Flow123d  JS_before_hm-1717-gd762018d2
sorption_base.cc
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1 /*!
2  *
3  * Copyright (C) 2015 Technical University of Liberec. All rights reserved.
4  *
5  * This program is free software; you can redistribute it and/or modify it under
6  * the terms of the GNU General Public License version 3 as published by the
7  * Free Software Foundation. (http://www.gnu.org/licenses/gpl-3.0.en.html)
8  *
9  * This program is distributed in the hope that it will be useful, but WITHOUT
10  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
11  * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
12  *
13  *
14  * @file sorption_base.cc
15  * @brief
16  */
17 
23 #include "reaction/isotherm.hh"
24 
25 #include "system/system.hh"
26 #include "system/sys_profiler.hh"
27 
28 #include "la/distribution.hh"
29 #include "mesh/mesh.h"
30 #include "mesh/elements.h"
31 #include "mesh/accessors.hh"
32 #include "input/type_selection.hh"
33 
34 #include "fields/field_set.hh"
35 #include "fields/field_fe.hh"
37 
38 using namespace Input::Type;
39 
41  return Selection("SorptionType")
42  .add_value(Isotherm::none,"none", "No sorption considered.")
43  .add_value(Isotherm::linear, "linear",
44  "Linear isotherm runs the concentration exchange between liquid and solid.")
45  .add_value(Isotherm::langmuir, "langmuir",
46  "Langmuir isotherm runs the concentration exchange between liquid and solid.")
47  .add_value(Isotherm::freundlich, "freundlich",
48  "Freundlich isotherm runs the concentration exchange between liquid and solid.")
49  .close();
50 }
51 
52 
53 
55  return Record("SorptionAux", "AUXILIARY RECORD. Should not be directly part of the input tree.")
56  .declare_key("substances", Array(String(),1), Default::obligatory(),
57  "Names of the substances that take part in the sorption model.")
58  .declare_key("solvent_density", Double(0.0), Default("1.0"),
59  "Density of the solvent.")
60  .declare_key("substeps", Integer(1), Default("1000"),
61  "Number of equidistant substeps, molar mass and isotherm intersections")
62  .declare_key("solubility", Array(Double(0.0)), Default::optional(), //("-1.0"), //
63  "Specifies solubility limits of all the sorbing species.")
64  .declare_key("table_limits", Array(Double(-1.0)), Default::optional(), //("-1.0"), //
65  "Specifies the highest aqueous concentration in the isotherm function interpolation table. "
66  "Use any negative value for an automatic choice according to current maximal concentration (default and recommended). "
67  "Use '0' to always evaluate isotherm function directly (can be very slow). "
68  "Use a positive value to set the interpolation table limit manually "
69  "(if aqueous concentration is higher, then the isotherm function is evaluated directly).")
70  .declare_key("input_fields", Array(EqData("","").input_data_set_.make_field_descriptor_type("Sorption")), Default::obligatory(), //
71  "Containes region specific data necessary to construct isotherms.")//;
72  .declare_key("reaction_liquid", ReactionTerm::it_abstract_reaction(), Default::optional(), "Reaction model following the sorption in the liquid.")
73  .declare_key("reaction_solid", ReactionTerm::it_abstract_reaction(), Default::optional(), "Reaction model following the sorption in the solid.")
74  .close();
75 }
76 
77 
78 SorptionBase::EqData::EqData(const string &output_field_name, const string &output_field_desc)
79 {
80  *this += rock_density.name("rock_density")
81  .description("Rock matrix density.")
82  .input_default("0.0")
83  .units( UnitSI().kg().m(-3) );
84 
85  *this += sorption_type.name("sorption_type")
86  .description("Considered sorption is described by selected isotherm.\n"
87  "If porosity on an element is equal to 1.0 (or even higher), meaning no sorbing surface, then type 'none' will be selected automatically.")
88  .input_selection(get_sorption_type_selection())
89  .units( UnitSI::dimensionless() );
90 
91  *this += distribution_coefficient.name("distribution_coefficient")
92  .description("Distribution coefficient (( $k_l, k_F, k_L $)) of linear, Freundlich or Langmuir isotherm respectively.")
93  .input_default("1.0")
94  .units( UnitSI().m(3).kg(-1) );
95 
96  *this += isotherm_other.name("isotherm_other")
97  .description("Additional parameter (($ \\alpha $)) of nonlinear isotherms.")
98  .input_default("1.0")
99  .units( UnitSI::dimensionless() );
100 
101  *this += init_conc_solid.name("init_conc_solid")
102  .description("Initial solid concentration of substances. It is a vector: one value for every substance.")
103  .input_default("0")
104  .units( UnitSI().dimensionless() );
105 
106  input_data_set_ += *this;
107 
108  // porosity field is set from governing equation (transport) later
109  // hence we do not add it to the input_data_set_
110  *this += porosity
111  .name("porosity")
112  .units( UnitSI::dimensionless() )
113  .flags(FieldFlag::input_copy)
114  .set_limits(0.0);
115 
116  output_fields += *this;
117  output_fields += conc_solid.name(output_field_name)
118  .description(output_field_desc)
119  .units( UnitSI().dimensionless() )
121 }
122 
123 
125  : ReactionTerm(init_mesh, in_rec),
126  data_(nullptr)
127 {
128  // creating reaction from input and setting their parameters
129  make_reactions();
130 }
131 
132 
134 {
135  if (data_ != nullptr) delete data_;
136 }
137 
139 {
141 
142  reactions_it = input_record_.find<Input::AbstractRecord>("reaction_liquid");
143  if ( reactions_it )
144  {
145  // TODO: allowed instances in this case are only
146  // FirstOrderReaction, RadioactiveDecay
147  reaction_liquid = (*reactions_it).factory< ReactionTerm, Mesh &, Input::Record >(*mesh_, *reactions_it);
148  } else
149  {
150  reaction_liquid = nullptr;
151  }
152 
153  reactions_it = input_record_.find<Input::AbstractRecord>("reaction_solid");
154  if ( reactions_it )
155  {
156  // TODO: allowed instances in this case are only
157  // FirstOrderReaction, RadioactiveDecay
158  reaction_solid = (*reactions_it).factory< ReactionTerm, Mesh &, Input::Record >(*mesh_, *reactions_it);
159  } else
160  {
161  reaction_solid = nullptr;
162  }
163 }
164 
166 {
167  ASSERT_PTR(time_).error("Time governor has not been set yet.\n");
168  ASSERT(output_stream_).error("Null output stream.\n");
169  ASSERT_LT(0, substances_.size());
170 
171  initialize_substance_ids(); //computes present substances and sets indices
172  initialize_from_input(); //reads non-field data from input
173 
174  //isotherms array resized bellow
175  unsigned int nr_of_regions = mesh_->region_db().bulk_size();
176  isotherms.resize(nr_of_regions);
177  max_conc.resize(nr_of_regions);
178  for(unsigned int i_reg = 0; i_reg < nr_of_regions; i_reg++)
179  {
180  isotherms[i_reg].resize(n_substances_);
181  max_conc[i_reg].resize(n_substances_, 0.0);
182  for(unsigned int i_subst = 0; i_subst < n_substances_; i_subst++)
183  {
184  isotherms[i_reg][i_subst] = Isotherm();
185  }
186  }
187 
189 
190  if(reaction_liquid)
191  {
192  reaction_liquid->substances(substances_)
193  .concentration_fields(conc_mobile_fe)
194  .set_time_governor(*time_);
195  reaction_liquid->initialize();
196  }
197  if(reaction_solid)
198  {
199  reaction_solid->substances(substances_)
200  .concentration_fields(data_->conc_solid_fe)
201  .set_time_governor(*time_);
202  reaction_solid->initialize();
203  }
204 }
205 
206 
208 {
209  Input::Array substances_array = input_record_.val<Input::Array>("substances");
210  unsigned int k, global_idx, i_subst = 0;
211  bool found;
212  Input::Iterator<string> spec_iter = substances_array.begin<string>();
213 
214  for(; spec_iter != substances_array.end(); ++spec_iter, i_subst++)
215  {
216  //finding the name of a substance in the global array of names
217  found = false;
218  for(k = 0; k < substances_.size(); k++)
219  {
220  if (*spec_iter == substances_[k].name())
221  {
222  global_idx = k;
223  found = true;
224  break;
225  }
226  }
227 
228  if(!found)
229  THROW(ReactionTerm::ExcUnknownSubstance()
230  << ReactionTerm::EI_Substance(*spec_iter)
231  << substances_array.ei_address());
232 
233  //finding the global index of substance in the local array
234  found = false;
235  for(k = 0; k < substance_global_idx_.size(); k++)
236  {
237  if(substance_global_idx_[k] == global_idx)
238  {
239  found = true;
240  break;
241  }
242  }
243 
244  if(!found)
245  {
246  substance_global_idx_.push_back(global_idx);
247  }
248 
249  }
251 }
252 
254 {
255  // read number of interpolation steps - value checked by the record definition
256  n_interpolation_steps_ = input_record_.val<int>("substeps");
257 
258  // read the density of solvent - value checked by the record definition
259  solvent_density_ = input_record_.val<double>("solvent_density");
260 
261  // read the solubility vector
262  Input::Iterator<Input::Array> solub_iter = input_record_.find<Input::Array>("solubility");
263  if( solub_iter )
264  {
265  if (solub_iter->Array::size() != n_substances_)
266  {
267  THROW(SorptionBase::ExcSubstanceCountMatch()
268  << SorptionBase::EI_ArrayName("solubility")
270  // there is no way to get ei_address from 'solub_iter', only as a string
271  }
272 
273  else solub_iter->copy_to(solubility_vec_);
274  }
275  else{
276  // fill solubility_vec_ with zeros
277  solubility_vec_.clear();
278  solubility_vec_.resize(n_substances_,0.0);
279  }
280 
281  // read the interpolation table limits
282  Input::Iterator<Input::Array> interp_table_limits = input_record_.find<Input::Array>("table_limits");
283  if( interp_table_limits )
284  {
285  if (interp_table_limits->Array::size() != n_substances_)
286  {
287  THROW(SorptionBase::ExcSubstanceCountMatch()
288  << SorptionBase::EI_ArrayName("table_limits")
290  // there is no way to get ei_address from 'interp_table_limits', only as a string
291  }
292 
293  else interp_table_limits->copy_to(table_limit_);
294  }
295  else{
296  // fill table_limit_ with negative values -> automatic limit
297  table_limit_.clear();
298  table_limit_.resize(n_substances_,-1.0);
299  }
300 }
301 
303 {
304  ASSERT_GT(n_substances_, 0).error("Number of substances is wrong, they might have not been set yet.\n");
305 
306  // create vector of substances that are involved in sorption
307  // and initialize data_ with their names
308  std::vector<std::string> substances_sorption;
309  for (unsigned int i : substance_global_idx_)
310  substances_sorption.push_back(substances_[i].name());
311  data_->set_components(substances_sorption);
312 
313  // read fields from input file
315 
316  data_->set_mesh(*mesh_);
317 
318  //initialization of output
319  //output_array = input_record_.val<Input::Array>("output_fields");
324 
325  //creating field fe and output multifield for sorbed concentrations
326  data_->conc_solid_fe.resize(substances_.size());
327  for (unsigned int sbi = 0; sbi < substances_.size(); sbi++)
328  {
329  // create shared pointer to a FieldFE and push this Field to output_field on all regions
330  data_->conc_solid_fe[sbi] = create_field_fe< 3, FieldValue<3>::Scalar >(dof_handler_);
331  data_->conc_solid[sbi].set(data_->conc_solid_fe[sbi], 0);
332  }
333  //output_stream_->add_admissible_field_names(output_array);
335 }
336 
337 
339 {
340  ASSERT_PTR(time_).error("Time governor has not been set yet.\n");
341  ASSERT(output_stream_).error("Null output stream.\n");
342  ASSERT_LT(0, substances_.size());
343 
345  std::stringstream ss; // print warning message with table of uninitialized fields
346  if ( FieldCommon::print_message_table(ss, "sorption") ) {
347  WarningOut() << ss.str();
348  }
350 
351  update_max_conc();
352  make_tables();
353 
354  // write initial condition
355  //data_->output_fields.set_time(time_->step(), LimitSide::right);
356  //data_->output_fields.output(output_stream_);
357 
358  if(reaction_liquid) reaction_liquid->zero_time_step();
359  if(reaction_solid) reaction_solid->zero_time_step();
360 
361  output_data();
362 }
363 
365 {
366  for ( DHCellAccessor dh_cell : dof_handler_->own_range() ) {
367  IntIdx dof_p0 = dh_cell.get_loc_dof_indices()[0];
368  const ElementAccessor<3> ele = dh_cell.elm();
369 
370  //setting initial solid concentration for substances involved in adsorption
371  for (unsigned int sbi = 0; sbi < n_substances_; sbi++)
372  {
373  int subst_id = substance_global_idx_[sbi];
374  data_->conc_solid_fe[subst_id]->vec().set( dof_p0, data_->init_conc_solid[sbi].value(ele.centre(), ele) );
375  }
376  }
377 }
378 
379 
381 {
382  data_->set_time(time_->step(), LimitSide::right); // set to the last computed time
383 
384  // if parameters changed during last time step, reinit isotherms and eventualy
385  // update interpolation tables in the case of constant rock matrix parameters
386  make_tables();
387  clear_max_conc();
388 
389  START_TIMER("Sorption");
390  for ( DHCellAccessor dh_cell : dof_handler_->own_range() )
391  {
392  compute_reaction(dh_cell);
393  }
394  END_TIMER("Sorption");
395 
396  if(reaction_liquid) reaction_liquid->update_solution();
397  if(reaction_solid) reaction_solid->update_solution();
398 }
399 
400 void SorptionBase::isotherm_reinit(unsigned int i_subst, const ElementAccessor<3> &elem)
401 {
402  START_TIMER("SorptionBase::isotherm_reinit");
403 
404  double mult_coef = data_->distribution_coefficient[i_subst].value(elem.centre(),elem);
405  double second_coef = data_->isotherm_other[i_subst].value(elem.centre(),elem);
406 
407  int reg_idx = elem.region().bulk_idx();
408  Isotherm & isotherm = isotherms[reg_idx][i_subst];
409 
410  bool limited_solubility_on = solubility_vec_[i_subst] > 0.0;
411 
412  // in case of no sorbing surface, set isotherm type None
413  if( common_ele_data.no_sorbing_surface_cond <= std::numeric_limits<double>::epsilon())
414  {
415  isotherm.reinit(Isotherm::none, false, solvent_density_,
417  0,0,0);
418  return;
419  }
420 
421  if ( common_ele_data.scale_sorbed <= 0.0)
422  THROW( ExcNotPositiveScaling() << EI_Subst(i_subst) );
423 
424  isotherm.reinit(Isotherm::SorptionType(data_->sorption_type[i_subst].value(elem.centre(),elem)),
425  limited_solubility_on, solvent_density_,
427  solubility_vec_[i_subst], mult_coef, second_coef);
428 }
429 
431 {
432  for(unsigned int i_subst = 0; i_subst < n_substances_; i_subst++)
433  {
434  isotherm_reinit(i_subst, elem);
435  }
436 }
437 
439 {
440  unsigned int reg_idx, i_subst;
441 
442  // clear max concetrations array
443  unsigned int nr_of_regions = mesh_->region_db().bulk_size();
444  for(reg_idx = 0; reg_idx < nr_of_regions; reg_idx++)
445  for(i_subst = 0; i_subst < n_substances_; i_subst++)
446  max_conc[reg_idx][i_subst] = 0.0;
447 }
448 
450 {
451  unsigned int reg_idx, i_subst, subst_id;
452 
453  clear_max_conc();
454 
455  for ( DHCellAccessor dh_cell : dof_handler_->own_range() ) {
456  IntIdx dof_p0 = dh_cell.get_loc_dof_indices()[0];
457  reg_idx = dh_cell.elm().region().bulk_idx();
458  for(i_subst = 0; i_subst < n_substances_; i_subst++){
459  subst_id = substance_global_idx_[i_subst];
460  max_conc[reg_idx][i_subst] = std::max(max_conc[reg_idx][i_subst], conc_mobile_fe[subst_id]->vec().get(dof_p0));
461  }
462  }
463 }
464 
466 {
467  START_TIMER("SorptionBase::make_tables");
468  try
469  {
470  ElementAccessor<3> elm;
471  for(const Region &reg_iter: this->mesh_->region_db().get_region_set("BULK"))
472  {
473  int reg_idx = reg_iter.bulk_idx();
474  // true if data has been changed and are constant on the region
475  bool call_reinit = data_->changed() && data_->is_constant(reg_iter);
476 
477  if(call_reinit)
478  {
479  ElementAccessor<3> elm(this->mesh_, reg_iter);
480 // DebugOut().fmt("isotherm reinit\n");
482  isotherm_reinit_all(elm);
483  }
484 
485  // find table limit and create interpolation table for every substance
486  for(unsigned int i_subst = 0; i_subst < n_substances_; i_subst++){
487 
488  // clear interpolation tables, if not spacially constant OR switched off
489  if(! data_->is_constant(reg_iter) || table_limit_[i_subst] == 0.0){
490  isotherms[reg_idx][i_subst].clear_table();
491 // DebugOut().fmt("limit: 0.0 -> clear table\n");
492  continue;
493  }
494 
495  // if true then make_table will be called at the end
496  bool call_make_table = call_reinit;
497  // initialy try to keep the current table limit (it is zero at zero time step)
498  double subst_table_limit = isotherms[reg_idx][i_subst].table_limit();
499 
500  // if automatic, possibly remake tables with doubled range when table maximum was reached
501  if(table_limit_[i_subst] < 0.0)
502  {
503  if(subst_table_limit < max_conc[reg_idx][i_subst])
504  {
505  call_make_table = true;
506  subst_table_limit = 2*max_conc[reg_idx][i_subst];
507 // DebugOut().fmt("limit: max conc\n");
508  }
509  }
510  // if not automatic, set given table limit
511  else
512  {
513  subst_table_limit = table_limit_[i_subst];
514  }
515 
516  if(call_make_table){
517  isotherms[reg_idx][i_subst].make_table(n_interpolation_steps_, subst_table_limit);
518 // DebugOut().fmt("reg: {} i_subst {}: table_limit = {}\n", reg_idx, i_subst, isotherms[reg_idx][i_subst].table_limit());
519  }
520  }
521  }
522  }
523  catch(ExceptionBase const &e)
524  {
525  e << input_record_.ei_address();
526  throw;
527  }
528 }
529 
531 {
532  const ElementAccessor<3> ele = dh_cell.elm();
533  int reg_idx = ele.region().bulk_idx();
534  IntIdx dof_p0 = dh_cell.get_loc_dof_indices()[0];
535  unsigned int i_subst, subst_id;
536  // for checking, that the common element data are computed once at maximum
537  bool is_common_ele_data_valid = false;
538 
539  try{
540  for(i_subst = 0; i_subst < n_substances_; i_subst++)
541  {
542  subst_id = substance_global_idx_[i_subst];
543  Isotherm & isotherm = isotherms[reg_idx][i_subst];
544  if (isotherm.is_precomputed()){
545 // DebugOut().fmt("isotherms precomputed - interpolate, subst[{}]\n", i_subst);
546  double c_aqua = conc_mobile_fe[subst_id]->vec().get(dof_p0);
547  double c_sorbed = data_->conc_solid_fe[subst_id]->vec().get(dof_p0);
548  isotherm.interpolate(c_aqua, c_sorbed);
549  conc_mobile_fe[subst_id]->vec().set(dof_p0, c_aqua);
550  data_->conc_solid_fe[subst_id]->vec().set(dof_p0, c_sorbed);
551  }
552  else{
553 // DebugOut().fmt("isotherms reinit - compute , subst[{}]\n", i_subst);
554  if(! is_common_ele_data_valid){
556  is_common_ele_data_valid = true;
557  }
558 
559  isotherm_reinit(i_subst, ele);
560  double c_aqua = conc_mobile_fe[subst_id]->vec().get(dof_p0);
561  double c_sorbed = data_->conc_solid_fe[subst_id]->vec().get(dof_p0);
562  isotherm.compute(c_aqua, c_sorbed);
563  conc_mobile_fe[subst_id]->vec().set(dof_p0, c_aqua);
564  data_->conc_solid_fe[subst_id]->vec().set(dof_p0, c_sorbed);
565  }
566 
567  // update maximal concentration per region (optimization for interpolation)
568  if(table_limit_[i_subst] < 0)
569  max_conc[reg_idx][i_subst] = std::max(max_conc[reg_idx][i_subst],
570  conc_mobile_fe[subst_id]->vec().get(dof_p0));
571  }
572  }
573  catch(ExceptionBase const &e)
574  {
575  e << input_record_.ei_address();
576  throw;
577  }
578 }
579 
580 
581 /**************************************** OUTPUT ***************************************************/
582 
584 {
586  // Register fresh output data
587  data_->output_fields.output(time().step());
588 }
LimitSide::right
@ right
SorptionBase::table_limit_
std::vector< double > table_limit_
Definition: sorption_base.hh:214
ReactionTerm::output_stream_
std::shared_ptr< OutputTime > output_stream_
Pointer to a transport output stream.
Definition: reaction_term.hh:124
EquationBase::mesh_
Mesh * mesh_
Definition: equation.hh:218
SorptionBase::get_input_type
static const Input::Type::Record & get_input_type()
Definition: sorption_base.cc:54
fmt::internal::get
T & get()
SorptionBase::data_
EqData * data_
Pointer to equation data. The object is constructed in descendants.
Definition: sorption_base.hh:196
MultiField::setup_components
void setup_components()
Definition: multi_field.impl.hh:266
ASSERT_GT
#define ASSERT_GT(a, b)
Definition of comparative assert macro (Greater Than)
Definition: asserts.hh:312
Armor::vec
ArmaVec< double, N > vec
Definition: armor.hh:885
UnitSI::dimensionless
static UnitSI & dimensionless()
Returns dimensionless unit.
Definition: unit_si.cc:55
SorptionBase::reaction_liquid
std::shared_ptr< ReactionTerm > reaction_liquid
Definition: sorption_base.hh:236
SorptionBase::initialize_substance_ids
void initialize_substance_ids()
Reads names of substances from input and creates indexing to global vector of substance.
Definition: sorption_base.cc:207
FieldSet::set_time
bool set_time(const TimeStep &time, LimitSide limit_side)
Definition: field_set.cc:164
SorptionBase::reaction_solid
std::shared_ptr< ReactionTerm > reaction_solid
Definition: sorption_base.hh:237
FieldSet::is_constant
bool is_constant(Region reg) const
Definition: field_set.cc:180
ReactionTerm::ReactionTerm
ReactionTerm(Mesh &init_mesh, Input::Record in_rec)
Constructor.
Definition: reaction_term.cc:51
EquationOutput::initialize
void initialize(std::shared_ptr< OutputTime > stream, Mesh *mesh, Input::Record in_rec, const TimeGovernor &tg)
Definition: equation_output.cc:109
ExceptionBase
Base of exceptions used in Flow123d.
Definition: exceptions.hh:75
SubstanceList::size
unsigned int size() const
Definition: substance.hh:87
SorptionBase::clear_max_conc
void clear_max_conc()
Sets max conc to zeros on all regins.
Definition: sorption_base.cc:438
ASSERT
#define ASSERT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
Definition: asserts.hh:347
EquationBase::time_
TimeGovernor * time_
Definition: equation.hh:219
MultiField::set
void set(std::vector< typename Field< spacedim, Value >::FieldBasePtr > field_vec, double time, std::vector< std::string > region_set_names={"ALL"})
Definition: multi_field.impl.hh:403
SorptionBase::initialize_from_input
void initialize_from_input()
Initializes private members of sorption from the input record.
Definition: sorption_base.cc:253
distribution.hh
Support classes for parallel programing.
SorptionBase::EqData::output_fields
EquationOutput output_fields
Fields indended for output, i.e. all input fields plus those representing solution.
Definition: sorption_base.hh:109
Input::Type::Integer
Class for declaration of the integral input data.
Definition: type_base.hh:483
Input::Record::val
const Ret val(const string &key) const
Definition: accessors_impl.hh:31
IntIdx
int IntIdx
Definition: index_types.hh:25
EquationBase::time
TimeGovernor & time()
Definition: equation.hh:149
Input::Type::Selection::close
const Selection & close() const
Close the Selection, no more values can be added.
Definition: type_selection.cc:65
FieldSet::set_input_list
void set_input_list(Input::Array input_list, const TimeGovernor &tg)
Definition: field_set.hh:282
FieldSet::output_type
void output_type(OutputTime::DiscreteSpace rt)
Definition: field_set.hh:303
SorptionBase::initialize_fields
void initialize_fields()
Initializes field sets.
Definition: sorption_base.cc:302
SorptionBase::n_interpolation_steps_
unsigned int n_interpolation_steps_
Definition: sorption_base.hh:201
SorptionBase::update_max_conc
void update_max_conc()
Computes maximal aqueous concentration at the current step.
Definition: sorption_base.cc:449
Input::Type::Double
Class for declaration of the input data that are floating point numbers.
Definition: type_base.hh:534
field_set.hh
THROW
#define THROW(whole_exception_expr)
Wrapper for throw. Saves the throwing point.
Definition: exceptions.hh:53
std::vector< std::string >
ElementAccessor< 3 >
SorptionBase::solubility_vec_
std::vector< double > solubility_vec_
Definition: sorption_base.hh:210
FieldSet::changed
bool changed() const
Definition: field_set.cc:172
system.hh
OutputTime::ELEM_DATA
@ ELEM_DATA
Definition: output_time.hh:111
SorptionBase::EqData::sorption_type
MultiField< 3, FieldValue< 3 >::Enum > sorption_type
Discrete need Selection for initialization.
Definition: sorption_base.hh:90
sorption_base.hh
Class SorptionBase is abstract class representing model of sorption in transport.
SorptionBase::CommonElementData::no_sorbing_surface_cond
double no_sorbing_surface_cond
Definition: sorption_base.hh:247
field_fe.hh
type_selection.hh
ReactionTerm::dof_handler_
std::shared_ptr< DOFHandlerMultiDim > dof_handler_
Pointer to DOF handler used through the reaction tree.
Definition: reaction_term.hh:127
Input::Array::begin
Iterator< ValueType > begin() const
Definition: accessors_impl.hh:145
SorptionBase::isotherm_reinit
void isotherm_reinit(unsigned int i_subst, const ElementAccessor< 3 > &elm)
Reinitializes the isotherm.
Definition: sorption_base.cc:400
Isotherm::interpolate
void interpolate(double &c_aqua, double &c_sorbed)
Definition: isotherm.cc:84
SorptionBase::compute_reaction
void compute_reaction(const DHCellAccessor &dh_cell) override
Compute reaction on a single element.
Definition: sorption_base.cc:530
SorptionBase::output_data
void output_data(void) override
Output method.
Definition: sorption_base.cc:583
ASSERT_LT
#define ASSERT_LT(a, b)
Definition of comparative assert macro (Less Than)
Definition: asserts.hh:296
SorptionBase::compute_common_ele_data
virtual void compute_common_ele_data(const ElementAccessor< 3 > &elem)=0
Isotherm::compute
void compute(double &c_aqua, double &c_sorbed)
Definition: isotherm.cc:68
ReactionTerm::conc_mobile_fe
FieldFEScalarVec conc_mobile_fe
FieldFEs representing P0 interpolation of mobile concentration (passed from transport).
Definition: reaction_term.hh:115
SubstanceList::names
const std::vector< std::string > & names()
Definition: substance.hh:85
Region
Definition: region.hh:146
Isotherm::SorptionType
SorptionType
Type of adsorption isotherm.
Definition: isotherm.hh:174
Input::Iterator
Definition: accessors.hh:143
SorptionBase::EqData::init_conc_solid
MultiField< 3, FieldValue< 3 >::Scalar > init_conc_solid
Initial sorbed concentrations.
Definition: sorption_base.hh:99
Input::Type::Default
Class Input::Type::Default specifies default value of keys of a Input::Type::Record.
Definition: type_record.hh:61
SorptionBase::make_reactions
void make_reactions()
Definition: sorption_base.cc:138
SorptionBase::EqData::EqData
EqData(const string &output_field_name, const string &output_field_desc)
Collect all fields.
Definition: sorption_base.cc:78
SorptionBase::SorptionBase
SorptionBase()
FieldSet::set_components
void set_components(const std::vector< string > &names)
Definition: field_set.hh:268
Isotherm::none
@ none
Definition: isotherm.hh:175
accessors.hh
SorptionBase::EqData
Definition: sorption_base.hh:79
Input::Record
Accessor to the data with type Type::Record.
Definition: accessors.hh:291
FieldFlag::equation_result
static constexpr Mask equation_result
Match result fields. These are never given by input or copy of input.
Definition: field_flag.hh:55
elements.h
ReactionTerm::it_abstract_reaction
static Input::Type::Abstract & it_abstract_reaction()
Definition: reaction_term.cc:43
sys_profiler.hh
SorptionBase::set_initial_condition
void set_initial_condition()
Reads and sets initial condition for concentration in solid.
Definition: sorption_base.cc:364
RegionDB::bulk_size
unsigned int bulk_size() const
Definition: region.cc:268
SorptionBase::zero_time_step
void zero_time_step() override
Definition: sorption_base.cc:338
SorptionBase::EqData::get_sorption_type_selection
static const Input::Type::Selection & get_sorption_type_selection()
Definition: sorption_base.cc:40
TimeGovernor::step
const TimeStep & step(int index=-1) const
Definition: time_governor.cc:753
DHCellAccessor::elm
const ElementAccessor< 3 > elm() const
Return ElementAccessor to element of loc_ele_idx_.
Definition: dh_cell_accessor.hh:71
Input::AbstractRecord
Accessor to the polymorphic input data of a type given by an AbstracRecord object.
Definition: accessors.hh:458
Input::Type::Default::obligatory
static Default obligatory()
The factory function to make an empty default value which is obligatory.
Definition: type_record.hh:110
FieldCommon::print_message_table
static bool print_message_table(ostream &stream, std::string equation_name)
Definition: field_common.cc:96
Input::Record::ei_address
EI_Address ei_address() const
Definition: accessors.cc:178
UnitSI
Class for representation SI units of Fields.
Definition: unit_si.hh:40
Mesh::region_db
const RegionDB & region_db() const
Definition: mesh.h:160
EquationBase::input_record_
Input::Record input_record_
Definition: equation.hh:220
RegionDB::get_region_set
RegionSet get_region_set(const std::string &set_name) const
Definition: region.cc:328
SorptionBase::CommonElementData::scale_sorbed
double scale_sorbed
Definition: sorption_base.hh:246
first_order_reaction.hh
Input::Type::Record::declare_key
Record & declare_key(const string &key, std::shared_ptr< TypeBase > type, const Default &default_value, const string &description, TypeBase::attribute_map key_attributes=TypeBase::attribute_map())
Declares a new key of the Record.
Definition: type_record.cc:503
SorptionBase::~SorptionBase
virtual ~SorptionBase(void)
Definition: sorption_base.cc:133
isotherm.hh
mesh.h
ReactionTerm::substances_
SubstanceList substances_
Names belonging to substances.
Definition: reaction_term.hh:121
Input::Type::Selection
Template for classes storing finite set of named values.
Definition: type_selection.hh:65
Input::Record::find
Iterator< Ret > find(const string &key) const
Definition: accessors_impl.hh:91
SorptionBase::EqData::conc_solid_fe
FieldFEScalarVec conc_solid_fe
Underlaying FieldFE for each substance of conc_solid.
Definition: sorption_base.hh:103
Isotherm::is_precomputed
bool is_precomputed(void)
Definition: isotherm.hh:239
FieldFlag::input_copy
static constexpr Mask input_copy
Definition: field_flag.hh:44
Input::Type::Record::close
Record & close() const
Close the Record for further declarations of keys.
Definition: type_record.cc:304
Input::Type
Definition: balance.hh:41
SorptionBase::isotherms
std::vector< std::vector< Isotherm > > isotherms
Definition: sorption_base.hh:226
Input::Type::Record
Record type proxy class.
Definition: type_record.hh:182
SorptionBase::update_solution
void update_solution(void) override
Updates the solution.
Definition: sorption_base.cc:380
SorptionBase::solvent_density_
double solvent_density_
Definition: sorption_base.hh:206
SorptionBase::substance_global_idx_
std::vector< unsigned int > substance_global_idx_
Mapping from local indexing of substances to global.
Definition: sorption_base.hh:231
FieldCommon::set_components
void set_components(const std::vector< string > &names)
Definition: field_common.hh:205
SorptionBase::make_tables
void make_tables(void)
Definition: sorption_base.cc:465
EquationOutput::output
void output(TimeStep step)
Definition: equation_output.cc:199
Mesh
Definition: mesh.h:77
Input::Type::Array
Class for declaration of inputs sequences.
Definition: type_base.hh:339
Isotherm::freundlich
@ freundlich
Definition: isotherm.hh:177
dual_porosity.hh
Class Dual_por_exchange implements the model of dual porosity.
Input::Type::String
Class for declaration of the input data that are in string format.
Definition: type_base.hh:582
DHCellAccessor
Cell accessor allow iterate over DOF handler cells.
Definition: dh_cell_accessor.hh:43
Input::Array
Accessor to input data conforming to declared Array.
Definition: accessors.hh:566
SorptionBase::EqData::input_data_set_
FieldSet input_data_set_
Input data set - fields in this set are read from the input file.
Definition: sorption_base.hh:106
FieldSet::set_mesh
void set_mesh(const Mesh &mesh)
Definition: field_set.hh:274
WarningOut
#define WarningOut()
Macro defining 'warning' record of log.
Definition: logger.hh:270
SorptionBase::n_substances_
unsigned int n_substances_
Definition: sorption_base.hh:228
ElementAccessor::region
Region region() const
Definition: accessors.hh:165
fe_value_handler.hh
Isotherm
Definition: isotherm.hh:158
SorptionBase::isotherm_reinit_all
void isotherm_reinit_all(const ElementAccessor< 3 > &elm)
Calls isotherm_reinit for all isotherms.
Definition: sorption_base.cc:430
DHCellAccessor::get_loc_dof_indices
LocDofVec get_loc_dof_indices() const
Returns the local indices of dofs associated to the cell on the local process.
Definition: dh_cell_accessor.hh:88
SorptionBase::max_conc
std::vector< std::vector< double > > max_conc
Definition: sorption_base.hh:219
SorptionBase::EqData::conc_solid
MultiField< 3, FieldValue< 3 >::Scalar > conc_solid
Calculated sorbed concentrations, for output only.
Definition: sorption_base.hh:102
SorptionBase::CommonElementData::scale_aqua
double scale_aqua
Definition: sorption_base.hh:245
Isotherm::langmuir
@ langmuir
Definition: isotherm.hh:178
SorptionBase::initialize
void initialize() override
Prepares the object to usage.
Definition: sorption_base.cc:165
Input::Array::ei_address
EI_Address ei_address() const
Definition: accessors.cc:314
SorptionBase::EqData::isotherm_other
MultiField< 3, FieldValue< 3 >::Scalar > isotherm_other
Langmuir sorption coeficients alpha (in fraction c_s = omega * (alpha*c_a)/(1- alpha*c_a)).
Definition: sorption_base.hh:97
reaction_term.hh
Class ReactionTerm is an abstract class representing reaction term in transport.
Input::Type::Selection::add_value
Selection & add_value(const int value, const std::string &key, const std::string &description="", TypeBase::attribute_map attributes=TypeBase::attribute_map())
Adds one new value with name given by key to the Selection.
Definition: type_selection.cc:50
ReactionTerm
Definition: reaction_term.hh:45
ASSERT_PTR
#define ASSERT_PTR(ptr)
Definition of assert macro checking non-null pointer (PTR)
Definition: asserts.hh:336
radioactive_decay.hh
SorptionBase::EqData::distribution_coefficient
MultiField< 3, FieldValue< 3 >::Scalar > distribution_coefficient
Multiplication coefficients (k, omega) for all types of isotherms.
Definition: sorption_base.hh:95
Input::Type::Default::optional
static Default optional()
The factory function to make an empty default value which is optional.
Definition: type_record.hh:124
Isotherm::linear
@ linear
Definition: isotherm.hh:176
RegionIdx::bulk_idx
unsigned int bulk_idx() const
Returns index of the region in the bulk set.
Definition: region.hh:91
START_TIMER
#define START_TIMER(tag)
Starts a timer with specified tag.
Definition: sys_profiler.hh:115
Input::Array::end
IteratorBase end() const
Definition: accessors_impl.hh:157
FieldSet::make_field_descriptor_type
Input::Type::Record make_field_descriptor_type(const std::string &equation_name) const
Definition: field_set.cc:69
Isotherm::reinit
void reinit(enum SorptionType sorption_type, bool limited_solubility_on, double aqua_density, double scale_aqua, double scale_sorbed, double c_aqua_limit, double mult_coef, double second_coef)
Definition: isotherm.cc:44
END_TIMER
#define END_TIMER(tag)
Ends a timer with specified tag.
Definition: sys_profiler.hh:149
ElementAccessor::centre
arma::vec::fixed< spacedim > centre() const
Computes the barycenter.
Definition: accessors_impl.hh:112
SorptionBase::common_ele_data
struct SorptionBase::CommonElementData common_ele_data