<div dir="ltr"><span style="font-family:Arial,Helvetica,sans-serif;font-size:13px">Hi everyone,</span><div style="margin:0px;padding:0px;border:0px;font-family:Arial,Helvetica,sans-serif;font-size:13px">I am trying to solve a 3D heat conduction problem . when I open my *.pro file I get an error :"Redefinition of JacobianMethod" .</div><div style="margin:0px;padding:0px;border:0px;font-family:Arial,Helvetica,sans-serif;font-size:13px">Here is my <a href="http://heat.pro/" target="_blank" rel="nofollow" style="margin:0px;padding:0px;border:0px;text-decoration:none;color:rgb(102,17,204)">heat.pro</a> file which is included in another 3D.pro file :</div><div style="margin:0px;padding:0px;border:0px;font-family:Arial,Helvetica,sans-serif;font-size:13px"><br></div><div style="margin:0px;padding:0px;border:0px;font-family:Arial,Helvetica,sans-serif;font-size:13px"><br></div><div style="margin:0px;padding:0px;border:0px;font-family:Arial,Helvetica,sans-serif;font-size:13px"><div style="margin:0px;padding:0px;border:0px">DefineConstant[ Flag_AnalysisType = 0 ];</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">Jacobian {</div><div style="margin:0px;padding:0px;border:0px"> { Name JVol ;</div><div style="margin:0px;padding:0px;border:0px"> Case {</div><div style="margin:0px;padding:0px;border:0px"> { Region All ; Jacobian Vol ; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> { Name JSur ;</div><div style="margin:0px;padding:0px;border:0px"> Case {</div><div style="margin:0px;padding:0px;border:0px"> { Region All ; Jacobian Sur ; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">Integration {</div><div style="margin:0px;padding:0px;border:0px"> { Name I1 ;</div><div style="margin:0px;padding:0px;border:0px"> Case {</div><div style="margin:0px;padding:0px;border:0px"> { Type Gauss ;</div><div style="margin:0px;padding:0px;border:0px"> Case {</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Point ; NumberOfPoints 1 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Line ; NumberOfPoints 3 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Triangle ; NumberOfPoints 4 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Quadrangle ; NumberOfPoints 4 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Tetrahedron ; NumberOfPoints 4 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Hexahedron ; NumberOfPoints 6 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> { GeoElement Prism ; NumberOfPoints 6 ; }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span>}</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">FunctionSpace {</div><div style="margin:0px;padding:0px;border:0px"> { Name Hgrad_T; Type Form0;</div><div style="margin:0px;padding:0px;border:0px"> BasisFunction {</div><div style="margin:0px;padding:0px;border:0px"> { Name sn; NameOfCoef Tn; Function BF_Node; Support Tot_The;</div><div style="margin:0px;padding:0px;border:0px"> Entity NodesOf[All]; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> Constraint {</div><div style="margin:0px;padding:0px;border:0px"> { NameOfCoef Tn; EntityType NodesOf ; NameOfConstraint Temperature; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">Function{</div><div style="margin:0px;padding:0px;border:0px"> DefineFunction[Flux,qVol,h,hr,TConv];</div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px">Group{</div><div style="margin:0px;padding:0px;border:0px"> DefineGroup[SurConv_The,SurRad_The];</div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">Formulation {</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> { Name The_T ; Type FemEquation;</div><div style="margin:0px;padding:0px;border:0px"> Quantity {</div><div style="margin:0px;padding:0px;border:0px"> { Name T; Type Local; NameOfSpace Hgrad_T; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> Equation {</div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ k[] * Dof{d T} , {d T} ];</div><div style="margin:0px;padding:0px;border:0px"> In Vol_The; Integration I1; Jacobian JVol; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { DtDof [ rhoc[] * Dof{T} , {T} ];</div><div style="margin:0px;padding:0px;border:0px"> In Vol_The; Integration I1; Jacobian JVol; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ -qVol[] , {T} ];</div><div style="margin:0px;padding:0px;border:0px"> In Vol_The; Integration I1; Jacobian JVol; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ -Flux[] , {T} ]; // - sign for incoming flux</div><div style="margin:0px;padding:0px;border:0px"> In Sur_The; Integration I1; Jacobian JSur; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ h[] * Dof{T} , {T} ] ;</div><div style="margin:0px;padding:0px;border:0px"> In SurConv_The ; Integration I1; Jacobian JSur; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ -h[] * TConv[] , {T} ] ;</div><div style="margin:0px;padding:0px;border:0px"> In SurConv_The ; Integration I1; Jacobian JSur; }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"> Galerkin { [ hr[{T}] * (({T}+273.)^4-(TConv[]+273.)^4) , {T} ] ;</div><div style="margin:0px;padding:0px;border:0px"> In SurRad_The ; Integration I1; Jacobian JSur; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">Resolution {</div><div style="margin:0px;padding:0px;border:0px"> { Name analysis;</div><div style="margin:0px;padding:0px;border:0px"> System {</div><div style="margin:0px;padding:0px;border:0px"> { Name T; NameOfFormulation The_T; }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> Operation {</div><div style="margin:0px;padding:0px;border:0px"> If(Flag_AnalysisType == 0) // steady state</div><div style="margin:0px;padding:0px;border:0px"> Generate[T] ; Solve T ; SaveSolution T;</div><div style="margin:0px;padding:0px;border:0px"> EndIf</div><div style="margin:0px;padding:0px;border:0px"> If(Flag_AnalysisType == 1) // transient general</div><div style="margin:0px;padding:0px;border:0px"> InitSolution[T] ; SaveSolution[T] ;</div><div style="margin:0px;padding:0px;border:0px"> TimeLoopTheta [t0, t1, dt, 1.0] {</div><div style="margin:0px;padding:0px;border:0px"> Generate[T] ; Solve[T];</div><div style="margin:0px;padding:0px;border:0px"> Test[SaveFct[]] {</div><div style="margin:0px;padding:0px;border:0px"> SaveSolution[T];</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> EndIf</div><div style="margin:0px;padding:0px;border:0px"> If(Flag_AnalysisType == 2) // transient linear fast</div><div style="margin:0px;padding:0px;border:0px"> InitSolution[T] ; SaveSolution[T] ;</div><div style="margin:0px;padding:0px;border:0px"> GenerateSeparate[T] ;</div><div style="margin:0px;padding:0px;border:0px"> TimeLoopTheta [t0, t1, dt, 1.0] {</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> Update[T, TimeFct[]] ;</div><div style="margin:0px;padding:0px;border:0px"> SolveAgain[T] ;</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span> Test[SaveFct[]] {</div><div style="margin:0px;padding:0px;border:0px"> SaveSolution[T];</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"><span style="margin:0px;padding:0px;border:0px;white-space:pre"> </span>}</div><div style="margin:0px;padding:0px;border:0px"> EndIf</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px">}</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">PostProcessing {</div><div style="margin:0px;padding:0px;border:0px"> { Name The; NameOfFormulation The_T;</div><div style="margin:0px;padding:0px;border:0px"> Quantity {</div><div style="margin:0px;padding:0px;border:0px"> { Name T; Value{ Local{ [ {T} ] ; In Vol_The; Jacobian JVol; } } }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"> }</div><div style="margin:0px;padding:0px;border:0px"><br></div><div style="margin:0px;padding:0px;border:0px">}</div><div><br></div><div><br></div><div>I have also attached all of my files.</div></div><div><br></div>-- <br><div class="gmail_signature"><div dir="ltr"><span style="color:rgb(0,0,0);font-size:small;font-family:HelveticaNeue-Light,'Helvetica Neue Light','Helvetica Neue',Helvetica,Arial,'Lucida Grande',sans-serif">Ali Masoudi, PhD Candidate<br clear="none"></span><span style="color:rgb(0,0,0);font-family:garamond,'new york',times,serif;font-size:16px"><span style="font-size:small;font-family:HelveticaNeue-Light,'Helvetica Neue Light','Helvetica Neue',Helvetica,Arial,'Lucida Grande',sans-serif"><span style="color:rgb(205,35,44)">University of Houston</span><br clear="none">Department of Mechanical Engineering</span></span><br style="font-size:12.8px"><div style="font-size:12.8px"><span style="color:rgb(0,0,0);font-family:garamond,'new york',times,serif;font-size:16px"><span style="font-size:small;font-family:HelveticaNeue-Light,'Helvetica Neue Light','Helvetica Neue',Helvetica,Arial,'Lucida Grande',sans-serif"><img src="https://docs.google.com/uc?export=download&id=0B5bLdCYtbWSgTDBGeVdsLWVkRWs&revid=0B5bLdCYtbWSgSU4vdFkvaVBqUitLMENUWjJ6ekI4dWdaaGc4PQ" width="96" height="96"></span></span></div></div></div>
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