//**********************************************************************
PHX_EVALUATE_FIELDS(Equations,workset)
{ 
  for (int i=0; i < residual_temp.size(); ++i)
    residual_temp[i] = 0.0;

  for (int i=0; i < residual_vel.size(); ++i)
    residual_vel[i] = 0.0;

  std::vector<Element_Linear2D>::iterator element = workset.begin;
  
  for (std::size_t cell = 0; cell < workset.num_cells; ++cell,++element) {
    
    const Kokkos::View<double**,PHX::Device> phi = element->basisFunctions();

    const Kokkos::View<double***,PHX::Device> grad_phi = element->basisFunctionGradientsRealSpace();

    const Kokkos::View<double*,PHX::Device> det_jac =  element->detJacobian();

    const Kokkos::View<double*,PHX::Device> weights = element->quadratureWeights();

    for (int node = 0; node < element->numNodes(); ++node) {
      
      for (int qp = 0; qp < num_qp; ++qp) {

	residual_temp(cell,node) += det_jac(qp) * weights(qp) *
	  ( grad_phi(qp,node,0) * grad_temp(cell,qp,0) 
	    + grad_phi(qp,node,1) * grad_temp(cell,qp,1)
	    + 1000.0 * phi(qp,node) * temp(cell,qp) * vel(cell,qp) );
	
	residual_vel(cell,node) += det_jac(qp) * weights(qp) *
	  ( grad_phi(qp,node,0) * grad_vel(cell,qp,0) 
	    + grad_phi(qp,node,1) * grad_vel(cell,qp,1)
	    + 1000.0 * phi(qp,node) * temp(cell,qp) * vel(cell,qp) );
	
      }
      
    }

  }
   
//   std::cout << "Temp Residual" << std::endl;
//   residual_temp.print(std::cout,true);
//   std::cout << "Vx Residual" << std::endl;
//   residual_vel.print(std::cout,true);
 
}
Exemplo n.º 2
0
void CFDDataPack::reinitViscous()
{
	grad_rho = duh[0];
	grad_mom = RealTensor(duh[1], duh[2], duh[3]);

	for (int a = 0; a < 3; ++a)
		for (int b = 0; b < 3; ++b)
			grad_vel(a, b) = (grad_mom(a, b) - vel(a)*grad_rho(b))/r;

	tau = grad_vel + grad_vel.transpose();
	vel_div =  grad_vel.tr();
	tau(0, 0) -= 2./3*vel_div; tau(1, 1) -= 2./3*vel_div; tau(2, 2) -= 2./3*vel_div;

	if(_cfd_problem._vis_type == 0) vis = 0.0;
	else if(_cfd_problem._vis_type == 1) vis = 1.0;
	else if(_cfd_problem._vis_type == 2)
	{
		Real t_ref(288), t_s(110.4);
		vis = pow(t/t_ref, 1.5)*(t_ref+t_s)/(t+t_s);
	}
	else mooseError("不可知的粘性模型");
	tau *= vis/_reynolds;

	grad_enthalpy = (duh[4]-uh[4]/uh[0] * duh[0])/r - grad_vel.transpose() * vel;
	grad_enthalpy *= (vis/_reynolds)*(_gamma/_prandtl);

	invis_flux[0] = r*vel;

	invis_flux[1] = mom(0)*vel;
	invis_flux[1](0) += p;

	invis_flux[2] = mom(1)*vel;
	invis_flux[2](1) += p;

	invis_flux[3] = mom(2)*vel;
	invis_flux[3](2) += p;

	invis_flux[4] = r*h*vel;

	vis_flux[0].zero();
	vis_flux[1] = tau.row(0);
	vis_flux[2] = tau.row(1);
	vis_flux[3] = tau.row(2);
	vis_flux[4] = tau * vel + grad_enthalpy;
}