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Modeling of TABS-based thermally manageable buildings in SimulinkPEIZHENG MA; WANG, Lin-Shu; NIANHUA GUO et al.Applied energy. 2013, Vol 104, pp 791-800, issn 0306-2619, 10 p.Article

Heat rejection enhancement in natural draft cooling tower using radiator-type windbreakersGOODARZI, M; KEIMANESH, R.Energy conversion and management. 2013, Vol 71, pp 120-125, issn 0196-8904, 6 p.Article

Modeling of existing cooling towers in ASPEN PLUS using an equilibrium stage methodQUEIROZ, João A; RODRIGUES, Vitor M. S; MATOS, Henrique A et al.Energy conversion and management. 2012, Vol 64, pp 473-481, issn 0196-8904, 9 p.Article

Numerical simulation of a cooling tower coupled with heat pump system associated with single house using TRNSYSCHARGUI, R; SAMMOUDA, H; FARHAT, A et al.Energy conversion and management. 2013, Vol 75, pp 105-117, issn 0196-8904, 13 p.Article

Cooling dominated Hybrid Ground Source Heat Pump System applicationSAGIA, Z; RAKOPOULOS, C; KAKARAS, E et al.Applied energy. 2012, Vol 94, pp 41-47, issn 0306-2619, 7 p.Article

Shallow geothermal energy applied to a solar-assisted air-conditioning system in southern Spain: Two-year experienceROSIEK, S; BATLLES, F. J.Applied energy. 2012, Vol 100, pp 267-276, issn 0306-2619, 10 p.Article

Efficiency control in a commercial counter flow wet cooling towerMARQUES, C. A. X; FONTES, C. H; EMBIRUCU, M et al.Energy conversion and management. 2009, Vol 50, Num 11, pp 2843-2855, issn 0196-8904, 13 p.Article

Improving the efficiency of natural draft cooling towersSMREKAR, J; OMAN, J; SIROK, B et al.Energy conversion and management. 2006, Vol 47, Num 9-10, pp 1086-1100, issn 0196-8904, 15 p.Article

Wet and dry cooling systems optimization applied to a modern waste-to-energy cogeneration heat and power plantBARIGOZZI, G; PERDICHIZZI, A; RAVELLI, S et al.Applied energy. 2011, Vol 88, Num 4, pp 1366-1376, issn 0306-2619, 11 p.Article

The Merkel equation revisited: A novel method to compute the packed height of a cooling towerPICARDO, J. R; VARIYAR, J. E.Energy conversion and management. 2012, Vol 57, pp 167-172, issn 0196-8904, 6 p.Article

Kühlturmeinbauten aus Keramik = Eléments en céramique pour les tours de refroidissementHONEKAMP, H; KATZMANN, A.VGB Kraftwerkstechnik. 1986, Vol 66, Num 5, pp 449-450, issn 0372-5715Article

How cooling towers affect process energy savingsCAMPAGNE, W. V. L; MCDONOUGH, L. J.Hydrocarbon processing (International ed.). 1984, Vol 63, Num 6, pp 103-107, issn 0018-8190Article

Beulsicherheitsnachweis für Kühlturmschalen ohne und mit Versteifungsringen = Vérification au voilement de coques de tours de refroidissement avec et sans anneaux de raidissement = Buckling safety of unstiffened and ring-stiffened cooling tower shellsZERNA, W; MUNGAN, I; KÖPPER, H.-D et al.Bauingenieur. 1985, Vol 60, Num 10, pp 401-404, issn 0005-6650Article

Comparative evaluation of hybrid (dry/wet) cooling tower performanceASVAPOOSITKUL, Wanchai; KUANSATHAN, Mantheerapol.Applied thermal engineering. 2014, Vol 71, Num 1, pp 83-93, issn 1359-4311, 11 p.Article

Experimental optimization of the thermal performance of a dry and adiabatic fluid coolerLUCAS, Manuel; MARTINEZ, Pedro; CUTILLAS, Clemente G et al.Applied thermal engineering. 2014, Vol 69, Num 1-2, pp 1-10, issn 1359-4311, 10 p.Article

Modeling of hydronic radiant cooling of a thermally homeostatic building using a parametric cooling towerPEIZHENG MA; WANG, Lin-Shu; NIANHUA GUO et al.Applied energy. 2014, Vol 127, pp 172-181, issn 0306-2619, 10 p.Article

A numerical simulation on recirculation phenomena of the plume generated by obstacles around a row of cooling towersLEE, J. H; MOSHFEGHI, M; CHOI, Y. K et al.Applied thermal engineering. 2014, Vol 72, Num 1, pp 10-19, issn 1359-4311, 10 p.Conference Paper

Drop size distribution below different wet-cooling tower fillsTERBLANCHE, R; REUTER, H. C. R; KRÖGER, D. G et al.Applied thermal engineering. 2009, Vol 29, Num 8-9, pp 1552-1560, issn 1359-4311, 9 p.Article

Alternative geometry for cylindrical natural draft cooling tower with higher cooling efficiency under crosswind conditionGOODARZI, M; RAMEZANPOUR, R.Energy conversion and management. 2014, Vol 77, pp 243-249, issn 0196-8904, 7 p.Article

Performance characteristics of a trickle fill in cross- and counter-flow configuration in a wet-cooling towerGROBBELAAR, P. J; REUTER, H. C. R; BERTRAND, T. P et al.Applied thermal engineering. 2013, Vol 50, Num 1, pp 475-484, issn 1359-4311, 10 p.Article

Experimental study on the thermal performance of mechanical cooling tower with rotational splash type packingARASH MIRABDOLAH LAVASANI; ZAHRA NAMDAR BABOLI; ZAMANIZADEH, Mohsen et al.Energy conversion and management. 2014, Vol 87, pp 530-538, issn 0196-8904, 9 p.Article

An improved non-dimensional model of wet-cooling towersQURESHI, B. A; ZUBAIR, S. M.Proceedings of the Institution of Mechanical Engineers. Part E, Journal of process mechanical engineering. 2006, Vol 220, Num 1, pp 31-41, issn 0954-4089, 11 p.Article

Influence of temperature inversions on wet-cooling tower performanceKLOPPERS, J. C; KRÖGER, D. G.Applied thermal engineering. 2005, Vol 25, Num 8-9, pp 1325-1336, issn 1359-4311, 12 p.Article

A simplified method on thermal performance capacity evaluation of counter flow cooling towerASVAPOOSITKUL, Wanchai; TREEUTOK, Supawat.Applied thermal engineering. 2012, Vol 38, pp 160-167, issn 1359-4311, 8 p.Article

Aufbereitung meteorologischer Daten für die Auslegung, Projektierung und das Betrieben von Rückhühlsystemen sowie sowie Darstellung der Häufigkeit zu erwartender Rückkühlwassertemperaturen = Traitement de données météorologiques pour la conception, l'élaboration de projets, et l'exploitation de système de refroidissement ainsi que pour la détermination des températures de l'eau de refroidissement les plus probablesWERNER, G.Chemische Technik (Berlin, DDR, 1949). 1986, Vol 38, Num 6, pp 238-241, issn 0045-6519Article

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