AA., Aboul-Enein S., Ramadan MRI., El-Gohary HG. Experimental investigation of an indirect type natural convection solar dryer. Energy Conversion & Management 2002; 43. – p. 2251–2266.
28	28.Enibe SO. Performance of natural circulation solar air heating system with phase change material energy storage. Renewable Energy 2002; 27. – p. 69–86.