不同温度丙烯饱和蒸汽压.
丙烯饱和温度压力值50℃~-45℃
CoolWare v7.3.0Registered To: Johnson Controls China Huang JianCustomer Name Reference Data 2008-7-5End User Name Item Refrigerant Props 2Atmospheric Pressure 1.014 bar Project Elevation0 m Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature50.00 °C Dynamic Viscosity0.0109 cPs Critical Pressure46.214 bara Pressure20.556 bara Kinematic Viscosity0.2356 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02172 m3/kg Specific Heat Cp 2.5354 kJ/kg-K Thermal Conductivity0.0247 W/m-°C Enthalpy297.01 kJ/kg Specific Heat Cv 1.5951 kJ/kg-K Acoustic Velocity200.6 m/sec Entropy 5.7213 kJ/kg-K Specific Heat Ratio 1.5895Surface TensionInternal Energy252.37 kJ/kg Compressibility Z0.6991Molecular Weight42.09Density46.05 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature48.00 °C Dynamic Viscosity0.0107 cPs Critical Pressure46.214 bara Pressure19.691 bara Kinematic Viscosity0.2438 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02282 m3/kg Specific Heat Cp 2.4716 kJ/kg-K Thermal Conductivity0.0241 W/m-°C Enthalpy296.23 kJ/kg Specific Heat Cv 1.5837 kJ/kg-K Acoustic Velocity202.4 m/sec Entropy 5.7249 kJ/kg-K Specific Heat Ratio 1.5607Surface TensionInternal Energy251.29 kJ/kg Compressibility Z0.7082Molecular Weight42.09Density43.82 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature45.00 °C Dynamic Viscosity0.0104 cPs Critical Pressure46.214 bara Pressure18.446 bara Kinematic Viscosity0.2568 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02458 m3/kg Specific Heat Cp 2.3856 kJ/kg-K Thermal Conductivity0.0232 W/m-°C Enthalpy294.92 kJ/kg Specific Heat Cv 1.5667 kJ/kg-K Acoustic Velocity204.9 m/sec Entropy 5.7300 kJ/kg-K Specific Heat Ratio 1.5226Surface TensionInternal Energy249.58 kJ/kg Compressibility Z0.7213Molecular Weight42.09Density40.68 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature42.00 °C Dynamic Viscosity0.0102 cPs Critical Pressure46.214 bara Pressure17.259 bara Kinematic Viscosity0.2709 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02648 m3/kg Specific Heat Cp 2.3091 kJ/kg-K Thermal Conductivity0.0224 W/m-°C Enthalpy293.46 kJ/kg Specific Heat Cv 1.5500 kJ/kg-K Acoustic Velocity207.3 m/sec Entropy 5.7349 kJ/kg-K Specific Heat Ratio 1.4898Surface TensionInternal Energy247.76 kJ/kg Compressibility Z0.7339Molecular Weight42.09Density37.77 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature40.00 °C Dynamic Viscosity0.0101 cPs Critical Pressure46.214 bara Pressure16.499 bara Kinematic Viscosity0.2810 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02783 m3/kg Specific Heat Cp 2.2625 kJ/kg-K Thermal Conductivity0.0219 W/m-°C Enthalpy292.40 kJ/kg Specific Heat Cv 1.5389 kJ/kg-K Acoustic Velocity208.8 m/sec Entropy 5.7382 kJ/kg-K Specific Heat Ratio 1.4703Surface TensionInternal Energy246.49 kJ/kg Compressibility Z0.7421Molecular Weight42.09Density35.94 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature37.00 °C Dynamic Viscosity0.0099 cPs Critical Pressure46.214 bara Pressure15.406 bara Kinematic Viscosity0.2972 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.02999 m3/kg Specific Heat Cp 2.1983 kJ/kg-K Thermal Conductivity0.0212 W/m-°C Enthalpy290.72 kJ/kg Specific Heat Cv 1.5223 kJ/kg-K Acoustic Velocity210.8 m/sec Entropy 5.7429 kJ/kg-K Specific Heat Ratio 1.4440Surface TensionInternal Energy244.52 kJ/kg Compressibility Z0.7539Molecular Weight42.09Density33.35 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature35.00 °C Dynamic Viscosity0.0098 cPs Critical Pressure46.214 bara Pressure14.707 bara Kinematic Viscosity0.3088 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.03153 m3/kg Specific Heat Cp 2.1587 kJ/kg-K Thermal Conductivity0.0208 W/m-°C Enthalpy289.53 kJ/kg Specific Heat Cv 1.5114 kJ/kg-K Acoustic Velocity212.1 m/sec Entropy 5.7460 kJ/kg-K Specific Heat Ratio 1.4283Surface TensionInternal Energy243.17 kJ/kg Compressibility Z0.7616Molecular Weight42.09Density31.72 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature32.00 °C Dynamic Viscosity0.0096 cPs Critical Pressure46.214 bara Pressure13.703 bara Kinematic Viscosity0.3275 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.03400 m3/kg Specific Heat Cp 2.1034 kJ/kg-K Thermal Conductivity0.0202 W/m-°C Enthalpy287.66 kJ/kg Specific Heat Cv 1.4951 kJ/kg-K Acoustic Velocity213.9 m/sec Entropy 5.7506 kJ/kg-K Specific Heat Ratio 1.4069Surface TensionInternal Energy241.07 kJ/kg Compressibility Z0.7727Molecular Weight42.09Density29.41 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °CTemperature30.00 °C Dynamic Viscosity0.0095 cPs Critical Pressure46.214 bara Pressure13.062 bara Kinematic Viscosity0.3409 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.03577 m3/kg Specific Heat Cp 2.0690 kJ/kg-K Thermal Conductivity0.0198 W/m-°C Enthalpy286.36 kJ/kg Specific Heat Cv 1.4843 kJ/kg-K Acoustic Velocity215.1 m/sec Entropy 5.7537 kJ/kg-K Specific Heat Ratio 1.3940Surface TensionInternal Energy239.64 kJ/kg Compressibility Z0.7800Molecular Weight42.09Density27.96 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature27.00 °C Dynamic Viscosity0.0094 cPs Critical Pressure46.214 bara Pressure12.142 bara Kinematic Viscosity0.3626 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.03861 m3/kg Specific Heat Cp 2.0206 kJ/kg-K Thermal Conductivity0.0192 W/m-°C Enthalpy284.32 kJ/kg Specific Heat Cv 1.4682 kJ/kg-K Acoustic Velocity216.7 m/sec Entropy 5.7583 kJ/kg-K Specific Heat Ratio 1.3763Surface TensionInternal Energy237.44 kJ/kg Compressibility Z0.7905Molecular Weight42.09Density25.90 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature25.00 °C Dynamic Viscosity0.0093 cPs Critical Pressure46.214 bara Pressure11.555 bara Kinematic Viscosity0.3781 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.04065 m3/kg Specific Heat Cp 1.9903 kJ/kg-K Thermal Conductivity0.0189 W/m-°C Enthalpy282.91 kJ/kg Specific Heat Cv 1.4575 kJ/kg-K Acoustic Velocity217.6 m/sec Entropy 5.7613 kJ/kg-K Specific Heat Ratio 1.3655Surface TensionInternal Energy235.94 kJ/kg Compressibility Z0.7973Molecular Weight42.09Density24.60 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature23.00 °C Dynamic Viscosity0.0092 cPs Critical Pressure46.214 bara Pressure10.990 bara Kinematic Viscosity0.3946 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.04281 m3/kg Specific Heat Cp 1.9613 kJ/kg-K Thermal Conductivity0.0185 W/m-°C Enthalpy281.47 kJ/kg Specific Heat Cv 1.4469 kJ/kg-K Acoustic Velocity218.6 m/sec Entropy 5.7644 kJ/kg-K Specific Heat Ratio 1.3555Surface TensionInternal Energy234.42 kJ/kg Compressibility Z0.8040Molecular Weight42.09Density23.36 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature20.00 °C Dynamic Viscosity0.0091 cPs Critical Pressure46.214 bara Pressure10.180 bara Kinematic Viscosity0.4211 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.04630 m3/kg Specific Heat Cp 1.9200 kJ/kg-K Thermal Conductivity0.0180 W/m-°C Enthalpy279.24 kJ/kg Specific Heat Cv 1.4311 kJ/kg-K Acoustic Velocity219.8 m/sec Entropy 5.7691 kJ/kg-K Specific Heat Ratio 1.3416Surface TensionInternal Energy232.10 kJ/kg Compressibility Z0.8137Molecular Weight42.09Density21.60 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature18.00 °C Dynamic Viscosity0.0090 cPs Critical Pressure46.214 bara Pressure9.664 bara Kinematic Viscosity0.4402 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.04881 m3/kg Specific Heat Cp 1.8939 kJ/kg-K Thermal Conductivity0.0177 W/m-°C Enthalpy277.71 kJ/kg Specific Heat Cv 1.4207 kJ/kg-K Acoustic Velocity220.6 m/sec Entropy 5.7722 kJ/kg-K Specific Heat Ratio 1.3331Surface TensionInternal Energy230.53 kJ/kg Compressibility Z0.8200Molecular Weight42.09Density20.49 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature16.00 °C Dynamic Viscosity0.0089 cPs Critical Pressure46.214 bara Pressure9.169 bara Kinematic Viscosity0.4603 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.05148 m3/kg Specific Heat Cp 1.8688 kJ/kg-K Thermal Conductivity0.0174 W/m-°C Enthalpy276.14 kJ/kg Specific Heat Cv 1.4103 kJ/kg-K Acoustic Velocity221.4 m/sec Entropy 5.7754 kJ/kg-K Specific Heat Ratio 1.3251Surface TensionInternal Energy228.94 kJ/kg Compressibility Z0.8262Molecular Weight42.09Density19.42 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature14.00 °C Dynamic Viscosity0.0089 cPs Critical Pressure46.214 bara Pressure8.692 bara Kinematic Viscosity0.4818 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.05433 m3/kg Specific Heat Cp 1.8447 kJ/kg-K Thermal Conductivity0.0171 W/m-°C Enthalpy274.55 kJ/kg Specific Heat Cv 1.4000 kJ/kg-K Acoustic Velocity222.0 m/sec Entropy 5.7786 kJ/kg-K Specific Heat Ratio 1.3176Surface TensionInternal Energy227.33 kJ/kg Compressibility Z0.8323Molecular Weight42.09Density18.41 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature12.00 °C Dynamic Viscosity0.0088 cPs Critical Pressure46.214 bara Pressure8.233 bara Kinematic Viscosity0.5045 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.05736 m3/kg Specific Heat Cp 1.8214 kJ/kg-K Thermal Conductivity0.0168 W/m-°C Enthalpy272.93 kJ/kg Specific Heat Cv 1.3897 kJ/kg-K Acoustic Velocity222.7 m/sec Entropy 5.7819 kJ/kg-K Specific Heat Ratio 1.3106Surface TensionInternal Energy225.71 kJ/kg Compressibility Z0.8382Molecular Weight42.09Density17.43 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature10.00 °C Dynamic Viscosity0.0087 cPs Critical Pressure46.214 baraPressure7.793 bara Kinematic Viscosity0.5286 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.06059 m3/kg Specific Heat Cp 1.7988 kJ/kg-K Thermal Conductivity0.0166 W/m-°C Enthalpy271.28 kJ/kg Specific Heat Cv 1.3795 kJ/kg-K Acoustic Velocity223.3 m/sec Entropy 5.7852 kJ/kg-K Specific Heat Ratio 1.3040Surface TensionInternal Energy224.07 kJ/kg Compressibility Z0.8439Molecular Weight42.09Density16.51 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature8.00 °C Dynamic Viscosity0.0087 cPs Critical Pressure46.214 bara Pressure7.370 bara Kinematic Viscosity0.5543 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.06404 m3/kg Specific Heat Cp 1.7771 kJ/kg-K Thermal Conductivity0.0163 W/m-°C Enthalpy269.61 kJ/kg Specific Heat Cv 1.3693 kJ/kg-K Acoustic Velocity223.8 m/sec Entropy 5.7886 kJ/kg-K Specific Heat Ratio 1.2978Surface TensionInternal Energy222.41 kJ/kg Compressibility Z0.8496Molecular Weight42.09Density15.62 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature 6.00 °C Dynamic Viscosity0.0086 cPs Critical Pressure46.214 bara Pressure 6.964 bara Kinematic Viscosity0.5815 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.06772 m3/kg Specific Heat Cp 1.7560 kJ/kg-K Thermal Conductivity0.0160 W/m-°C Enthalpy267.90 kJ/kg Specific Heat Cv 1.3593 kJ/kg-K Acoustic Velocity224.3 m/sec Entropy 5.7921 kJ/kg-K Specific Heat Ratio 1.2919Surface TensionInternal Energy220.74 kJ/kg Compressibility Z0.8551Molecular Weight42.09Density14.77 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature 4.00 °C Dynamic Viscosity0.0085 cPs Critical Pressure46.214 bara Pressure 6.575 bara Kinematic Viscosity0.6105 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.07166 m3/kg Specific Heat Cp 1.7356 kJ/kg-K Thermal Conductivity0.0158 W/m-°C Enthalpy266.18 kJ/kg Specific Heat Cv 1.3492 kJ/kg-K Acoustic Velocity224.7 m/sec Entropy 5.7956 kJ/kg-K Specific Heat Ratio 1.2863Surface TensionInternal Energy219.06 kJ/kg Compressibility Z0.8605Molecular Weight42.09Density13.95 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature 3.00 °C Dynamic Viscosity0.0085 cPs Critical Pressure46.214 bara Pressure 6.387 bara Kinematic Viscosity0.6257 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.07374 m3/kg Specific Heat Cp 1.7256 kJ/kg-K Thermal Conductivity0.0156 W/m-°C Enthalpy265.31 kJ/kg Specific Heat Cv 1.3442 kJ/kg-K Acoustic Velocity224.9 m/sec Entropy 5.7974 kJ/kg-K Specific Heat Ratio 1.2837Surface TensionInternal Energy218.21 kJ/kg Compressibility Z0.8631Molecular Weight42.09Density13.56 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature 2.00 °C Dynamic Viscosity0.0085 cPs Critical Pressure46.214 bara Pressure 6.202 bara Kinematic Viscosity0.6413 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.07588 m3/kg Specific Heat Cp 1.7157 kJ/kg-K Thermal Conductivity0.0155 W/m-°C Enthalpy264.43 kJ/kg Specific Heat Cv 1.3393 kJ/kg-K Acoustic Velocity225.1 m/sec Entropy 5.7992 kJ/kg-K Specific Heat Ratio 1.2811Surface TensionInternal Energy217.36 kJ/kg Compressibility Z0.8658Molecular Weight42.09Density13.18 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature 1.00 °C Dynamic Viscosity0.0084 cPs Critical Pressure46.214 bara Pressure 6.022 bara Kinematic Viscosity0.6574 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.07811 m3/kg Specific Heat Cp 1.7061 kJ/kg-K Thermal Conductivity0.0154 W/m-°C Enthalpy263.54 kJ/kg Specific Heat Cv 1.3343 kJ/kg-K Acoustic Velocity225.3 m/sec Entropy 5.8011 kJ/kg-K Specific Heat Ratio 1.2786Surface TensionInternal Energy216.51 kJ/kg Compressibility Z0.8684Molecular Weight42.09Density12.80 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature0.00 °C Dynamic Viscosity0.0084 cPs Critical Pressure46.214 bara Pressure 5.846 bara Kinematic Viscosity0.6741 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.08041 m3/kg Specific Heat Cp 1.6965 kJ/kg-K Thermal Conductivity0.0153 W/m-°C Enthalpy262.65 kJ/kg Specific Heat Cv 1.3294 kJ/kg-K Acoustic Velocity225.5 m/sec Entropy 5.8029 kJ/kg-K Specific Heat Ratio 1.2762Surface TensionInternal Energy215.65 kJ/kg Compressibility Z0.8709Molecular Weight42.09Density12.44 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-1.00 °C Dynamic Viscosity0.0083 cPs Critical Pressure46.214 bara Pressure 5.673 bara Kinematic Viscosity0.6913 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.08279 m3/kg Specific Heat Cp 1.6871 kJ/kg-K Thermal Conductivity0.0152 W/m-°C Enthalpy261.76 kJ/kg Specific Heat Cv 1.3244 kJ/kg-K Acoustic Velocity225.7 m/sec Entropy 5.8048 kJ/kg-K Specific Heat Ratio 1.2738Surface TensionInternal Energy214.79 kJ/kg Compressibility Z0.8734Molecular Weight42.09Density12.08 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-2.00 °C Dynamic Viscosity0.0083 cPs Critical Pressure46.214 bara Pressure 5.504 bara Kinematic Viscosity0.7090 cSt Critical Specific Volume0.00454 m3/kgSpecific Volume0.08526 m3/kg Specific Heat Cp 1.6778 kJ/kg-K Thermal Conductivity0.0150 W/m-°C Enthalpy260.86 kJ/kg Specific Heat Cv 1.3195 kJ/kg-K Acoustic Velocity225.8 m/sec Entropy 5.8067 kJ/kg-K Specific Heat Ratio 1.2715Surface TensionInternal Energy213.93 kJ/kg Compressibility Z0.8759Molecular Weight42.09Density11.73 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-3.00 °C Dynamic Viscosity0.0083 cPs Critical Pressure46.214 bara Pressure 5.339 bara Kinematic Viscosity0.7274 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.08782 m3/kg Specific Heat Cp 1.6686 kJ/kg-K Thermal Conductivity0.0149 W/m-°C Enthalpy259.95 kJ/kg Specific Heat Cv 1.3146 kJ/kg-K Acoustic Velocity226.0 m/sec Entropy 5.8087 kJ/kg-K Specific Heat Ratio 1.2693Surface TensionInternal Energy213.07 kJ/kg Compressibility Z0.8784Molecular Weight42.09Density11.39 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-4.00 °C Dynamic Viscosity0.0082 cPs Critical Pressure46.214 bara Pressure 5.178 bara Kinematic Viscosity0.7463 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.09047 m3/kg Specific Heat Cp 1.6596 kJ/kg-K Thermal Conductivity0.0148 W/m-°C Enthalpy259.04 kJ/kg Specific Heat Cv 1.3097 kJ/kg-K Acoustic Velocity226.1 m/sec Entropy 5.8106 kJ/kg-K Specific Heat Ratio 1.2671Surface TensionInternal Energy212.20 kJ/kg Compressibility Z0.8808Molecular Weight42.09Density11.05 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-5.00 °C Dynamic Viscosity0.0082 cPs Critical Pressure46.214 bara Pressure 5.020 bara Kinematic Viscosity0.7658 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.09322 m3/kg Specific Heat Cp 1.6507 kJ/kg-K Thermal Conductivity0.0147 W/m-°C Enthalpy258.13 kJ/kg Specific Heat Cv 1.3049 kJ/kg-K Acoustic Velocity226.2 m/sec Entropy 5.8126 kJ/kg-K Specific Heat Ratio 1.2650Surface TensionInternal Energy211.33 kJ/kg Compressibility Z0.8833Molecular Weight42.09Density10.73 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-7.00 °C Dynamic Viscosity0.0081 cPs Critical Pressure46.214 bara Pressure 4.715 bara Kinematic Viscosity0.8069 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.09903 m3/kg Specific Heat Cp 1.6332 kJ/kg-K Thermal Conductivity0.0145 W/m-°C Enthalpy256.28 kJ/kg Specific Heat Cv 1.2952 kJ/kg-K Acoustic Velocity226.4 m/sec Entropy 5.8166 kJ/kg-K Specific Heat Ratio 1.2610Surface TensionInternal Energy209.58 kJ/kg Compressibility Z0.8880Molecular Weight42.09Density10.10 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-10.00 °C Dynamic Viscosity0.0080 cPs Critical Pressure46.214 bara Pressure 4.285 bara Kinematic Viscosity0.8738 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.10859 m3/kg Specific Heat Cp 1.6078 kJ/kg-K Thermal Conductivity0.0141 W/m-°C Enthalpy253.47 kJ/kg Specific Heat Cv 1.2808 kJ/kg-K Acoustic Velocity226.7 m/sec Entropy 5.8229 kJ/kg-K Specific Heat Ratio 1.2553Surface TensionInternal Energy206.95 kJ/kg Compressibility Z0.8949Molecular Weight42.09Density9.21 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-12.00 °C Dynamic Viscosity0.0080 cPs Critical Pressure46.214 bara Pressure 4.014 bara Kinematic Viscosity0.9223 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.11559 m3/kg Specific Heat Cp 1.5914 kJ/kg-K Thermal Conductivity0.0139 W/m-°C Enthalpy251.58 kJ/kg Specific Heat Cv 1.2713 kJ/kg-K Acoustic Velocity226.8 m/sec Entropy 5.8272 kJ/kg-K Specific Heat Ratio 1.2518Surface TensionInternal Energy205.18 kJ/kg Compressibility Z0.8993Molecular Weight42.09Density8.65 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-13.00 °C Dynamic Viscosity0.0079 cPs Critical Pressure46.214 bara Pressure 3.884 bara Kinematic Viscosity0.9478 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.11930 m3/kg Specific Heat Cp 1.5834 kJ/kg-K Thermal Conductivity0.0138 W/m-°C Enthalpy250.63 kJ/kg Specific Heat Cv 1.2666 kJ/kg-K Acoustic Velocity226.8 m/sec Entropy 5.8294 kJ/kg-K Specific Heat Ratio 1.2502Surface TensionInternal Energy204.29 kJ/kg Compressibility Z0.9015Molecular Weight42.09Density8.38 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-15.00 °C Dynamic Viscosity0.0079 cPs Critical Pressure46.214 bara Pressure 3.633 bara Kinematic Viscosity 1.0016 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.12717 m3/kg Specific Heat Cp 1.5676 kJ/kg-K Thermal Conductivity0.0136 W/m-°C Enthalpy248.70 kJ/kg Specific Heat Cv 1.2571 kJ/kg-K Acoustic Velocity226.9 m/sec Entropy 5.8340 kJ/kg-K Specific Heat Ratio 1.2469Surface TensionInternal Energy202.51 kJ/kg Compressibility Z0.9058Molecular Weight42.09Density7.86 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-18.00 °C Dynamic Viscosity0.0078 cPs Critical Pressure46.214 bara Pressure 3.280 bara Kinematic Viscosity 1.0897 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.14019 m3/kg Specific Heat Cp 1.5446 kJ/kg-K Thermal Conductivity0.0133 W/m-°CEnthalpy245.79 kJ/kg Specific Heat Cv 1.2432 kJ/kg-K Acoustic Velocity226.9 m/sec Entropy 5.8410 kJ/kg-K Specific Heat Ratio 1.2425Surface TensionInternal Energy199.82 kJ/kg Compressibility Z0.9120Molecular Weight42.09Density7.13 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-20.00 °C Dynamic Viscosity0.0077 cPs Critical Pressure46.214 bara Pressure 3.059 bara Kinematic Viscosity 1.1539 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.14978 m3/kg Specific Heat Cp 1.5297 kJ/kg-K Thermal Conductivity0.0131 W/m-°C Enthalpy243.83 kJ/kg Specific Heat Cv 1.2339 kJ/kg-K Acoustic Velocity226.9 m/sec Entropy 5.8458 kJ/kg-K Specific Heat Ratio 1.2397Surface TensionInternal Energy198.02 kJ/kg Compressibility Z0.9159Molecular Weight42.09Density 6.68 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-23.00 °C Dynamic Viscosity0.0076 cPs Critical Pressure46.214 bara Pressure 2.749 bara Kinematic Viscosity 1.2594 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.16572 m3/kg Specific Heat Cp 1.5080 kJ/kg-K Thermal Conductivity0.0128 W/m-°C Enthalpy240.86 kJ/kg Specific Heat Cv 1.2202 kJ/kg-K Acoustic Velocity226.8 m/sec Entropy 5.8534 kJ/kg-K Specific Heat Ratio 1.2358Surface TensionInternal Energy195.30 kJ/kg Compressibility Z0.9217Molecular Weight42.09Density 6.03 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-25.00 °C Dynamic Viscosity0.0075 cPs Critical Pressure46.214 bara Pressure 2.556 bara Kinematic Viscosity 1.3367 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.17752 m3/kg Specific Heat Cp 1.4939 kJ/kg-K Thermal Conductivity0.0126 W/m-°C Enthalpy238.86 kJ/kg Specific Heat Cv 1.2112 kJ/kg-K Acoustic Velocity226.7 m/sec Entropy 5.8587 kJ/kg-K Specific Heat Ratio 1.2334Surface TensionInternal Energy193.48 kJ/kg Compressibility Z0.9254Molecular Weight42.09Density 5.63 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-28.00 °C Dynamic Viscosity0.0074 cPs Critical Pressure46.214 bara Pressure 2.286 bara Kinematic Viscosity 1.4641 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.19721 m3/kg Specific Heat Cp 1.4734 kJ/kg-K Thermal Conductivity0.0123 W/m-°C Enthalpy235.83 kJ/kg Specific Heat Cv 1.1977 kJ/kg-K Acoustic Velocity226.4 m/sec Entropy 5.8669 kJ/kg-K Specific Heat Ratio 1.2301Surface TensionInternal Energy190.75 kJ/kg Compressibility Z0.9308Molecular Weight42.09Density 5.07 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-30.00 °C Dynamic Viscosity0.0074 cPs Critical Pressure46.214 bara Pressure 2.119 bara Kinematic Viscosity 1.5578 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.21184 m3/kg Specific Heat Cp 1.4601 kJ/kg-K Thermal Conductivity0.0122 W/m-°C Enthalpy233.80 kJ/kg Specific Heat Cv 1.1889 kJ/kg-K Acoustic Velocity226.2 m/sec Entropy 5.8726 kJ/kg-K Specific Heat Ratio 1.2281Surface TensionInternal Energy188.92 kJ/kg Compressibility Z0.9343Molecular Weight42.09Density 4.72 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-32.00 °C Dynamic Viscosity0.0073 cPs Critical Pressure46.214 bara Pressure 1.961 bara Kinematic Viscosity 1.6592 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.22783 m3/kg Specific Heat Cp 1.4470 kJ/kg-K Thermal Conductivity0.0120 W/m-°C Enthalpy231.75 kJ/kg Specific Heat Cv 1.1801 kJ/kg-K Acoustic Velocity226.0 m/sec Entropy 5.8784 kJ/kg-K Specific Heat Ratio 1.2262Surface TensionInternal Energy187.08 kJ/kg Compressibility Z0.9376Molecular Weight42.09Density 4.39 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-35.00 °C Dynamic Viscosity0.0072 cPs Critical Pressure46.214 bara Pressure 1.741 bara Kinematic Viscosity 1.8277 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.25469 m3/kg Specific Heat Cp 1.4280 kJ/kg-K Thermal Conductivity0.0117 W/m-°C Enthalpy228.66 kJ/kg Specific Heat Cv 1.1671 kJ/kg-K Acoustic Velocity225.6 m/sec Entropy 5.8876 kJ/kg-K Specific Heat Ratio 1.2236Surface TensionInternal Energy184.32 kJ/kg Compressibility Z0.9424Molecular Weight42.09Density 3.93 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-37.00 °C Dynamic Viscosity0.0071 cPs Critical Pressure46.214 bara Pressure 1.606 bara Kinematic Viscosity 1.9523 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.27477 m3/kg Specific Heat Cp 1.4156 kJ/kg-K Thermal Conductivity0.0115 W/m-°C Enthalpy226.58 kJ/kg Specific Heat Cv 1.1585 kJ/kg-K Acoustic Velocity225.3 m/sec Entropy 5.8940 kJ/kg-K Specific Heat Ratio 1.2220Surface TensionInternal Energy182.47 kJ/kg Compressibility Z0.9455Molecular Weight42.09Density 3.64 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-40.00 °C Dynamic Viscosity0.0070 cPs Critical Pressure46.214 bara Pressure 1.418 bara Kinematic Viscosity 2.1604 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.30868 m3/kg Specific Heat Cp 1.3976 kJ/kg-K Thermal Conductivity0.0113 W/m-°C Enthalpy223.45 kJ/kg Specific Heat Cv 1.1458 kJ/kg-K Acoustic Velocity224.8 m/secEntropy 5.9039 kJ/kg-K Specific Heat Ratio 1.2198Surface TensionInternal Energy179.69 kJ/kg Compressibility Z0.9499Molecular Weight42.09Density 3.24 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-42.00 °C Dynamic Viscosity0.0069 cPs Critical Pressure46.214 bara Pressure 1.302 bara Kinematic Viscosity 2.3150 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.33416 m3/kg Specific Heat Cp 1.3859 kJ/kg-K Thermal Conductivity0.0111 W/m-°C Enthalpy221.35 kJ/kg Specific Heat Cv 1.1374 kJ/kg-K Acoustic Velocity224.4 m/sec Entropy 5.9108 kJ/kg-K Specific Heat Ratio 1.2185Surface TensionInternal Energy177.83 kJ/kg Compressibility Z0.9527Molecular Weight42.09Density 2.99 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-43.00 °C Dynamic Viscosity0.0069 cPs Critical Pressure46.214 bara Pressure 1.247 bara Kinematic Viscosity 2.3977 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.34786 m3/kg Specific Heat Cp 1.3801 kJ/kg-K Thermal Conductivity0.0110 W/m-°C Enthalpy220.29 kJ/kg Specific Heat Cv 1.1332 kJ/kg-K Acoustic Velocity224.2 m/sec Entropy 5.9144 kJ/kg-K Specific Heat Ratio 1.2178Surface TensionInternal Energy176.90 kJ/kg Compressibility Z0.9541Molecular Weight42.09Density 2.87 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-44.00 °C Dynamic Viscosity0.0069 cPs Critical Pressure46.214 bara Pressure 1.194 bara Kinematic Viscosity 2.4842 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.36227 m3/kg Specific Heat Cp 1.3744 kJ/kg-K Thermal Conductivity0.0109 W/m-°C Enthalpy219.23 kJ/kg Specific Heat Cv 1.1291 kJ/kg-K Acoustic Velocity224.0 m/sec Entropy 5.9180 kJ/kg-K Specific Heat Ratio 1.2173Surface TensionInternal Energy175.97 kJ/kg Compressibility Z0.9554Molecular Weight42.09Density 2.76 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-45.00 °C Dynamic Viscosity0.0068 cPs Critical Pressure46.214 bara Pressure 1.143 bara Kinematic Viscosity 2.5747 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.37741 m3/kg Specific Heat Cp 1.3687 kJ/kg-K Thermal Conductivity0.0109 W/m-°C Enthalpy218.17 kJ/kg Specific Heat Cv 1.1250 kJ/kg-K Acoustic Velocity223.8 m/sec Entropy 5.9216 kJ/kg-K Specific Heat Ratio 1.2167Surface TensionInternal Energy175.04 kJ/kg Compressibility Z0.9567Molecular Weight42.09Density 2.65 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-46.00 °C Dynamic Viscosity0.0068 cPs Critical Pressure46.214 bara Pressure 1.093 bara Kinematic Viscosity 2.6696 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.39333 m3/kg Specific Heat Cp 1.3631 kJ/kg-K Thermal Conductivity0.0108 W/m-°C Enthalpy217.11 kJ/kg Specific Heat Cv 1.1209 kJ/kg-K Acoustic Velocity223.6 m/sec Entropy 5.9254 kJ/kg-K Specific Heat Ratio 1.2161Surface TensionInternal Energy174.11 kJ/kg Compressibility Z0.9580Molecular Weight42.09Density 2.54 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-47.00 °C Dynamic Viscosity0.0068 cPs Critical Pressure46.214 bara Pressure 1.045 bara Kinematic Viscosity 2.7689 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.41008 m3/kg Specific Heat Cp 1.3576 kJ/kg-K Thermal Conductivity0.0107 W/m-°C Enthalpy216.05 kJ/kg Specific Heat Cv 1.1168 kJ/kg-K Acoustic Velocity223.3 m/sec Entropy 5.9291 kJ/kg-K Specific Heat Ratio 1.2156Surface TensionInternal Energy173.18 kJ/kg Compressibility Z0.9593Molecular Weight42.09Density 2.44 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-48.00 °C Dynamic Viscosity0.0067 cPs Critical Pressure46.214 bara Pressure0.999 bara Kinematic Viscosity 2.8730 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.42772 m3/kg Specific Heat Cp 1.3521 kJ/kg-K Thermal Conductivity0.0106 W/m-°C Enthalpy214.98 kJ/kg Specific Heat Cv 1.1127 kJ/kg-K Acoustic Velocity223.1 m/sec Entropy 5.9330 kJ/kg-K Specific Heat Ratio 1.2151Surface TensionInternal Energy172.25 kJ/kg Compressibility Z0.9606Molecular Weight42.09Density 2.34 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-49.00 °C Dynamic Viscosity0.0067 cPs Critical Pressure46.214 bara Pressure0.954 bara Kinematic Viscosity 2.9822 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.44629 m3/kg Specific Heat Cp 1.3467 kJ/kg-K Thermal Conductivity0.0105 W/m-°C Enthalpy213.91 kJ/kg Specific Heat Cv 1.1087 kJ/kg-K Acoustic Velocity222.9 m/sec Entropy 5.9369 kJ/kg-K Specific Heat Ratio 1.2147Surface TensionInternal Energy171.32 kJ/kg Compressibility Z0.9618Molecular Weight42.09Density 2.24 kg/m3Refrigerant R1270Quality 1.000Critical Temperature91.77 °C Temperature-50.00 °C Dynamic Viscosity0.0066 cPs Critical Pressure46.214 bara Pressure0.911 bara Kinematic Viscosity 3.0967 cSt Critical Specific Volume0.00454 m3/kg Specific Volume0.46586 m3/kg Specific Heat Cp 1.3414 kJ/kg-K Thermal Conductivity0.0105 W/m-°C Enthalpy212.84 kJ/kg Specific Heat Cv 1.1047 kJ/kg-K Acoustic Velocity222.6 m/sec Entropy 5.9409 kJ/kg-K Specific Heat Ratio 1.2142Surface Tension。
50°异丁烷丙烷丙烯饱和蒸汽压力
50°异丁烷丙烷丙烯饱和蒸汽压力在化学领域中,蒸汽压力是一个十分关键的参考指标。
它描述了在特定温度下,液体表面上蒸发分子的压强。
本文将会深入探讨50°异丁烷丙烷丙烯的饱和蒸汽压力,并从不同角度进行全面评估。
一、50°异丁烷丙烷丙烯的饱和蒸汽压力是什么?饱和蒸汽压力是指在特定温度下,液体表面达到平衡时蒸发分子的压强。
它是描述液体与气体相平衡的重要物理性质。
对于50°异丁烷丙烷丙烯来说,它们各自的饱和蒸汽压力是多少呢?1. 异丁烷的饱和蒸汽压力:根据文献资料,异丁烷在50°C时的饱和蒸汽压力约为2.83 ×10^4Pa(帕斯卡)。
2. 丙烷的饱和蒸汽压力:根据文献资料,丙烷在50°C的饱和蒸汽压力约为9.95 × 10^4Pa。
3. 丙烯的饱和蒸汽压力:根据文献资料,丙烯在50°C的饱和蒸汽压力约为6.58 × 10^4Pa。
通过以上数据可以看出,50°异丁烷、丙烷和丙烯的饱和蒸汽压力存在明显差异。
这种差异可能会对其在不同实际应用领域中的表现产生影响,比如在能源和化工领域的利用。
接下来,我们将详细探讨这些差异。
二、饱和蒸汽压力的影响因素饱和蒸汽压力是由多种因素共同作用决定的,其中包括温度、分子间的相互作用力、分子大小和形状等。
在50°的固定温度条件下,异丁烷、丙烷和丙烯的分子结构有所不同,因此它们的饱和蒸汽压力也有所不同。
1. 分子结构的影响:异丁烷由四个碳原子和十个氢原子组成,其分子结构比较分散松散。
相比之下,丙烷由三个碳原子和八个氢原子组成,分子结构更加紧凑。
而丙烯则由三个碳原子和六个氢原子组成,并且还含有一个双键,使得分子结构更为紧凑和复杂。
这些结构差异导致了它们之间分子间的相互作用力不同,从而影响了饱和蒸汽压力的大小。
2. 分子间力的影响:分子间的吸引力和斥力对于饱和蒸汽压力的大小至关重要。
50°异丁烷丙烷丙烯饱和蒸汽压力
50°异丁烷丙烷丙烯饱和蒸汽压力50°异丁烷丙烷丙烯饱和蒸汽压力序言在日常生活中,我们经常会接触到各种化学物质,它们的性质和应用对我们的生活和工作都有着重要的影响。
其中,对于烷烃和烯烃的饱和蒸汽压力的研究和了解,不仅可以帮助我们更好地理解它们的物理特性,还可以指导各种工业生产和化学实验的进行。
本文将从简到繁,由浅入深地探讨50°异丁烷、丙烷、丙烯的饱和蒸汽压力,以便读者能够更全面、深刻地理解这一主题。
一、50°异丁烷、丙烷、丙烯的概念在讨论50°异丁烷、丙烷、丙烯的饱和蒸汽压力之前,我们首先需要了解这几种化合物的基本概念和性质。
1. 异丁烷异丁烷,化学式为C4H10,是一种烷烃。
它是一种无色、可燃的气体,在常温常压下为液体。
异丁烷主要用作燃料和溶剂,也有一些其他工业用途。
2. 丙烷丙烷,化学式为C3H8,也是一种烷烃。
和异丁烷一样,丙烷也是一种无色、可燃的气体,在常温常压下为液体。
丙烷是常见的燃料,被广泛用于加热、烹饪和燃气发电等方面。
3. 丙烯丙烯,化学式为C3H6,是一种烯烃。
它是无色的气体,在常温常压下为液体。
丙烯在化工生产中有着重要的应用,特别是作为合成橡胶和塑料的原料。
二、50°异丁烷、丙烷、丙烯的饱和蒸汽压力了解了这几种化合物的基本概念和性质后,我们接下来重点讨论它们的饱和蒸汽压力。
饱和蒸汽压力是指在一定温度下,液体和其饱和蒸汽之间的平衡状态时,所对应的蒸汽的压强。
1. 50°异丁烷的饱和蒸汽压力在50°下,异丁烷的饱和蒸汽压力为0.36atm。
这一数值表明了在50°下,异丁烷液体表面上的气态分子对液态分子的压力。
了解异丁烷在不同温度下的饱和蒸汽压力,有利于我们在工业生产和使用过程中更好地控制其物理性质。
2. 50°丙烷的饱和蒸汽压力50°下,丙烷的饱和蒸汽压力为0.8atm。
丙烯温度压力
丙烯温度压力
摘要:
1.丙烯简介
2.丙烯的温度压力特性
3.丙烯在工业中的应用
4.丙烯的安全注意事项
正文:
丙烯是一种无色、易燃、挥发性的气体,化学式为C3H4。
它是石油化工的重要原料,主要用于生产聚合物、塑料、合成橡胶等。
丙烯在工业上具有很高的价值,因此了解其温度压力特性以及安全注意事项至关重要。
丙烯的温度压力特性如下:
- 在标准大气压下,丙烯的凝固点约为-185.8°C,沸点约为-47.4°C;
- 丙烯的临界温度约为-3.1°C,临界压力约为3.9MPa;
- 丙烯的燃烧极限约为2%~12.5%。
丙烯在工业中具有广泛的应用,如生产聚丙烯、丙烯酸酯、环氧丙烷等。
聚丙烯是一种常见的塑料,具有良好的抗拉强度和耐磨性,广泛应用于包装、建筑、汽车等行业。
丙烯酸酯是一种重要的有机化工原料,可用于生产涂料、胶粘剂等。
环氧丙烷则是一种重要的聚合物原料,可用于生产泡沫、胶粘剂、纤维等。
在处理丙烯时,应特别注意安全事项,如:
- 避免与明火、高温物体接触,防止火灾爆炸事故;
- 在使用丙烯的场所,应保持良好的通风,以降低气体浓度,防止窒息;- 应定期检查丙烯的储存、输送和使用设备,确保其安全可靠;
- 操作丙烯时,应穿戴防护设备,如防毒面具、防护手套等。
总之,丙烯作为一种重要的化工原料,在工业生产中具有广泛的应用。
丙烯的理化性能和危险特性
避免与氧化剂、酸类接触。
生产、储存区域应设置安全警示标志。搬运时轻装轻卸,防止钢瓶及附件破损。在传送过程中,钢瓶和容器必须接地和跨接,防止产生静电。配备相应品种和数量的消防器材及泄漏应急处理设备。
应
急
处
置ቤተ መጻሕፍቲ ባይዱ
原
则
【急救措施】
吸入:迅速脱离现场至空气新鲜处。保持呼吸道通畅。如呼吸困难,给氧。如呼吸停止,立即进行人工呼吸。就医。
【灭火方法】
切断气源。若不能切断气源,则不允许熄灭泄漏处的火焰。喷水冷却容器,尽可能将容器从火场移至空旷处。
灭火剂:雾状水、泡沫、二氧化碳、干粉。
【泄漏应急处置】
消除所有点火源。根据气体的影响区域划定警戒区,无关人员从侧风、上风向撤离至安全区。建议应急处理人员戴正压自给式空气呼吸器,穿防静电服。作业时使用的所有设备应接地。处理液体时,应防止冻伤。禁止接触或跨越泄漏物。尽可能切断泄漏源。喷雾状水抑制蒸气或改变蒸气云流向,避免水流接触泄漏物。禁止用水直接冲击泄漏物或泄漏源。防止气体通过下水道、通风系统和密闭性空间扩散。隔离泄漏区直至气体散尽。
(3)储存室内必须通风良好,保证空气中丙烯最高含量不超过1%(体积比)。储存室建筑物顶部或外墙的上部设气窗或排气孔。排气孔应朝向安全地带,室内换气次数每小时不得小于3次,事故通风每小时换气次数不得小于7次。
(4)注意防雷、防静电,厂(车间)内的储罐应按《建筑物防雷设计规范》(GB 50057)的规定设置防雷防静电设施。
【储存安全】
(1)储存于阴凉、通风的易燃气体专用库房。远离火种、热源。库房温度不宜超过30℃。