Metadata-Version: 2.1
Name: XSteamPython
Version: 1.0.2
Summary: Port of XSteam tables by Magnus Holmgren to python
Home-page: https://github.com/raldridge11/XSteamPython
Author: Magnus Holmgren; ported by R. Aldridge
License: UNKNOWN
Description: [![pipeline status](https://gitlab.com/raldridge11/XSteamPython/badges/master/pipeline.svg)](https://gitlab.com/raldridge11/XSteamPython/-/pipelines)
        
        [![coverage report](https://gitlab.com/raldridge11/XSteamPython/badges/master/coverage.svg)](https://gitlab.com/raldridge11/XSteamPython/-/commits/master)
        
        # XSteamPython
        Port of [XSteam](https://sourceforge.net/projects/xsteam/) tables into Python originally released by Magnus Holmgren.
        
        XSteam provides steam and water properties according to [IAPWS release IF-97](http://www.iapws.org/relguide/IF97-Rev.pdf). The range of applicability is from 0-1000 bar and 0-2000 °C.
        
        Some transport properties (thermal conductivity and viscosity) are also available and based upon [IAPWS 1998](http://www.iapws.org/relguide/ThCond.pdf).
        
        ## Installation
        Two options are available. The first is to install from PyPI using pip
        ```sh
        pip install XSteamPython
        ```
        Or by cloning and running
        ```sh
        python setup.py install
        ```
        ## Requirements
        XSteamPython only requires that `SciPy` be installed.
        
        For development, all dependencies are contained in `requirements.txt`.
        
        ## Usage
        ```python
        >>> import XSteamPython as stm
        >>> enthalpy=stm.h_pT(101.0, 300.0)
        >>> print(enthalpy)
        3074.515918340631
        >>> stm.switchUnits()
        Using English units
        >>> enthalpy=stm.h_pT(14.7, 70.0)
        >>> print(enthalpy)
        38.11798524502647
        >>> dir(stm)
        ['Boundaries', 'Constants', 'Convert', 'P_hs', 'Pr_pT', 'Pr_ph', 'Psat_T', 'Psat_s', 'Region1', 'Region2', 'Region3', 'Region4', 'Region5', 'Regions', 'T_hs', 'T_ph', 'T_ps', 'Tsat_p', 'Tsat_s', 'Viscosity', 'XSteamPython', '__builtins__', '__cached__', '__doc__', '__file__', '__loader__', '__name__', '__package__', '__path__', '__spec__', 'cpL_T', 'cpL_p', 'cpV_T', 'cpV_p', 'cp_pT', 'cp_ph', 'cp_ps', 'cvL_T', 'cvL_p', 'cvV_T', 'cvV_p', 'cv_pT', 'cv_ph', 'cv_ps', 'englishUnits', 'hL_T', 'hL_p', 'hV_T', 'hV_p', 'h_Tx', 'h_pT', 'h_ps', 'h_px', 'kappa_pT', 'kappa_ph', 'math', 'my_pT', 'my_ph', 'my_ps', 'rhoL_T', 'rhoL_p', 'rhoV_T', 'rhoV_p', 'rho_pT', 'rho_ph', 'rho_ps', 'sL_T', 'sL_p', 'sV_T', 'sV_p', 's_pT', 's_ph', 'st_p', 'st_t', 'surfaceTension_T', 'switchUnits', 'tcL_T', 'tcL_p', 'tcV_T', 'tcV_p', 'tc_hs', 'tc_pT', 'tc_pTrho', 'tc_ph', 'uL_T', 'uL_p', 'uV_T', 'uV_p', 'u_pT', 'u_ph', 'u_ps', 'vL_T', 'vL_p', 'vV_T', 'vV_p', 'v_pT', 'v_ph', 'v_ps', 'vx_ph', 'vx_ps', 'wL_T', 'wL_p', 'wV_T', 'wV_p', 'w_pT', 'w_ph', 'w_ps', 'x_ph', 'x_ps']
        ```
        
        Note that calling `stm.switchUnits()` changes from SI to English units and vice versa. Default is SI units.
        
        ## Syntax
        
        The syntax for function calling is first the wanted property, followed by an underscore followed by input property(ies). Example:
        ```
        h_pT(101.0, 300.0)
        ```
        The example will return enthalpy given a pressure (101 kPa) and temperature (300 °C).
        
        |Property|Key|
        |---|---|
        |T| Temperature (°C or °F)|
        |p| Pressure (kPa or psi)|
        |h| Enthalpy (kJ/kg or btu/lb)|
        |v| Specific volume (m\*\*3/kg or ft\*\*3/lb)|
        |rho| Density (kg/m\*\*3 or lb/ft\*\*3)|
        |s| Specific entropy (kJ/(kg°C) or btu/(lb°F))|
        |u| Specific internal energy (kJ/kg or btu/lb)|
        |Cp| Specific heat capacity constant pressure (kJ/(kg°C) or btu/(lb°F))|
        |Cv| Specific heat capacity constant volume (kJ/(kg°C) or btu/(lb°F))|
        |w| Speed of sound (m/s or ft/s)|
        |my| Viscosity (N\*s/m\*\*2 or lbm/ft/hr)|
        |Pr|Prandtl number|
        |kappa|Heat capacity ratio|
        |tc| Thermal Conductivity (W/(m\*°C) or btu/(h\*ft\*°F))|
        |st| Surface Tension (N/m or lb/ft)|
        |x| Vapor fraction (dmnls)|
        |vx| Vapor Volume Fraction (dmnls)|
        
        Some functions can have a little extra after the wanted property
        
        |Tag|Key|
        |---|---|
        |L|Liquid phase|
        |V|Vapor phase|
        |sat|At saturation|
        
Platform: UNKNOWN
Classifier: License :: OSI Approved :: GNU General Public License v2 (GPLv2)
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Requires-Python: >=3.7.*
Description-Content-Type: text/markdown
