# Contents of /temp/modellib/py_src/temperature.py

Revision 1387 - (show annotations)
Fri Jan 11 07:45:26 2008 UTC (13 years, 8 months ago) by trankine
File MIME type: text/x-python
File size: 3426 byte(s)
Restore the trunk that existed before the windows changes were committed to the (now moved to branches) old trunk.

 1 # 2 # $Id$ 3 # 4 ####################################################### 5 # 6 # Copyright 2003-2007 by ACceSS MNRF 7 # Copyright 2007 by University of Queensland 8 # 9 10 # Primary Business: Queensland, Australia 11 # Licensed under the Open Software License version 3.0 12 13 # 14 ####################################################### 15 # 16 17 __copyright__=""" Copyright (c) 2006 by ACcESS MNRF 18 19 Primary Business: Queensland, Australia""" 20 __license__="""Licensed under the Open Software License version 3.0 21 22 23 from esys.escript import * 24 from esys.escript.modelframe import Model,IterationDivergenceError 25 from esys.escript.linearPDEs import LinearPDE 26 import numarray 27 28 29 class TemperatureAdvection(Model): 30 """ 31 32 The conservation of internal heat energy is given by 33 34 M{S{rho} c_p ( dT/dt+v[j]*grad(T)[j])-grad(\kappa grad(T)_{,i}=Q} 35 36 M{n_i\kappa T_{,i}=0} 37 38 it is assummed that M{\rho c_p} is constant in time. 39 40 solved by Taylor Galerkin method 41 42 """ 43 def __init__(self,**kwargs): 44 super(TemperatureAdvection, self).__init__(**kwargs) 45 self.declareParameter(domain=None, \ 46 temperature=1., \ 47 velocity=numarray.zeros([3]), 48 density=1., \ 49 heat_capacity=1., \ 50 thermal_permabilty=1., \ 51 # reference_temperature=0., \ 52 # radiation_coefficient=0., \ 53 thermal_source=0., \ 54 fixed_temperature=0., 55 location_fixed_temperature=Data(), 56 safety_factor=0.1) 57 58 def doInitialization(self): 59 self.__pde=LinearPDE(self.domain) 60 self.__pde.setSymmetryOn() 61 self.__pde.setReducedOrderOn() 62 self.__pde.setSolverMethod(self.__pde.LUMPING) 63 self.__pde.setValue(D=self.heat_capacity*self.density) 64 65 def getSafeTimeStepSize(self,dt): 66 """ 67 returns new step size 68 """ 69 h=self.domain.getSize() 70 return self.safety_factor*inf(h**2/(h*abs(self.heat_capacity*self.density)*length(self.velocity)+self.thermal_permabilty)) 71 72 def G(self,T,alpha): 73 """ 74 tangential operator for taylor galerikin 75 """ 76 g=grad(T) 77 self.__pde.setValue(X=-self.thermal_permabilty*g, \ 78 Y=self.thermal_source-self.__rhocp*inner(self.velocity,g), \ 79 r=(self.__fixed_T-self.temperature)*alpha,\ 80 q=self.location_fixed_temperature) 81 return self.__pde.getSolution() 82 83 84 def doStepPostprocessing(self,dt): 85 """ 86 perform taylor galerkin step 87 """ 88 T=self.temperature 89 self.__rhocp=self.heat_capacity*self.density 90 self.__fixed_T=self.fixed_temperature 91 self.temperature=dt*self.G(dt/2*self.G(T,1./dt)+T,1./dt)+T 92 self.trace("Temperature range is %e %e"%(inf(self.temperature),sup(self.temperature)))

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