참고문헌
- Korean Jaurnal of Air-Conditioning and Refrigeration v.15 no.1 Data reduction on the air-side heat transfer coefficients of heat exchangers under dehumidifying conditions Kim,N.H.;Oh,W.K.;Cho,J.P.;Park,W.Y.;Baek,Y.
- ARI 410-81, Standard for forced-circulation air-cooling and air-heating colis American Refrigeration Institute
- ASHRAE Trans. v.81 no.1 Fin efficiency with combined heat and mess transfer McQuiston,F.C.
- ASHRAE Trans. v.84 Heat, mass and momentum transfer data for five plate-fin-tube surfaces McQuiston,F.C.
- J. Heat Transfer v.119 Performance of plate finned tube heat exchangers under dehumidifying conditions Wang,C.C.;Hsieh,Y.C.;Lin,Y.T. https://doi.org/10.1115/1.2824075
- J. Heat Transfer v.109 Duhumidification: on the correlation of wet and dry transport process in plate finned-tube heat exchangers Eckels,P.W.;Rabas,T.J. https://doi.org/10.1115/1.3248127
- ASHARE Trans. v.99 Thermal performance of chilled water cooling coils at low water velocities Mirth,D.R.;Ramadhyani,S.;Hittle,D.C.
- J. Heat Transfer v.121 Performance of dehumidifying heat exchangers with and without wetting coatings Hong,K.;Webb,R.L. https://doi.org/10.1115/1.2826052
- Korean Journal of Air-Conditioning and Refrigeration v.9 no.2 Wet surface performance test of fin-and-tube heat exchangers with slit-wavy fin Kim,N.H.;Kim,J.S.;Yun,J.H.;Peck,J.H.;Lee,S.K.;Nam,S.B.;Kwon,H.J.
- Int. J. Heat Mass Trans. v.43 Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, Part Ⅱ: correlation Wang,C.C;Chi,K.Y.;Chang,C.J. https://doi.org/10.1016/S0017-9310(99)00333-6
- J. Heat Transfer v.121 Air-side heat transfer and friction correlations for plain fin-and-tube heat exchangers with staggered tube arrangements Kim,N.H.;Youn,B.;Webb,R.L. https://doi.org/10.1115/1.2826030
- Proceedings of the 9th International Heat Transfer Conference Heat transfer and friction correlations for plate fin-and-tube heat exchangers having plain fins Gray,D.L.;Webb,R.L.
- ASHRAE Transactions v.84 Correlation of heat, mass and momentum transport coefficients for plate-fin-tube heat transfer surfaces with staggered tubes McQuiston,F.C.
- J. of Heart Transfer v.119 Performance of plate finned tube heat exchanges under dehumidifying conditions Wang,C.C.;Hsieh,Y.C.;Lin,Y.T. https://doi.org/10.1115/1.2824075
- ASHRAE Standard 41.1 Standard method for temperature measurement ASHRAE
- ASHRAE Standard 41.2 Standard method for laboratory air-flow measurement ASHRAE
- ASHRAE Standard 41.5 Standard measurement guide, engineering analysis of experimental data ASHRAE
- F and θ charts for cross-flow arrangements, in heart Transfer Enhancement of Heat Exchangers Taborek,J.;S.Kakac(ed.);A.E.Bergles(ed.);F.Mayinger(ed.);H.Yuncu(ed.)
- Int. Chem. Eng. v.16 New equations for heat and mass transfer in turbulent pipe flows Gnielinski,V.
- J. ASRE, Refrigeration Engineering v.4 Heat transfer calculations for extended surfaces Schmidt,T.E.
- ASHRAE Transactions v.79 The effect of fin spacing on the heat transfer and friction preformance of multi-row, plate fin-and-tube heat exchangers Rich,D.G.
- ASHRAE Trans. v.81 The effect of number of tube rows on the heat transfer performance of smooth plate-fin-tube heat exchangers Rich,D.G.
- Journal of Heat Transfer v.112 Heat transfer characterization of a finned-tube heat exchanger (with and with-out condensation) Idem,S.A.;Jacobi,A.M.;Goldschmidt,V.W. https://doi.org/10.1115/1.2910366