************************* * * * PROBLEMS * * * ************************* Navier-Stokes 2D Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : - Output Fields : VELOCITIES PRESSURE COORDINATES Navier-Stokes 2D and 2D 1/2 isothermal flow problem generalized newtonian fluid plane geometry no streamline upwinding in momentum equation newton-raphson iteration for viscosity law mobil domain viscosity function : visc = F(g) shear-rate dependence of the viscosity : F(g) shear-rate independent viscosity : F(g) = fac = 3.00000E+04 specific mass : ro = 1.00000E+00 gravity field taken into account : gx = 0.00000E+00 gy = 1.00000E+00 gz = 0.00000E+00 inertia terms taken into account in momentum equation compressibility taken into account : relative compressibility factor : cmpfac = 1.00000E-02 Contact problem Support : (l_che_ebene4*zone1). Coordinates : COORDINATES Input Fields : - Output Fields : VELOCITIES Contact field#1 COORDINATES Contact problem (for 2D and 3D) -in Cartesian reference frame- isothermal flow problem a contact problem is included Normal stiffness at contact : stiffness force = - k * vn where : vn is the relative normal velocity k = 1.00000E+09 No slipping force. Rigid translation of the contact wall : Ux (Ur) = -2.00000E+01 , Uy (Uz) = 0.00000E+00 , Uz (-) = 0.00000E+00 . Algorithm information : precision on penetration = 1.00000E-02 mould dilatation = 1.00000E-02 Contact Init. Support : (l_che_ebene4*zone1). Coordinates : COORDINATES Input Fields : - Output Fields : VELOCITIES Contact field#1 COORDINATES Contact problem (for 2D and 3D) -in Cartesian reference frame- isothermal flow problem a contact problem is included Normal stiffness at contact : stiffness force = - k * vn where : vn is the relative normal velocity k = 1.00000E+09 No slipping force. Rigid translation of the contact wall : Ux (Ur) = -2.00000E+01 , Uy (Uz) = 0.00000E+00 , Uz (-) = 0.00000E+00 . Algorithm information : precision on penetration = 1.00000E-02 mould dilatation = 1.00000E-02 Contact Time Support : (l_che_ebene4*zone1). Coordinates : COORDINATES Input Fields : Contact field#1 Output Fields : Contact_time#1 Post-processor of contact time (based on contact fields). critical value = 0.8000000E+00 epsilon = 0.1000000E-01 option 2 activated : no increase of contact time during periods of no contact Contact problem Support : (l_che_ebene4*zone3). Coordinates : COORDINATES Input Fields : - Output Fields : VELOCITIES Contact field#2 COORDINATES Contact problem (for 2D and 3D) -in Cartesian reference frame- isothermal flow problem a contact problem is included Normal stiffness at contact : stiffness force = - k * vn where : vn is the relative normal velocity k = 1.00000E+09 No slipping force. Algorithm information : precision on penetration = 1.00000E-02 mould dilatation = 1.00000E-02 Contact Init. Support : (l_che_ebene4*zone3). Coordinates : COORDINATES Input Fields : - Output Fields : VELOCITIES Contact field#2 COORDINATES Contact problem (for 2D and 3D) -in Cartesian reference frame- isothermal flow problem a contact problem is included Normal stiffness at contact : stiffness force = - k * vn where : vn is the relative normal velocity k = 1.00000E+09 No slipping force. Algorithm information : precision on penetration = 1.00000E-02 mould dilatation = 1.00000E-02 Contact Time Support : (l_che_ebene4*zone3). Coordinates : COORDINATES Input Fields : Contact field#2 Output Fields : Contact_time#2 Post-processor of contact time (based on contact fields). critical value = 0.8000000E+00 epsilon = 0.1000000E-01 option 2 activated : no increase of contact time during periods of no contact Lagrangian Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : VELOCITIES COORDINATES PRESSURE Optimesh 2D Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : - Output Fields : COORDINATES 2D-surface mesh rectifier Weight for quadrilateral diagonals : beta = 0.1000000E+00 Weight for angle forces : w1 = 0.1000000E+01 Weight for segment forces : w2 = 0.0000000E+00 Action suppressed on mesh (l_che_ebene4*zone3). Thickness Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : - Output Fields : estim. THICKNESS Evaluation of parison thickness (for 2-D flow calculation), between border (l_che_ebene4*zone1). and border (l_che_ebene4*zone3). Tolerence on thickness evaluation : 1.00000E-06 Flow Rate Support : (l_che_ebene4*zone1). Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : FLOW_RATE EQUATION(S) : vgn_equal : integ_vx IsAVariableRequired : Yes FEIntegrationRule : 5 Coordinates system : CARTESIAN Function_Type : VNormal Variable : Velocity Flow Rate Support : (l_che_ebene4*zone2). Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : FLOW_RATE EQUATION(S) : vgn_equal : integ_vx IsAVariableRequired : Yes FEIntegrationRule : 5 Coordinates system : CARTESIAN Function_Type : VNormal Variable : Velocity Flow Rate Support : (l_che_ebene4*zone3). Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : FLOW_RATE EQUATION(S) : vgn_equal : integ_vx IsAVariableRequired : Yes FEIntegrationRule : 5 Coordinates system : CARTESIAN Function_Type : VNormal Variable : Velocity Flow Rate Support : (l_che_ebene4*zone4). Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : FLOW_RATE EQUATION(S) : vgn_equal : integ_vx IsAVariableRequired : Yes FEIntegrationRule : 5 Coordinates system : CARTESIAN Function_Type : VNormal Variable : Velocity Viscosity Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : VISCOSITY algebraic post-processor 2D and 2D 1/2 the mean least square technique is applied for computing the viscosity mu(g,t) plane geometry viscosity function : visc = F(g) shear-rate dependence of the viscosity : F(g) shear-rate independent viscosity : F(g) = fac = 3.00000E+04 Shear rate Support : l_che_ebene4. Coordinates : COORDINATES Input Fields : VELOCITIES Output Fields : LOCAL SHEAR-RATE algebraic post-processor 2D and 2D 1/2 the mean least square technique is applied for computing the local shear rate 'gamma-dot' plane geometry ===> Starting Steady Simulation Preprocessors Convergence assumed : Rel. var. LT 0.1000000E-02 ===> Starting Time marching at t-ini = 0.0000000E+00 ================================= *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1000000E-02 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Divergence of influent solver occured ! Worst solver is :F.E.M. Task *** time step information : *** =============================== t = 0.0000000E+00, step #1 dtnew = 0.5000000E-03, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.5000000E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Divergence detected for field VELOCITIES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :F.E.M. Task *** time step information : *** =============================== t = 0.0000000E+00, step #1 dtnew = 0.2500000E-03, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.2500000E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Divergence detected for field COORDINATES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :F.E.M. Task *** time step information : *** =============================== t = 0.0000000E+00, step #1 dtnew = 0.1250000E-03, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1250000E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Divergence detected for field VELOCITIES: iterations cancelled by Expert System Divergence detected for field COORDINATES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :F.E.M. Task *** time step information : *** =============================== t = 0.0000000E+00, step #1 dtnew = 0.6250000E-04, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.6250000E-04 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.9754940E-001 on (l_che_ebene4*zone1). Flow rate = 0.6483397E-001 on (l_che_ebene4*zone2). Flow rate = -0.3211864E-001 on (l_che_ebene4*zone3). Flow rate = 0.6483404E-001 on (l_che_ebene4*zone4). Post Optimesh Divergence detected for field COORDINATES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :Post Optimesh *** time step information : *** =============================== t = 0.0000000E+00, step #1 dtnew = 0.3125000E-04, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 1 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.3125000E-04 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.5885760E+000 on (l_che_ebene4*zone1). Flow rate = 0.2718822E+000 on (l_che_ebene4*zone2). Flow rate = 0.4481169E-001 on (l_che_ebene4*zone3). Flow rate = 0.2718821E+000 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.3125000E-04, step #1 dtnew = 0.3125000E-04, okincr = T tests = 0.5101371E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 2 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.6250000E-04 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1193006E+001 on (l_che_ebene4*zone1). Flow rate = 0.5300019E+000 on (l_che_ebene4*zone2). Flow rate = 0.1329937E+000 on (l_che_ebene4*zone3). Flow rate = 0.5300105E+000 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.6250000E-04, step #2 dtnew = 0.3125000E-04, okincr = T tests = 0.1009297E+00 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 3 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.9375000E-04 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.6006943E+001 on (l_che_ebene4*zone1). Flow rate = 0.2444916E+001 on (l_che_ebene4*zone2). Flow rate = 0.1117108E+001 on (l_che_ebene4*zone3). Flow rate = 0.2444920E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.9375000E-04, step #3 dtnew = 0.3125000E-04, okincr = T tests = 0.5852143E+00 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 4 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1250000E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Divergence detected for field VELOCITIES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :F.E.M. Task *** time step information : *** =============================== t = 0.9375000E-04, step #4 dtnew = 0.1562500E-04, okincr = F tests = 0.0000000E+00 *************************** *** Starting Step 4 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1093750E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1203606E+002 on (l_che_ebene4*zone1). Flow rate = 0.4436432E+001 on (l_che_ebene4*zone2). Flow rate = 0.3167526E+001 on (l_che_ebene4*zone3). Flow rate = 0.4432098E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.9375000E-04, step #4 dtnew = 0.2813841E-05, okincr = F tests = 0.3083479E+00 *************************** *** Starting Step 4 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.9656384E-04 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.6444301E+001 on (l_che_ebene4*zone1). Flow rate = 0.2585246E+001 on (l_che_ebene4*zone2). Flow rate = 0.1274431E+001 on (l_che_ebene4*zone3). Flow rate = 0.2584623E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.9656384E-04, step #4 dtnew = 0.4220761E-05, okincr = T tests = 0.7788232E-02 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 5 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1007846E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.7243836E+001 on (l_che_ebene4*zone1). Flow rate = 0.2835142E+001 on (l_che_ebene4*zone2). Flow rate = 0.1575271E+001 on (l_che_ebene4*zone3). Flow rate = 0.2833423E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1007846E-03, step #5 dtnew = 0.4218533E-05, okincr = T tests = 0.2002113E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 6 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1050031E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.8218635E+001 on (l_che_ebene4*zone1). Flow rate = 0.3122991E+001 on (l_che_ebene4*zone2). Flow rate = 0.1975708E+001 on (l_che_ebene4*zone3). Flow rate = 0.3119937E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1050031E-03, step #6 dtnew = 0.3901534E-05, okincr = T tests = 0.2338203E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 7 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1089047E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.9308550E+001 on (l_che_ebene4*zone1). Flow rate = 0.3422348E+001 on (l_che_ebene4*zone2). Flow rate = 0.2467523E+001 on (l_che_ebene4*zone3). Flow rate = 0.3418678E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1089047E-03, step #7 dtnew = 0.3622415E-05, okincr = T tests = 0.2320087E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 8 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1125271E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1052347E+002 on (l_che_ebene4*zone1). Flow rate = 0.3729734E+001 on (l_che_ebene4*zone2). Flow rate = 0.3068535E+001 on (l_che_ebene4*zone3). Flow rate = 0.3725197E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1125271E-03, step #8 dtnew = 0.3385922E-05, okincr = T tests = 0.2289141E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) *************************** *** Starting Step 9 *** *************************** Parameters and Fields | Progress bar(s) | Time = 0.1159130E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1187701E+002 on (l_che_ebene4*zone1). Flow rate = 0.4039805E+001 on (l_che_ebene4*zone2). Flow rate = 0.3801107E+001 on (l_che_ebene4*zone3). Flow rate = 0.4036097E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1159130E-03, step #9 dtnew = 0.3189938E-05, okincr = T tests = 0.2253302E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 10 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1191029E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1338621E+002 on (l_che_ebene4*zone1). Flow rate = 0.4347753E+001 on (l_che_ebene4*zone2). Flow rate = 0.4693647E+001 on (l_che_ebene4*zone3). Flow rate = 0.4344815E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1191029E-03, step #10 dtnew = 0.3028117E-05, okincr = T tests = 0.2219469E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 11 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1221311E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1506911E+002 on (l_che_ebene4*zone1). Flow rate = 0.4645632E+001 on (l_che_ebene4*zone2). Flow rate = 0.5780107E+001 on (l_che_ebene4*zone3). Flow rate = 0.4643374E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1221311E-03, step #11 dtnew = 0.2899415E-05, okincr = T tests = 0.2181498E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 12 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1250305E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1694759E+002 on (l_che_ebene4*zone1). Flow rate = 0.4924183E+001 on (l_che_ebene4*zone2). Flow rate = 0.7102404E+001 on (l_che_ebene4*zone3). Flow rate = 0.4921002E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1250305E-03, step #12 dtnew = 0.2801907E-05, okincr = T tests = 0.2141624E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 13 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1278324E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.1904803E+002 on (l_che_ebene4*zone1). Flow rate = 0.5170435E+001 on (l_che_ebene4*zone2). Flow rate = 0.8711279E+001 on (l_che_ebene4*zone3). Flow rate = 0.5166316E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1278324E-03, step #13 dtnew = 0.2736816E-05, okincr = T tests = 0.2096265E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 14 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1305692E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.2140468E+002 on (l_che_ebene4*zone1). Flow rate = 0.5369797E+001 on (l_che_ebene4*zone2). Flow rate = 0.1066829E+002 on (l_che_ebene4*zone3). Flow rate = 0.5366592E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1305692E-03, step #14 dtnew = 0.2705337E-05, okincr = T tests = 0.2046815E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 15 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1332745E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.2406400E+002 on (l_che_ebene4*zone1). Flow rate = 0.5508669E+001 on (l_che_ebene4*zone2). Flow rate = 0.1304849E+002 on (l_che_ebene4*zone3). Flow rate = 0.5506834E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1332745E-03, step #15 dtnew = 0.2705853E-05, okincr = T tests = 0.1999238E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 16 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1359804E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.2708438E+002 on (l_che_ebene4*zone1). Flow rate = 0.5572936E+001 on (l_che_ebene4*zone2). Flow rate = 0.1593854E+002 on (l_che_ebene4*zone3). Flow rate = 0.5572905E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1359804E-03, step #16 dtnew = 0.2741441E-05, okincr = T tests = 0.1948410E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 17 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1387218E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.3054737E+002 on (l_che_ebene4*zone1). Flow rate = 0.5550474E+001 on (l_che_ebene4*zone2). Flow rate = 0.1944408E+002 on (l_che_ebene4*zone3). Flow rate = 0.5552816E+001 on (l_che_ebene4*zone4). Post Optimesh Convergence assumed : Rel. var. LT 0.1000000E-06 *** time step information : *** =============================== t = 0.1387218E-03, step #17 dtnew = 0.2814096E-05, okincr = T tests = 0.1898061E-01 Local shear rate (triggered by outputs) Postprocessors (triggered by outputs) **************************** *** Starting Step 18 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1415359E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.3456417E+002 on (l_che_ebene4*zone1). Flow rate = 0.5432479E+001 on (l_che_ebene4*zone2). Flow rate = 0.2369378E+002 on (l_che_ebene4*zone3). Flow rate = 0.5437903E+001 on (l_che_ebene4*zone4). Post Optimesh Divergence detected for field COORDINATES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :Post Optimesh *** time step information : *** =============================== t = 0.1387218E-03, step #18 dtnew = 0.1407048E-05, okincr = F tests = 0.0000000E+00 **************************** *** Starting Step 18 *** **************************** Parameters and Fields | Progress bar(s) | Time = 0.1401289E-03 |> | Parameter the velocity-x = -0.2000000E+02 Field MOLDS_VTRANS1 = (-0.2000000E+02, 0.0000000E+00 ) Field COORDINATES Field MOLDS_VELOCITY F.E.M. Task Convergence assumed : Rel. var. LT 0.1000000E-02 Post Contact Convergence assumed : Rel. var. LT 0.1000000E+09 Post globals Flow rates Flow rate = -0.3240362E+002 on (l_che_ebene4*zone1). Flow rate = 0.5482660E+001 on (l_che_ebene4*zone2). Flow rate = 0.2143444E+002 on (l_che_ebene4*zone3). Flow rate = 0.5486514E+001 on (l_che_ebene4*zone4). Post Optimesh Divergence detected for field COORDINATES: iterations cancelled by Expert System Divergence of influent solver occured ! Worst solver is :Post Optimesh ================================== At time = 0.1387218E-03, dtnew is smaller than dtmin. Stop. dtnew = 0.7035239E-06 dtmin = 0.1000000E-05 ================================== ************************* * * * STATISTICS * * * ************************* Memory information : Global usage before end PID : 1356 Max Virtual Memory : 378 Mbytes Time information : CPU time : 12.0 sec. Elapsed time : 12.0 sec. Parallelism information : Algo. parallelism : 1.0 Max procs : 0.0 Cpu Monitor : Prediag time: 0.126 seconds (77 calls) DescrElement time: 0.094 seconds (77 calls) diagonalSolver time: 0.102 seconds (77 calls) MatrixConstruction time: 0.076 seconds (77 calls) LocalMatrices time: 0.066 seconds (3844 calls) generate outputs time: 2.515 seconds (35 calls) Preitr time: 0.226 seconds (47 calls) DescrElement time: 0.092 seconds (47 calls) describeAnElementLS time: 0.036 seconds (3960 calls) createConnectivityBlocksLS time: 0.103 seconds (47 calls) Itrslv time: 2.932 seconds (171 calls) MatrixConstruction time: 0.921 seconds (171 calls) LocalMatrices time: 0.655 seconds (15960 calls) ItrslvSolve time: 0.971 seconds (171 calls) SolveGlobalAssembly time: 0.099 seconds (171 calls) DLRU time: 0.123 seconds (171 calls) Optimization time: 0.031 seconds (171 calls) Permutation time: 0 seconds (13 calls) Build elimination order time: 0 seconds (13 calls) Symmetrisation time: 0 seconds (13 calls) Metis time: 0 seconds (13 calls) Delaying time: 0.031 seconds (13 calls) Apply delaying time: 0.031 seconds (12 calls) delayLastDualAfterLastPrimal time: 0.015 seconds (12 calls) Factorize time: 0.499 seconds (171 calls) Symbolic pass time: 0.016 seconds (11814 calls) Optimize active matrix ordering time: 0.04 seconds (342 calls) Merge matrix to reach AM size time: 0.047 seconds (171 calls) ActiveMatrixAllocate time: 0.016 seconds (5427 calls) NumericPass time: 0.277 seconds (5427 calls) activeMatrixInitialize time: 0 seconds (5427 calls) activeMatrixAssemble time: 0.036 seconds (5427 calls) evaluateRPGF time: 0.015 seconds (5724 calls) evacuatePivotUpper2 time: 0 seconds (5724 calls) BackSub time: 0.016 seconds (171 calls) ItrslvEnd time: 0.03 seconds (171 calls) Stop. Normal end of Polyflow Polyflow running on SLK-TODD with 1 processor Arguments of Polyflow : -ES full -s polyflow.p3rc -MGR -default_output -BLOWMOLDING ******************************** * Summary of the simulation * ******************************** The computation failed. *************************** * Expert tool diagnostics * *************************** Out of convergence disk *************************** * Expert tool diagnostics * *************************** The problem Post Optimesh has not converged. The transient scheme can not reach the final time 0.1. Transient scheme stops for a value of the time equals to 0.00014013 because the time step has been reduced below the minimum (as assigned in Polydata). *************************** * Expert tool Suggestions * *************************** The grid Froude number (Fr), which is defined as follows: Inertia forces/ Gravity force , is equal to 3.93e+009 (greather than 1.0). It could be too large and induce convergence difficulties. Please check the setup of the simulation and more specifically : - the flow rate or the entry velocity, - the gravity, - the coordinates, - the coherence of system units. The grid Stokes number (St), which is defined as follows: Viscous forces/ Gravity forces , is equal to 4.39e+014 (greather than 100000000.0). It could be too large and induce convergence difficulties. Please check the setup of the simulation and more specifically : - the flow rate or the entry velocity, - the viscosity, - the density, - the gravity, - the coordinates, - the coherence of system units.