1 | %Test Name: SquareSheetExtrudedHydrologyDCTwoLayers
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2 | md=triangle(model(),'../Exp/Square.exp',100000.);
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3 | md=setmask(md,'','');
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4 | md.transient=deactivateall(md.transient);
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5 | md.transient.ishydrology=1;
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6 | md.transient.issmb=1;
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7 | md=parameterize(md,'../Par/SquareSheetConstrained.par');
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8 | md=setflowequation(md,'SSA','all');
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9 | md.cluster=generic('name',oshostname(),'np',1);
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10 | md.hydrology=(hydrologydc);
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11 | md.hydrology=initialize(md.hydrology,md);
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12 | md.hydrology.isefficientlayer=1;
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13 | md.hydrology.sedimentlimit_flag=1;
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14 | md.hydrology.sedimentlimit=800.0;
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15 | md.initialization.sediment_head=0.0*ones(md.mesh.numberofvertices,1);
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16 | md.hydrology.spcsediment_head=NaN*ones(md.mesh.numberofvertices,1);
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17 | md.basalforcings.groundedice_melting_rate = 2.0*ones(md.mesh.numberofvertices,1);
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18 | md.basalforcings.floatingice_melting_rate = 0.0*ones(md.mesh.numberofvertices,1);
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19 | md.hydrology.sediment_transmitivity=3*ones(md.mesh.numberofvertices,1);
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20 |
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21 | md.initialization.epl_head=0.0*ones(md.mesh.numberofvertices,1);
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22 | md.initialization.epl_thickness=1.0*ones(md.mesh.numberofvertices,1);
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23 | md.hydrology.spcepl_head=NaN*ones(md.mesh.numberofvertices,1);
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24 | md.hydrology.mask_eplactive_node=0*ones(md.mesh.numberofvertices,1);
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25 | md.hydrology.epl_conductivity=30;
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26 | md.hydrology.epl_initial_thickness=1;
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27 | md.hydrology.epl_colapse_thickness=1.0e-3;
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28 | md.hydrology.epl_thick_comp=1;
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29 | md.hydrology.epl_max_thickness=1;
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30 | md.timestepping.time_step=0.2;
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31 | md.timestepping.final_time=2.0;
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32 |
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33 | %md.verbose.solution=1;
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34 | md=extrude(md,3,1.1);
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35 | md=solve(md,TransientSolutionEnum());
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36 |
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37 | %store=md.constants.g*md.hydrology.sediment_porosity* ...
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38 | % md.materials.rho_freshwater*((md.hydrology.sediment_compressibility/md.hydrology.sediment_porosity)+md.hydrology.water_compressibility)
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39 |
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40 | %sed=ones(1,size(md.results.HydrologySolution,2));
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41 | %epl=ones(1,size(md.results.HydrologySolution,2));
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42 | %res=ones(1,size(md.results.HydrologySolution,2));
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43 | %input=ones(1,size(md.results.HydrologySolution,2));
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44 | %for i= 1:size(md.results.HydrologySolution,2)
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45 | % sed(i)=mean(md.results.HydrologySolution(i).SedimentHead);
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46 | % res(i)=mean(md.results.HydrologySolution(i).SedimentHeadResidual);
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47 | % epl(i)=mean(md.results.HydrologySolution(i).EplHead);
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48 | % input(i)=2.0*(i*0.2);
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49 | %end
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50 |
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51 | %Fields and tolerances to track changes
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52 | field_names ={'SedimentWaterHead1','EplWaterHead1','SedimentHeadResidual1',...
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53 | 'SedimentWaterHead4','EplWaterHead4','SedimentHeadResidual4',...
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54 | 'SedimentWaterHead5','EplWaterHead5','SedimentHeadResidual5',...
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55 | 'SedimentWaterHead9','EplWaterHead9','SedimentHeadResidual9'};
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56 | field_tolerances={1e-13, 1e-13, 1e-13,...
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57 | 1e-13, 1e-13, 1e-13,...
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58 | 1e-13, 5e-12, 2e-11,...
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59 | 1e-13, 5e-12, 2e-11};
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60 | field_values={md.results.TransientSolution(1).SedimentHead, ...
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61 | md.results.TransientSolution(1).EplHead,...
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62 | md.results.TransientSolution(1).SedimentHeadResidual,...
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63 | md.results.TransientSolution(4).SedimentHead,...
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64 | md.results.TransientSolution(4).EplHead,...
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65 | md.results.TransientSolution(4).SedimentHeadResidual, ...
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66 | md.results.TransientSolution(5).SedimentHead,...
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67 | md.results.TransientSolution(5).EplHead,...
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68 | md.results.TransientSolution(5).SedimentHeadResidual, ...
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69 | md.results.TransientSolution(9).SedimentHead,...
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70 | md.results.TransientSolution(9).EplHead,...
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71 | md.results.TransientSolution(9).SedimentHeadResidual};
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