References
- SAE 97010 Development of Sub-Cool System Y.Yamanaka;H.Matsuo;K.Tuzuki;T.Tsuboko
- Int. J. Thermophys v.10 no.3 Thermo-physical Properties of 1,1,1,2-Tetrafluoroethane(R-134a) R.S.Basu;D.P.Wilson https://doi.org/10.1007/BF00507981
- ASHRAE Transactions v.97 Thermodynamic Charts, Table and Equations for Refrigerant HFC-134a A.Kamei;C.Piao;H.Sato;K.Watanable
- SAE 910218 Performance Evaluation of an Automotive Air Conditioner with Expansion Valve Control Using CFC-12 & HFC-134a Refrigerants R. EI-Bourini;K.Hayashi;T.Adashi
- SAE 900214 Automotive Air Conditioning System Performance with HFC-134a Refrigerant R. EI-Bourini;T.Adachi;K.Tajima
- SAE 870029 Improvement of Refrigerant Flow Control Method in Automotive Air Conditioners M.Mitsui
- Journal of KSAE v.16 no.2 The State of the Automotive Air-Conditioning Systems Using HFC-134a Y.G.Song
- J of Mitsubishi Heavy Co. v.28 no.2 Study on Automotive Air Conditioner System to Cope with CFCs Regulations K.Gano;L.A.Guntly;N.F.Costello
- N.A.C.A. no.369 Effect of Orifice Length-Diameter Ratio on the Coefficient of Discharge of Fuel-Injection Nozzles A.G.Gelalles;G.T.Marsh
- Proceeding of ILASS-Korea 2nd Asian Conference A Design of the Block Type Expansion Valve in Automotive Air Conditining System S.H.Lee;K.H.Kim;Y.G.Song
- Transactions of KSAE v.4 no.6 Optimum Design Scheme of Receiver Dryer in an Automotive Air-Conditioning System using HFC-134a Refrigerant Y.H.Song;K.H.Kim;Y.G.Song
- Fluent 5 User's Guide
- 1998 KSAE Spring Conference Proceeding A Design of the Block Type Expansion Valve in Automotive Air Conditioning System using HFC-134a S.H.Lee;K.H.Kim;S.H.Park;W.Kang
- KATECH-NR 0691-97 Development of Expansion Valve and Receiver Dryer in a Automotive Air-Conditioning System using HFC-134a Refrigerant Y.H.Song;K.H.Kim;S.H.Park;H.W.Rho;W.Kang