Metadata-Version: 2.1
Name: pyXSteam
Version: 0.4.4
Summary: pyXSteam is a port of the Matlab/Excel Package XSteam by Magnus Holmgren, www.x-eng.com to Python 3
Home-page: https://github.com/drunsinn/pyXSteam
Author: drunsinn
Author-email: dr.unsinn@googlemail.com
License: UNKNOWN
Keywords: steam water ice XSteam
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: GNU General Public License v2 (GPLv2)
Classifier: Operating System :: OS Independent
Classifier: Topic :: Scientific/Engineering :: Physics
Classifier: Development Status :: 4 - Beta
Requires-Python: >=3.6
Description-Content-Type: text/markdown

# XSteam

Original Released by Magnus Holmgren for Matlab and Excel:
<http://xsteam.sourceforge.net> and/or <http://www.x-eng.com>

XSteam provides (mostly) accurate steam and water properties from 0 -
1000 bar and from 0 - 2000 °C according to the [IAPWS release IF-97](http://www.iapws.org/relguide/IF97-Rev.pdf). For
accuracy of the functions in different regions see IF-97 Page 4

Also includes thermal conductivity and viscosity, which are not part of
the IF97 release.
* Thermal Conductivity: (IAPWS 1998)
<http://www.iapws.org/relguide/ThCond.pdf>
* Viscosity: (2003)

## Requirements

There are no requirements for installing pyXSteam with Python 3.6 and up.
Tests require numpy, demos require numpy and matplotlib

## Install

run `python3 setup.py install`

To run unittests: `python setup.py test` but make sure numpy is installed

To test if setup was successful, run `python3 bin/pyXSteamDemo.py`. This will require numpy and matplotlib to be installed.
There are still (as of v0.4.2) some Errors in the speed of sound functions (w_ps), so be warned that they exceed the Error Range. Apart form accuracy errors, there should be no warnings.

## Nomenclature

All Functions follow the same naming schema: First the wanted property,
then a underscore `_`, then the wanted input properties Example:
`t_ph` is temperature as a function of pressure and enthalpy. For a list
of valid functions se bellow:

| Property | Description                                                  |
|----------|--------------------------------------------------------------|
| t        | Temperature (°C or °F)                                       |
| p        | Pressure (bar or psi)                                        |
| h        | Enthalpy (kJ/kg or btu/lb)                                   |
| v        | Specific volume (m3/kg or ft\^3/lb)                          |
| rho      | Density (kg/m3 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 isobaric heat capacity (kJ/(kg °C) or btu/(lb °F))  |
| Cv       | Specific isochoric heat capacity (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)                            |
| tc       | Thermal Conductivity (W/(m °C) or btu/(h ft °F))             |
| st       | Surface Tension (N/m or lb/ft)                               |
| x        | Vapor fraction                                               |
| vx       | Vapor Volume Fraction                                        |

## Usage

Simple Example:

    from pyXSteam.XSteam import XSteam
    steamTable = XSteam(XSteam.UNIT_SYSTEM_MKS)
    print steamTable.hL_p(220.0)

By using the unitSystem Parameter, you can tell XSteam witch Unit System you are using.

    steamTable = XSteam(XSteam.UNIT_SYSTEM_MKS) # m/kg/sec/°C/bar/W
    steamTable = XSteam(XSteam.UNIT_SYSTEM_FLS) # ft/lb/sec/°F/psi/btu
    steamTable = XSteam(XSteam.UNIT_SYSTEM_BARE) # m/kg/sec/K/MPa/W

To enable logging, add the following lines to your code:

    import logging logger = logging.getLogger(\'pyXSteam\')
    logger.setLevel(logging.DEBUG) sh = logging.StreamHandler()
    sh.setFormatter(logging.Formatter(\'%(name)s - %(levelname)s - %(message)s\'))
    logger.addHandler(sh)

## Available Functions

### Temperature
| Function | Description                                        |
|----------|----------------------------------------------------|
| tsat_p   | Saturation temperature                             |
| t_ph     | Temperature as a function of pressure and enthalpy |
| t_ps     | Temperature as a function of pressure and entropy  |
| t_hs     | Temperature as a function of enthalpy and entropy  |

### Pressure
| Function | Description                                                                                                    |
|----------|----------------------------------------------------------------------------------------------------------------|
| psat_t   | Saturation pressure                                                                                            |
| p_hs     | Pressure as a function of h and s.                                                                             |
| p_hrho   | Pressure as a function of h and rho. Very inaccurate for solid water region since it's almost incompressible! |

### Enthalpy
| Function | Description                                                                                                         |
|----------|---------------------------------------------------------------------------------------------------------------------|
| hV_p     | Saturated vapor enthalpy                                                                                            |
| hL_p     | Saturated liquid enthalpy                                                                                           |
| hV_t     | Saturated vapor enthalpy                                                                                            |
| hL_t     | Saturated liquid enthalpy                                                                                           |
| h_pt     | Enthalpy as a function of pressure and temperature                                                                  |
| h_ps     | Enthalpy as a function of pressure and entropy                                                                      |
| h_px     | Enthalpy as a function of pressure and vapor fraction                                                               |
| h_prho   | Enthalpy as a function of pressure and density. Observe for low temperatures (liquid) this equation has 2 solutions |
| h_tx     | Enthalpy as a function of temperature and vapor fraction                                                            |

### Specific volume
| Function | Description                                               |
|----------|-----------------------------------------------------------|
| vV_p     | Saturated vapor volume                                    |
| vL_p     | Saturated liquid volume                                   |
| vV_t     | Saturated vapor volume                                    |
| vL_t     | Saturated liquid volume                                   |
| v_pt     | Specific volume as a function of pressure and temperature |
| v_ph     | Specific volume as a function of pressure and enthalpy    |
| v_ps     | Specific volume as a function of pressure and entropy     |

### Density
| Function | Description                                       |
|----------|---------------------------------------------------|
| rhoV_p   | Saturated vapor density                           |
| rhoL_p   | Saturated liquid density                          |
| rhoV_t   | Saturated vapor density                           |
| rhoL_t   | Saturated liquid density                          |
| rho_pt   | Density as a function of pressure and temperature |
| rho_ph   | Density as a function of pressure and enthalpy    |
| rho_ps   | Density as a function of pressure and entropy     |

### Specific entropy
| Function | Description                                                                                              |
|----------|----------------------------------------------------------------------------------------------------------|
| sV_p     | Saturated vapor entropy                                                                                  |
| sL_p     | Saturated liquid entropy                                                                                 |
| sV_t     | Saturated vapor entropy                                                                                  |
| sL_t     | Saturated liquid entropy                                                                                 |
| s_pt     | Specific entropy as a function of pressure and temperature (Returns saturated vapor enthalpy if mixture) |
| s_ph     | Specific entropy as a function of pressure and enthalpy                                                  |

### Specific internal energy
| Function | Description                                                        |
|----------|--------------------------------------------------------------------|
| uV_p     | Saturated vapor internal energy                                    |
| uL_p     | Saturated liquid internal energy                                   |
| uV_t     | Saturated vapor internal energy                                    |
| uL_t     | Saturated liquid internal energy                                   |
| u_pt     | Specific internal energy as a function of pressure and temperature |
| u_ph     | Specific internal energy as a function of pressure and enthalpy    |
| u_ps     | Specific internal energy as a function of pressure and entropy     |

### Specific isobaric heat capacity
| Function | Description                                                               |
|----------|---------------------------------------------------------------------------|
| CpV_p    | Saturated vapor heat capacity                                             |
| CpL_p    | Saturated liquid heat capacity                                            |
| CpV_t    | Saturated vapor heat capacity                                             |
| CpL_t    | Saturated liquid heat capacity                                            |
| Cp_pt    | Specific isobaric heat capacity as a function of pressure and temperature |
| Cp_ph    | Specific isobaric heat capacity as a function of pressure and enthalpy    |
| Cp_ps    | Specific isobaric heat capacity as a function of pressure and entropy     |

### Specific isochoric heat capacity
| Function | Description                                                                |
|----------|----------------------------------------------------------------------------|
| CvV_p    | Saturated vapor isochoric heat capacity                                    |
| CvL_p    | Saturated liquid isochoric heat capacity                                   |
| CvV_t    | Saturated vapor isochoric heat capacity                                    |
| CvL_t    | Saturated liquid isochoric heat capacity                                   |
| Cv_pt    | Specific isochoric heat capacity as a function of pressure and temperature |
| Cv_ph    | Specific isochoric heat capacity as a function of pressure and enthalpy    |
| Cv_ps    | Specific isochoric heat capacity as a function of pressure and entropy     |

### Speed of sound
| Function | Description                                              |
|----------|----------------------------------------------------------|
| wV_p     | Saturated vapor speed of sound                           |
| wL_p     | Saturated liquid speed of sound                          |
| wV_t     | Saturated vapor speed of sound                           |
| wL_t     | Saturated liquid speed of sound                          |
| w_pt     | Speed of sound as a function of pressure and temperature |
| w_ph     | Speed of sound as a function of pressure and enthalpy    |
| w_ps     | Speed of sound as a function of pressure and entropy     |

### Viscosity
| Function | Description                                         |
|----------|-----------------------------------------------------|
| my_pt    | Viscosity as a function of pressure and temperature |
| my_ph    | Viscosity as a function of pressure and enthalpy    |
| my_ps    | Viscosity as a function of pressure and entropy     |

### Thermal Conductivity
| Function | Description                                                    |
|----------|----------------------------------------------------------------|
| tcL_p    | Saturated vapor thermal conductivity                           |
| tcV_p    | Saturated liquid thermal conductivity                          |
| tcL_t    | Saturated vapor thermal conductivity                           |
| tcV_t    | Saturated liquid thermal conductivity                          |
| tc_pt    | Thermal conductivity as a function of pressure and temperature |
| tc_ph    | Thermal conductivity as a function of pressure and enthalpy    |
| tc_hs    | Thermal conductivity as a function of enthalpy and entropy     |

### Surface tension
| Function | Description                                                  |
|----------|--------------------------------------------------------------|
| st_t     | Surface tension for two phase water/steam as a function of T |
| st_p     | Surface tension for two phase water/steam as a function of p |

### vapor fraction
| Function | Description                                           |
|----------|-------------------------------------------------------|
| x_ph     | vapor fraction as a function of pressure and enthalpy |
| x_ps     | vapor fraction as a function of pressure and entropy  |

## vapor volume fraction
| Function | Description                                                  |
|----------|--------------------------------------------------------------|
| vx_ph    | vapor volume fraction as a function of pressure and enthalpy |
| vx_ps    | vapor volume fraction as a function of pressure and entropy  |


