Python implementation of standard from IAPWS (http://www.iapws.org/release.html). The module implements the full set of standards, including:
IAPWS-IF97 IAPWS-95 IAPWS-06 for Ice IAPWS-08 for seawater IAPWS-17 for Heavy water ...
Support for both python branch:
* python 2.7 * python 3.4 or later
Numpy-scipy: library with mathematic and scientific tools
In debian you can find in official repositories in jessie, testing and sid. In ubuntu it's in official repositories from ubuntu saucy (13.10). In other system you can install using pip:
pip install iapws
or directly cloning the github repository:
git clone https://github.com/jjgomera/iapws.git
and adding the folder to a python path. This is the recommended option to have the latest version.
To see the full documentation of package, see readthedocs
For a rapid usage demostration, see this examples
IAPWS-IF97 (see full documentation)
from iapws import IAPWS97
sat_steam=IAPWS97(P=1,x=1) #saturated steam with known P
sat_liquid=IAPWS97(T=370, x=0) #saturated liquid with known T
steam=IAPWS97(P=2.5, T=500) #steam with known P and T
print(sat_steam.h, sat_liquid.h, steam.h) #calculated enthalpiesIAPWS-95 (see full documentation)
from iapws import IAPWS95
sat_steam=IAPWS95(P=1,x=1) #saturated steam with known P
sat_liquid=IAPWS95(T=370, x=0) #saturated liquid with known T
steam=IAPWS95(P=2.5, T=500) #steam with known P and T
print(sat_steam.h, sat_liquid.h, steam.h) #calculated enthalpiesIAPWS-17 for Heavy water (see full documentation)
from iapws import D2O
sat_liquid=D2O(T=370, x=0) #saturated liquid with known T
print(sat_liquid.h) #calculated enthalpyIAPWS-06 for Ice Ih (see full documentation)
from iapws import _Ice
ice=_Ice(273.15, 0.101325) #Ice at normal melting point
print(ice["rho"]) #Calculated densityIAPWS-08 for seawater (see full documentation)
from iapws import SeaWater
state = SeaWater(T=300, P=0.101325, S=0.001) #Seawater with 0.1% Salinity
print(state.cp) # Get cp- FIXME: Electrolytic conductiviy
- TODO: Improve convergence in two phase region for IAPWS95 and D2O class
- TODO: Implement SBTL method for fast calculation
- TODO: Implement TTSE method for fast calculation
Ammonia-water mixture:
- FIXME: Ammonia-water mixture residual helmholtz. The values are good, bad difer by 1%
- TODO: Add equilibrium routine
I've tried to test all code and use all values for computer verification the standards give, but anyway the code can have hidden problem. For any suggestions, comments, bugs ... you can usage the github issue section, or contact directly with me at email.