152 problem.
setName(
"VremanRough");
157 problem.setDensity(2470);
166 problem.setStiffnessAndRestitutionCoefficient(100, 0.97, problem.get_mass_from_Radius(problem.
getInflowParticleRadius()));
167 problem.set_HGRID_num_buckets_to_power(4e5);
168 problem.set_HGRID_max_levels(1);
170 problem.
setTimeStep(problem.getCollisionTime()/50);
@ MULTILAYER
Definition: Chute.h:53
void setChuteWidth(Mdouble chuteWidth)
Sets the chute width (Y-direction)
Definition: Chute.cc:1039
void setInflowParticleRadius(Mdouble inflowParticleRadius)
Sets the radius of the inflow particles to a single one (i.e. ensures a monodisperse inflow).
Definition: Chute.cc:848
void setRoughBottomType(RoughBottomType roughBottomType)
Sets the type of rough bottom of the chute.
Definition: Chute.cc:714
virtual void setChuteLength(Mdouble chuteLength)
Sets the chute length (X-direction)
Definition: Chute.cc:1059
void setInflowVelocityVariance(Mdouble inflowVelocityVariance)
Sets the inflow velocity variance.
Definition: Chute.cc:1010
Mdouble getInflowHeight() const
Returns the maximum inflow height (Z-direction)
Definition: Chute.cc:974
void setInflowVelocity(Mdouble inflowVelocity)
Sets the average inflow velocity.
Definition: Chute.cc:983
Mdouble getInflowParticleRadius() const
Returns the average radius of inflow particles.
Definition: Chute.cc:929
Mdouble getChuteWidth() const
Returns the chute width (Y-direction)
Definition: Chute.cc:1049
Mdouble getInflowVelocity() const
Returns the average inflow velocity.
Definition: Chute.cc:1000
void setChuteAngle(Mdouble chuteAngle)
Sets gravity vector according to chute angle (in degrees)
Definition: Chute.cc:768
void setInflowHeight(Mdouble inflowHeight)
Sets maximum inflow height (Z-direction)
Definition: Chute.cc:957
void setFixedParticleRadius(Mdouble fixedParticleRadius)
Sets the particle radius of the fixed particles which constitute the (rough) chute bottom.
Definition: Chute.cc:653
void setSaveCount(unsigned int saveCount)
Sets File::saveCount_ for all files (ene, data, fstat, restart, stat)
Definition: DPMBase.cc:408
void setName(const std::string &name)
Allows to set the name of all the files (ene, data, fstat, restart, stat)
Definition: DPMBase.cc:422
Mdouble getTimeStep() const
Returns the simulation time step.
Definition: DPMBase.cc:1250
bool readArguments(int argc, char *argv[])
Can interpret main function input arguments that are passed by the driver codes.
Definition: DPMBase.cc:4391
void setXBallsAdditionalArguments(std::string newXBArgs)
Set the additional arguments for xballs.
Definition: DPMBase.cc:1347
void setZMax(Mdouble newZMax)
Sets the value of ZMax, the upper bound of the problem domain in the z-direction.
Definition: DPMBase.cc:1217
void setTimeStep(Mdouble newDt)
Sets a new value for the simulation time step.
Definition: DPMBase.cc:1234
void setTimeMax(Mdouble newTMax)
Sets a new value for the maximum simulation duration.
Definition: DPMBase.cc:873
void solve()
The work horse of the code.
Definition: DPMBase.cc:4270
Mdouble getTimeMax() const
Returns the maximum simulation duration.
Definition: DPMBase.cc:888
Definition: Vreman.cpp:38
void set_InflowNu(double Nu)
Definition: Vreman.cpp:80
unsigned int getSaveCountFromNumberOfSavesAndTimeMaxAndTimeStep(unsigned int numberOfSaves, Mdouble timeMax, Mdouble timeStep)
Returns the correct saveCount if the total number of saves, the final time and the time step is known...
Definition: FormulaHelpers.cc:96