Conversion of a simple bladeless standing fan into a split air conditioner

Murtala, Mustapha; Alnajjar, Othman

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dc.contributor.author	Murtala, Mustapha
dc.contributor.author	Alnajjar, Othman
dc.date.accessioned	2021-09-08T06:42:21Z
dc.date.available	2021-09-08T06:42:21Z
dc.date.issued	2013-11-15
dc.identifier.citation	[1] W.F Stoecker and J.W Jones; Refrigeration and air conditioning system;McGraw Hill 1982 [2] E.F. Gorzelnik, Heat water with your air-conditioner, Electrical World 188 (11) (1977) 54–55. 3+ ONeal, et al., Energy and economic effects of residential heat pump water heaters. CONF-790107-2, Oak Ridge National Laboratory, USA, 1979. [4] R.D. Heap, Heat Pumps, Second ed., E.&F.N. Spon, London, 1983. [5] S. Bodzin, Air-to-water heat pumps for the home, Journal of Home Energy 14 (4) (1997). 6+ H.J. Laue, Regional report Europe: ‘‘heat pumps––status and trends’’, International Journal of Refrigeration 25 (2002) 414–420. [7] T.T. Chow, Z. Lin, Prediction of on-coil temperature of condensers installed at tallbuilding re-entrant, Applied Thermal Engineering 19 (1999) 117–132. 8+ T.T. Chow, Z. Lin, J.P. Liu, Effect of condensing unit layout at building re-entrant on split-type air-conditioner performance, Energy and Buildings 34 (3) (2002) 237–244. [9] M. Bojic, M. Lee, F. Yik, Flow and temperature outside a high-rise residential building due to heat rejection by its air-conditioners, Energy and Buildings 33 (2001) 737–751. 10+ T. Nishimura, ‘‘Heat pumps––status and trends’’ in Asia and the Pacific, International Journal of Refrigeration 25 (2002) 405–413. [11] Bridges, B.D. and e.W. Bullard, "Simulation of Room Air Conditioner Performance." University of Illinois at Urbana-Champaign, ACRC TR-79, 1995. [12]Chang, Y.J. and e.C. Wang, "A Generalized Heat Transfer Correlation for Louver Fin Geometry." Int. J. Heat Mass Transfer, vol. 40, no. 3, pp. 533-544, 1997. 42 [13] Colebrook e. F., "Turbulent flow in pipes, with particular reference to the transition region between the smooth and rough pipe laws." Institution of Civ. Eng., vol. 11, paper no.5204, 1939. [14] Davenport, e.J., "Correlations for Heat Transfer and Flow Friction Characteristics of Louvered Fin." AIChE Symposium Series, Heat Transfer-Seattle, pp. 19-27, 1983. [15] Dobson, M.K. and J.e. Chato, "Condensation in Smooth Horizontal Tubes," Journal of Heat Transfer, 120:2, pp. 193-213, 1998. [16] Heun, M.K. and W.E. Dunn, "Principles of Refrigerant Circuiting with Application to Microchannel Condensers: Part I-Problem Formulation and the Effects of Port Diameter and Port Shape," ASHRAE Transactions, 102:2, pp. 373-381,1996. [17] Heun, M.K. and W.E. Dunn, "Principles of Refrigerant Circuiting with Application to Microchannel Condensers: Part II-The Pressure-Drop Effect and the Cross-Flow Heat Exchanger Effect," ASH RAE Transactions, 102:2, pp. 382-393, 1996.	en_US
dc.identifier.uri	http://hdl.handle.net/123456789/883
dc.description	Supervised by Prof. Md. Nurul Absar Chowdhury Department of Mechanical and Chemical Engineering (MCE), Islamic University of Technology (IUT), Board Bazar, Gazipur-1704, Bangladesh	en_US
dc.description.abstract	In this project, Conversion of a simple blade less standing fan into a split air conditioning system is aimed, A split air conditioning imply means that the condenser (or sometimes referred to as the “outdoor unit”) is separated from the “indoor unit”, thus the term “split”. The separation of the two different part, splitting or bisecting the units into two: for the fan section it consist of (i) small vents at the base where air is being sucked (ii) the air is propelled through 3mm and slit in the frame 55mph. (iii) air passes over and airfoil is shaped ramp which channels it is direction, air intake. (iv) as it is pushed out at the surrounding air is drawn into the airflow in making the volume because there are no motor blades. For the air conditioning section, a copper connection pipe and electrical wiring connects the indoor unit to the outdoor unit of the split air conditioning. Gas refrigerant is pumped from the outdoor condenser coil and compressor through the connection pipe to the indoor unit or units. A fan then quietly distributes cool air drawn across the unit's evaporator coil. The main objective of this project is to convert a simple bladeless standing fan into a split air conditioning system and make use of it perfectly without any obstructions, High Electric supply and convenient to be moving around from one place to another comfortably. .	en_US
dc.language.iso	en	en_US
dc.publisher	Department of Mechanical and Production Engineering (MPE),Islamic University of Technology(IUT), Board Bazar, Gazipur, Bangladesh	en_US
dc.title	Conversion of a simple bladeless standing fan into a split air conditioner	en_US
dc.type	Thesis	en_US