L-phenylalanine Density | enthalpy entropy | saturation temperature | pressure | specific heat capacity | viscosity | thermal conductivity and so on - eThermo Thermodynamics & Transport Properties Calculation

L-phenylalanine Thermodynamic & Transport Properties

CAS Number

Name

Category

Pure Or Mix Name

English Full Name

Chemical Formula

Molecular Weight

Synonym 3-Phenylalanine,alpha-Amino-beta-Phenylpropionic_Acid,(s)-(-)-Phenylalanine,L-PhenylAlanine,(s)-alpha-Aminobenzenepropanoic_Acid,(s)-Phenylalanine,1-beta-Phenylalanine,Antibiotic_Fn_1636,beta-Phenylalanine,Phenyl-alpha-Alanine,Pal,(s)-2-Amino-3-Phenylpropionic_Acid,L-Phenylalanine,alpha-Amonohydrocinnamic_Acid;Benzenepropanethioic acid,S-phenyl ester; Thiohydrozimtsaeurephenylester; L-Phenylalanine; 3-Phenylpropionyl-phenyl-thioether; phenyl 4-phenylthiobutanoate; S-Phenyl-3-phenylpropanthioat; 3-Phenylthiopropionic acid,S-phenyl ester;

Molecular Weight

Normal Boiling Point

Critical Temperature

Acentric Factor

Dipole Moment

Heat of Formation J/mol

Heat of Combustion J/mol

Composition

L-phenylalanine :Introduction

Single Value

Calculation Model ：

Based on Mars Model

Temperature =

Pressure =

Specific Enthalpy =

Specific Entropy =

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L-phenylalanine :Thermodynamic & Transport Properties Calculated Result

Physical State:

Molecular Weight=

Temperature=

Pressure=

Density=

specific volume=

Specific Enthalpy=

Specific Entropy =

Composition=

Saturated Vapor Pressure, boiling point (dew point), latent heat of vaporizationare are saturated properties, just enter One parameter to calculate them!

Saturated Vapor Pressure=

Boiling Point=

Latent Heat of Vaporization=

Specific Heat(Cp)=

Specific Heat(Cv)=

Cp/Cv=

Vapor Quality=

Compression Factor=

Thermal Conductivity=

Thermal Diffusivity=

Kinematic Viscosity=

Dynamic Viscosity=

Surface Tension=

Prandtl Number=

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