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Computational Fluid Dynamics Analysis of an Evaporative Cooling System

References [1] www.wikipedia.com [2] Faten Hosney Fahmy, Hanaa Mohamed Farghally, Ninet Mohamed Ahmed, A. A. Nafeh, Modeling and Simulation of Evaporative Cooling System in Controlled Environment Greenhouse, Journal of Smart Grid and Renewable Energy, 2012, 3, 67-71 [3] Sapounas, A.A., Bartzanas T., Nikita-Martzopoulou, C., and Kittas, C.: Aspects of CFD Modelling of a Fan and Pad Evaporative Cooling System in Greenhouses, International Journal of Ventilation, 2008, 6(4), 379-388. [4] Franco, A

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Effect of rushes on evaporation rate in water reservoirs on the example of Powidzkie Lake

References Chmal M., 2008, Metody pomiarów parowania z wolnej powierzchni wody na Stacji Hydrologicznej w Radzyniu (Methods of evaporation measurements from free water surface at meteorological station in Radzyn), Prz. Geof. 52(3-4): 69-78 (in Polish, English summary). Demiańczuk P. P., 1967, Parowanie ze swobodnej powierzchni wody w warunkach klimatycznych Polski (Evaporation from open water surface in the climatic conditions of Poland), Pr. Stud. KIGW PAN 8: 163-253 (in Polish, English summary

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Experimental Measurements of the Water Evaporation Rate of a Physical Model

References Asdrubali, F. (2009) A scale model to evaluate water evaporation from indoor swimming pools, Energy and Buildings 41/2009, pp. 311-319 Ferstl, K., Masaryk, M. (2011) Prenos tepla (Heat Transfer), STU, Bratislava, 2011 ISBN 978-80-227-3534-6 Sartori, E. (2000) A critical review on equation employed for the evaporation rate from free water surfaces, Solar Energy 1/2000, pp. 77 - 89 Shah, M., (2011) Improved method for calculating evaporation from indoor water pools, Energy and Buildings

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Analysis of evaporation from water surface measured automatically by the EWM evaporimeter at the weather station in Ústí nad Orlicí between 2001 and 2014

References Allen R. G., Pereira L. S., Raes D., Smith M., 1998: Crop evapotranspiration. Guidelines for computing crop water requirements. Food and Agriculture Organization, Rome: FAO Irrigation and Drainage Paper, 56 , pp. 301. Bareš D., Možný M., Stalmacher J., 2006: Automation of evaporation measurements in CHMI (Automatizace měření výparu v ČHMÚ). In: “Bioclimatology and water in the land”, Bioclimatological workshop 2006, Strečno, Slovakia, online, accessed 16 August 2011, < http://www.cbks.cz/sbornikStrecno06/prispevky/PosterI.clanky/P1-16.pdf

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Heat Transfer on The Surface of An Open Pond by Evaporation

References [1] novotny V., Krenkel p.a.: Evaporation and heat balance in aerated basins . aiChe Symp. Series, Water, 70/136. (1973) 150–159. [2] Sedory p. e., Stentstrom M. K.: A dynamic model for the prediction of aeration basin temperature, Journal of environmental engineering, 121/9. (1995) 609–618) https://doi.org/10.1061/(aSCe)0733-9372(1995)121:9(609) [3] Mezősi G.: Climate of Hungary Wind Conditions. in: The physical Geography of Hungary, Springer, Cham. 2017, 108-111. https://doi.org/10.1007/978-3-319-45183-1_2 [4] Talati S

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Comparison of actual evaporation from water surface measured by GGI-3000 evaporimeter with values calculated by the Penman equation

References Bos M. G., Vos J., Feddes R. A., 1996: CRIWAR 2.0. A simulation model on Crop Irrigation Water Requirements. Wageningen: ILRI publication 46, 117 p. Brutsaert W., 1982: Evaporation into the Atmosphere. Dordrecht: D.Reidel Publishing Co., 299 p. Burman R., Pochop L. O., 1994: Evaporation, Evapotranspiration and Climatic Data. Amsterodam, Elsevier Science В. V., 275 p. Fišák J., 1994: Manual for observers at the meteorological stations. Metodological guide of CHMI No. 11. (Návod pro pozorovatele

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THEORY OF EVAPOTRANSPIRATION: 2. Soil and intercepted water evaporation

. (In Russian with English summary.) Vodnyje resursy, 24 , 4, 389-397. BUDAGOVSKYI A.I., LOZINSKAYA E.A., 1998: Semiempirical theory of evapotranspiration. (In Russian with English summary.) Vodnyje resursy, 25 , 5, 562-570. CELICHEVA L.K., 1965: The influence of dry soil layer thickness and free porosity on evaporation. (In Russian with English summary.) Pochvovedenie (Russian Soil Sci.), No. 3. DANDARON Ž. D., 1957: The influence of evaporation rate on the dry soil layer thickness. (In

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Evaporation from water surfaces in urban environments, using Prague and Pilsen (Czech Republic) as examples

-118. Bos M.G., Vos J., Feddes R.A. 1996. CRIWAR 2.0. A simulation model on Crop Irrigation Water Requirements. Wageningen . ILRI publ., 46. Bowler D.E., Buyung-Ali L., Knight T.M., Pullin A.S. 2010. Urban greening to cool towns and cities: a systematic review of the empirical evidence. Landsc. Urban Plan. , 97: 147-155. Brázdil R., Budíková M. 1999. An urban bias in air temperature fluctuations at the Klementinum, Prague, The Czech Republic. Atm. Environ. , 33, 24–25, 4211-4217. Brutsaert W. 1982. Evaporation into the Atmosphere . D. Reidel Publ. Co

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Temperature Profiles in a Micro Processor Cooled by Direct Refrigerant Evaporation

fluids in laminar pipe flows, Journal of Magnetic Materials 289, 238-241, 2005. 9. Moreau E., Paillat T., Touchard G.: Space charge density in electric and conductive liquids flowing through a glass pipe, Journal of Electrostatics 51-52, 448-454, 2001. 10. Ribeiro, G. B., Barbosa Jr., J.R., Prata, A.T.: Mini-channel evaporator/heat pipe assembly for a chip cooling vapor compression refrigeration system, IJR 33 ( 2010 ) 1402-1412. 11. Marcinichen, J. B., Thome, J. R., Bruno, M.: Cooling of microprocessors with micro-evaporation

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Simulations of coupled non-isothermal soil moisture transport and evaporation fluxes in a forest area

estimates of evapotranspiration using component and composite surface temperatures. Adv.Water Resour., 50, 134-151. DOI: 10.1016/j.advwatres.2012.06.004. Davarzani, H., Smits, K., Tolene, R.M., Illangasekare, T., 2014. Study of the effect of wind speed on evaporation from soil through integrated modeling of the atmospheric boundary layer and shallow subsurface. Water Resour. Res., 50, 1, 661-680. DOI:10.1002/2013wr013952. Dohnal, M., Černý, T., Votrubová, J., Tesař, M., 2014. Rainfall interception and spatial variability of throughfall in

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