FOYDALANILGAN ADABIYOTLAR
I.N. Xushvaqtov., D.X. Tangirov. “YAshil energiya” istiqbollari. Energiya va resurs tejash muammolari. Toshkent.2015.83-85 b.
A.B. Safarov. Veybul ehtimollik taqsimot funksiyasidan foydalanib Buxoro viloyati hududining shamol energetikasi salohiyatini tahlil qilish // ToshDu xabarlari. 2018 (4). 93-98 b.
T.Y. YUnusov. Energiya ishlab chiqarishning bugungi kuni va kelajagi. -T.: “Fan va texnologiya”, 2012, 140 b.
T.Sh. Majidov, “Noa’nanaviy va qayta tiklanuvchi energiya manbalari”, Toshkent 2014, 90-106 b.
R.R. Avezov., N.R. Avezova., N.A. Matchanov., SH.I. Suleymanov., R.D. Abdukadirova. Istoriya razvitiya i sostoyanie ispolzovaniya solnechnoy energii v Uzbekistane // Geleotexnika. 2012(4). 17-23 s.
N. Avezova., A. Khaıtmukhamedov., A. Vokhıdov. Uzbekistan renewable energy short overview: programs and prospects. International Journal of Energy and Smart Grid, 2017. 2(2), pp.43-46.
M. Mardonova., Y. Choi. Assessment of Photovoltaic potential of Mining sites in Uzbekistan. Sustainability. 36 (4), 2019. Rr. 657-674
N.N. Sadullaev., A.B. Safarov. Buxoro viloyatining chekka hududlarida energiya iste’moli va ekologik muammolarni hal qilishda shamol energiyasidan foydalanish imkoniyatlari. Fan va texnologiyalar taraqqiyoti. Buxoro 2019 (5). 138-144 b.
CH.N. Aung Tan. Issledovanie effektivnosti kompleksnogo ispolzovaniya vozobnovlyaemix istochnikov energii v regionalnoy energetike Myanmi // kandidatskaya dissertatsiya. Moskva. 2014. S.132
https://www.statista.com/statistics/267358/world-installed-power-capacity/
N.N. Sadullayev A.B. Safarov., Sh.N. Nematov., R.A. Mamedov. Research on Facilities of Power Supply of Small Power Capability Consumers of Bukhara Region by using Wind and Solar Energy. International Journal of Innovative Technology and Exploring Engineering, Volume 8, Issue 9S2, 2019. pp. 229 – 235
https://www.solarquotes.com.au/blog/solar-shipments-rankings-mb1405/
https://www.power-technology.com/features/feature-the-10-biggest-hydroelectric-power-plants-in-the-world/
Alliyev.K.R. O’zbekiston Respublikasida muqobil energiya manbalari samaradorligi potensiali. Energiya va resurs tejash muammolari // № 4, 2015. Toshkent.
M.D.Xodjayev. Iqlim o‘zgarishlari ta‘sirini yumshatish uchun qayta tiklanuvchi energiya manbalari va energiya tejamkor texnalogiyalarni amaliyotda qo‘llash imkoniyatlari to‘g‘risida loyixa tashabbuskorlariga ma‘lumotlar yetkazish. Toshkent. 2018. -96 b.
https://globalsolaratlas.info/download/uzbekistan
N.N. Sadullaev., A.B. Safarov., X.A. Davlonov. Buxoro viloyatining iqlimiy sharoitlariga moslashtirilgan samarador shamol energetik qurilmasini yaratish. // “Innovatsion texnologiyalar”, Qarshi, 2020. maxsus son, b. 26-32
O.O. Bozorov, Qishloq xo‘jaligi iste’molchilari uchun reaktiv gidroagregatli mikro-ges qurilmasini yaratish. dissertatsiya avtoreferati,Toshkent .2020 y.b.56
D.B. Qodirov, Past bosimli suv oqimlari uchun energiya samarador mikrogidroelektrostansiya. dissertatsiya avtoreferati,Toshkent 2020 y.b.60
A.B. Safarov., Q.N. O‘lmasov. “Quyosh batareyalaridan foydalanish imkoniyatlari tadqiqoti”. O‘zbekiston Respublikasi Oliy va O‘rta maxsus ta’lim vazirligi Buxoro muhandislik-texnologiya instituti «Oziq-ovqat, neftgaz va kimyo sanoatini rivojlantirishning dolzarb muammolarini echishning innovatsion yo‘llari». Buxoro. 2019. 213-216 b.
V.I.Vissarionov, G.V.DeryuginA, V.A.Kuznetsova, N.K.Malinin, “SOLNECHNAYA ENERGETIKA”, Moskva Izdatelskiy dom MEI 2008 g
Zaxidov R.A. Effektivnost solnechno epergetiki//Geliotexnika. S. 62-64.
M.N. Tursunov., V.G. Diskin., B.M. Turdiev, I.A. YUldoshev. Vliyanie konvektivnogo teploobmena na temperaturu solnechnoy fotoelektricheskoy batarei // Geliotexnika. – Tashkent, 2014. – S. 34-37.
E.B.Saitov, I.A.Yuldoshev. Quyosh panellarini o’rnatish, sozlash va ishlstish. O’quv qo’llanma. –T. «Noshir» nashriyoti, 2017, 139 b.
Vardiyashvili A.B., Abdurahmonov A.A., Vardiyashvili A.A Noan'anaviy va qayta tiklanadigan energiya manbalaridan foydalanishda energiya tejamkorlik (o'quv-uslubiy qo'llanma) Qarshi-2012
O.Z.Toirov, K.T.Alimxo’jayev, Sh.K. Alimxo’jayev. Qayta tiklanuvchan energiya manbalari. O’zbekiston sharoitida ishlab chiqarish va ishlatish istiqbollari. (Monografiya).–T.: «Fan va texnologiya», 2019, 212 bet.
Madaminov.X.M, Xudoyberdiyeva. M,Zaynobiddinov.S.Z, Abduazimov.V. Kremniyli quyosh elementlarining ayrim xususiyatlari. Ilmiy habarnoma, ADU, 2013
M.D.Xodjayev. Iqlim o‘zgarishlari ta‘sirini yumshatish uchun qayta tiklanuvchi energiya manbalari va energiya tejamkor texnalogiyalarni amaliyotda qo‘llash imkoniyatlari to‘g‘risida loyixa tashabbuskorlariga ma‘lumotlar yetkazish. Toshkent. 2018. -96 b.
Chernix I.V. SimPowerSystems: Biblioteka blokov SimPowerSystems. Machines - elektricheskie mashini. http://matlab.exponenta.ru
German-Galkin S. G., Kardonov G.A. Elektricheskie mashini. Laboratornie raboti na PK. KORONA print, 2003 g.
Dyakonov V. Simulink 4. Spetsialniy spravochnik. Piter.2002
T. Dadajonov., M. Muhidinov. Matlab asoslari. Toshkent, O’z.RFA, “Fan” nashriyoti, 2008 y. 631 b.
Krismadinata, Nasrudin Abd. Rahim, Hew Wooi Ping, Jeyraj Selvara “Photovoltaic module modeling using Simulink/Matlab”, Procedia Environmental Sciences 17 (2013) 537 – 546.
Bouzid, A., Chenni, R., Kerbache, T., Makhlouf, M., 2005. A DetailedModeling Method for Photovoltaic Cells Energy. Elsevier.
Townsend, T.U., 1989, Method For Estimating The Long-TermPerformance Of Direct-Coupled Photovoltaic Systems. M.S. The-sis, Mechanical Engineering, U. Of Wisconsin-Madison
A.Z. Nurul at. El “Modelling of Photovoltaic Module Using Matlab Simulink”. February 2016IOP Conference Series Materials Science and Engineering 114(1):012137
X.H. Nguyen., M. P. Nguyen. Mathematical modeling of photovoltaic cell/module/arrays with tags in Matlab/Simulink. 2015.
Jena C, Das A, Paniigrahi CK, Basu M (2014) Modelling and simulation of photovoltaic module with buck-boost converter. Int J Adv Eng Nano Technol 1(3):4
D.B. Qodirov, Past bosimli suv oqimlari uchun energiya samarador mikrogidroelektrostansiya // dissertatsiya avtoreferati,Toshkent 2020 y.b.60
N.N. Sadullaev. Energiya tejamkor elektr texnik, elektr mexanik va elektr texnologik qurilmalar auditi. -T.: “Fan va texnologiya”, 2018, 184 b.
www.Lex.uz
www.ziyonet.uz
www.mirenergii.ru
www.meteoblue.com/ru
http://www.windenergy.com/
https://gwec.net/members-area-market-intelligence/statistics/
https://www.evwind.es/
https://www.dcsolarx.in/2019/01/top-10-solar-energy-producing-countries.html
ILOVALAR
Do'stlaringiz bilan baham: |