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Deionizatsiyalangan suvdagi kremniy dioksid nanozarrachalar hajmi va miqdorining suv bug’lanishiga ta’siri Annotatsiya
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Bog'liq Maqola boshlashFoydalanilgan adabiyotlar
Erbil, H.Y. Evaporation of pure liquid sessile and spherical suspended drops: A review. Adv. Colloid Interface.Sci. 2012, 170, 67–86.
Deegan R.D. Pattern formation in drying drops. Phys. Rev. E 2000, 61, 475–485.
Sefiane K.,Wilson S.K., David S., Dunn G.J., Duy B.R. On the efect of the atmosphere on the evaporation of sessile droplets of water. Phys. Fluids 2009, 21, 062101.
Meng S., Meng X., Fan W., Liang D., Wang L., Zhang W., Liu Y. The role of transparent exopolymer particles (TEP) in membrane fouling: A critical review. Water Res. 2020, 181, 115930.
Wang R., Fan W., Liu X., Fan W., Liang D., Cai W. Efect of magnesium ion on polysaccharide fouling. Chem. Eng. J. 2020, 379, 122351.
Tso, C. Y., & Chao, C. Y. (2015). Study of enthalpy of evaporation, saturated vapor pressure and evaporation rate of aqueous nanofluids. International Journal of Heat and Mass Transfer, 84, 931-941.
Chaudhari, K. S., & Walke, P. V. (2014). Applications of nanofluid in solar energy–a review. International Journal of Engineering Research, 3(3).
Kabeel, A. E., Omara, Z. M., & Essa, F. A. (2014). Improving the performance of solar still by using nanofluids and providing vacuum. Energy conversion and management, 86, 268-274.
Yao X., Zhang H., Lemckert Ch., Brook A., Schouten P. Evaporation reduction by suspended and floating covers: overview, modelling and efficiency, Urban Water Security Research Alliance Technical Australia, 2010, pp. 1-23.
Coleman M. Review and discussion on the evaporation rate of brines, mundijong, 2000, pp. 1-12.
Ali H., Madramootoo C.A. and Abdel Gwad S. Evaporation model of lake qaroun as influenced by lake salinity. Irrigation And Drainage, 2001, 50, 9–17.
Chen R.H., Phuoc T.X. and Martello, D., Effects of nanoparticles on nanofluid droplet evaporation. International Journal of Heat and Mass Transfe, 2010, 53, 3677-3682.
Madhusoodanan M.R., Sajith V. and Sobhan C.B. “Experimental Investigation of Phase Change Phenomena in Nanofluids” Thermal Engineering Heat Transfer Summer Conference, Canada, 2007, 859-863.
Sefiane K. and Bennacer R. Nanofluids droplets evaporation kinetics and wetting dynamics on rough heated substrates. Advances in Colloid and Interface Science, 2009,147–148, 263–271.
Payzullayev A.N., Gafurova M.V., Allayev B.A., Tellyayev S.K., Mirzayev S.Z. Nanosuyuqlikning qovushqoqligi va barqarorligining kremniy dioksidi nanozarrachalari chiziqli o‘lchamiga bog‘liqligi. SamDU ilmiy axborotnomasi, 2022-yil, 3-son 171-175.
Chen, R. H., Phuoc, T. X., & Martello, D. (2011). Surface tension of evaporating nanofluid droplets. International Journal of Heat and Mass Transfer, 54(11-12), 2459-2466..
Dominguez-Ontiveros E., Fortenberry S. and Hassan Y.A. Experimental observations of flow modifications in nanofluid boiling utilizing particle image velocimetry. Nuclear Engineering and Design, 2010, 240, 299–304.
Wen D. Mechanisms of thermal nanofluids on enhanced critical heat flux (CHF). International Journal of Heat and Mass Transfer, 2008, 51, 4958–4965.
Starinskaya, E. M., Nazarov, A. D., Miskiv, N. B., & Starinskiy, S. V. (2022). Effect of SiO2 nanoparticle addition on the evaporation of a suspended water droplet. Heat Transfer Research, 53(9).
Gan, Yanan, and Li Qiao. "Evaporation characteristics of fuel droplets with the addition of nanoparticles under natural and forced convections." International Journal of Heat and Mass Transfer 54.23-24 (2011): 4913-4922.
Moghiman, Mohammad, and Bentolhoda Aslani. "Influence of nanoparticles on reducing and enhancing evaporation mass transfer and its efficiency." International Journal of Heat and Mass Transfer 61 (2013): 114-118.
Yong, Xin, Shiyi Qin, and Timothy J. Singler. "Nanoparticle-mediated evaporation at liquid–vapor interfaces." Extreme Mechanics Letters 7 (2016): 90-103.
Минаков, А. В., Лобасов, А. С., Пряжников, М. И., Тарасова, Л. С., Василенко, Н. Я., & Рудяк, В. Я. (2020). Экспериментальное исследование влияния наночастиц на процессы испарения жидкостей. Журнал технической физики, 90(1), 33-41.
Терехов, В. И., & Шишкин, Н. Е. (2012). Испарение капель воды с углеродными нанотрубками. Письма в Журнал технической физики, 38(1), 51-57.
Abdullah, A. S., Alarjani, A., Abou Al-sood, M. M., Omara, Z. M., Kabeel, A. E., & Essa, F. A. (2019). Rotating-wick solar still with mended evaporation technics: Experimental approach. Alexandria Engineering Journal, 58(4), 1449-1459.
Degussa 2007 http://www.degussa.com/degussa/en/
Payzullayev A.N, Gafurova M.V, Allayev B.A, Telyaev S.S, Mirzaev S.Z. Nanosuyuqlik tayyorlashdagi dispergatsya davomiyligining qovushqoqliкka ta`siri // Yangi turdagi muqobil energiya manbalaridan foydalanishning innovatsion yechimlar va ulardan foydalanishda energiya tejamkor qurulmalarni qo’llash, aprel 29-30, 2022, Республика миқиёсдаги илмий ва илмий-техник анжуман, p.183-186, Тақдимот, Андижон.
Brown M.E. Introduction to Thermal Analysis: Techniques and Applications; Kluwer Academic Publishers: Boston, MA, USA, 2001.
Rahman R., Hamdan S., Hui J.L.C. Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA) of Wood polymer nanocomposites. MATEC Web Conf. 2017, 87, 03013.
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Deionizatsiyalangan suvdagi kremniy dioksid nanozarrachalar hajmi va miqdorining suv bug’lanishiga ta’siri Annotatsiya
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