Recently several studies have focused on identifying substances possessing low global warming potential (GWP) as blowing agents, propellants, and refrigerants, where particular interest has been placed on fluorinated propylene isomers (HFO). The HFOs most often investigated are R1234ze(E) (trans-1,3,3,3-tetrafluoroprop-1-ene; CF3CH=CHF) and R1234yf (2,3,3,3-tetrafluoroprop-1-ene; CF3CF=CH2), which both possess a GWP < 1 relative to carbon dioxide [1] based on a 100-year timeframe. Another fluorinated propene isomer being considered is cis-1,3,3,3-tetrafluoropropene (R1234ze(Z), CHF=CHCF3, CAS 29118-25-0) which has recently been reported [1] to possess a GWP < 1. Three research groups have published thermodynamic property measurements of R1234ze(Z), namely: (1) Higashi et al. [2] report the critical temperature, pressure, and density; vapor pressure measurements over the temperature range 310 K to 420 K; and PvT data over the temperature range 310 K to 440 K for pressures up to 6 MPa. (2) Tanaka et al. [3] report vapor pressure measurements over the temperature range 310 K to 410 K and PvT data over the temperature range 310 K to 410 K for pressures up to 5 MPa. (3) Fedele et al. [4] report vapor pressure measurements over the range 238 K to 372 K. Two research groups have presented equations of state (EoS) for R1234ze(Z), namely: (1) Brown et al. [5] and Brown et al. [6] present Peng-Robinson EoS and (2) Akasaka et al. [7] present Fundamental Helmholtz EoS. As part of the ongoing investigations of HFO isomers by the authors, this paper presents (1) compressed liquid density measurements over a wide temperature range and pressure up to 35 MPa from the Thermodynamic Properties Laboratory of the Istituto per le Tecnologie della Costruzione of the Consiglio Nazionale delle Ricerche (ITC-CNR) and (2) vapor phase PvT measurements over a wide temperature range for pressures up to 0.43 MPa from the Dipartimento di Ingegneria Industriale e Scienze Matematiche of the Università Politecnica delle Marche (UnivPM). In addition, this paper provides several correlations based on the measured data. Acknowledgements: The authors thank Central Glass Co., Ltd. for the sample. [1] Hodnebrog, Ø; Etminan, M.; Fuglestvedt, J.S.; Marston, G.; Myhre, G.; Nielsen, C.J.; Shine, K.P.; Wallington, T.J.; Singh, R., Rev. Geophys. 2013, 51, 300-378. [2] Higashi, Y.; Hayasaka, S.; Ogiya, S., in Proceedings of the Fourth IIR Conference on Thermophysical Properties and Transfer Processes of Refrigerants, 2013, Paper TP-018. [3] Tanaka, K.; Maruko, K.; Fujimoto, Y.; Tanaka, M. in Proceedings of the Fourth IIR Conference on Thermophysical Properties and Transfer Processes of Refrigerants, 2013, Paper TP-072. [4]Fedele, L.; Di Nicola, G.; Brown, J.S.; Bobbo, S.; Zilio, C., Int. J. Refrig. 2014, 35, 1-12. [5] Brown, J.S.; Zilio, C.; Cavallini, A., Int. J. Refrig. 2009, 32, 1412-1422. [6] Brown, J.S.; Zilio, C.; Cavallini, A., Int. J. Refrig. 2010, 33, 235-241. [7] Akasaka, R.; Higashi, Y.; Miyara, A.; Koyama, S., Int. J. Refrig. 2014.
Measurements and Correlations of cis-1,3,3,3-Tetrafluoroprop-1-ene (R1234ze(Z)) Subcooled Liquid Density and Vapor Phase PvT
L Fedele;S Bobbo;M Scattolini
2014
Abstract
Recently several studies have focused on identifying substances possessing low global warming potential (GWP) as blowing agents, propellants, and refrigerants, where particular interest has been placed on fluorinated propylene isomers (HFO). The HFOs most often investigated are R1234ze(E) (trans-1,3,3,3-tetrafluoroprop-1-ene; CF3CH=CHF) and R1234yf (2,3,3,3-tetrafluoroprop-1-ene; CF3CF=CH2), which both possess a GWP < 1 relative to carbon dioxide [1] based on a 100-year timeframe. Another fluorinated propene isomer being considered is cis-1,3,3,3-tetrafluoropropene (R1234ze(Z), CHF=CHCF3, CAS 29118-25-0) which has recently been reported [1] to possess a GWP < 1. Three research groups have published thermodynamic property measurements of R1234ze(Z), namely: (1) Higashi et al. [2] report the critical temperature, pressure, and density; vapor pressure measurements over the temperature range 310 K to 420 K; and PvT data over the temperature range 310 K to 440 K for pressures up to 6 MPa. (2) Tanaka et al. [3] report vapor pressure measurements over the temperature range 310 K to 410 K and PvT data over the temperature range 310 K to 410 K for pressures up to 5 MPa. (3) Fedele et al. [4] report vapor pressure measurements over the range 238 K to 372 K. Two research groups have presented equations of state (EoS) for R1234ze(Z), namely: (1) Brown et al. [5] and Brown et al. [6] present Peng-Robinson EoS and (2) Akasaka et al. [7] present Fundamental Helmholtz EoS. As part of the ongoing investigations of HFO isomers by the authors, this paper presents (1) compressed liquid density measurements over a wide temperature range and pressure up to 35 MPa from the Thermodynamic Properties Laboratory of the Istituto per le Tecnologie della Costruzione of the Consiglio Nazionale delle Ricerche (ITC-CNR) and (2) vapor phase PvT measurements over a wide temperature range for pressures up to 0.43 MPa from the Dipartimento di Ingegneria Industriale e Scienze Matematiche of the Università Politecnica delle Marche (UnivPM). In addition, this paper provides several correlations based on the measured data. Acknowledgements: The authors thank Central Glass Co., Ltd. for the sample. [1] Hodnebrog, Ø; Etminan, M.; Fuglestvedt, J.S.; Marston, G.; Myhre, G.; Nielsen, C.J.; Shine, K.P.; Wallington, T.J.; Singh, R., Rev. Geophys. 2013, 51, 300-378. [2] Higashi, Y.; Hayasaka, S.; Ogiya, S., in Proceedings of the Fourth IIR Conference on Thermophysical Properties and Transfer Processes of Refrigerants, 2013, Paper TP-018. [3] Tanaka, K.; Maruko, K.; Fujimoto, Y.; Tanaka, M. in Proceedings of the Fourth IIR Conference on Thermophysical Properties and Transfer Processes of Refrigerants, 2013, Paper TP-072. [4]Fedele, L.; Di Nicola, G.; Brown, J.S.; Bobbo, S.; Zilio, C., Int. J. Refrig. 2014, 35, 1-12. [5] Brown, J.S.; Zilio, C.; Cavallini, A., Int. J. Refrig. 2009, 32, 1412-1422. [6] Brown, J.S.; Zilio, C.; Cavallini, A., Int. J. Refrig. 2010, 33, 235-241. [7] Akasaka, R.; Higashi, Y.; Miyara, A.; Koyama, S., Int. J. Refrig. 2014.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.