#################################################################################
# The Institute for the Design of Advanced Energy Systems Integrated Platform
# Framework (IDAES IP) was produced under the DOE Institute for the
# Design of Advanced Energy Systems (IDAES), and is copyright (c) 2018-2021
# by the software owners: The Regents of the University of California, through
# Lawrence Berkeley National Laboratory, National Technology & Engineering
# Solutions of Sandia, LLC, Carnegie Mellon University, West Virginia University
# Research Corporation, et al. All rights reserved.
#
# Please see the files COPYRIGHT.md and LICENSE.md for full copyright and
# license information.
#################################################################################
"""
Tool to interrogate IDAES flowsheets and list the physical properties
required to simulate it.
"""
import sys
from inspect import isclass
# Import Pyomo libraries
from pyomo.environ import Set, Var, units as pyunits
from pyomo.common.config import ConfigValue
# Import IDAES cores
from idaes.core import (declare_process_block_class,
MaterialFlowBasis,
PhysicalParameterBlock,
StateBlockData,
StateBlock,
MaterialBalanceType,
EnergyBalanceType,
UnitModelBlockData,
Phase,
LiquidPhase,
VaporPhase,
Component)
from idaes.core.util.exceptions import ConfigurationError
import idaes.logger as idaeslog
# Some more information about this module
__author__ = "Andrew Lee"
# Set up logger
_log = idaeslog.getLogger(__name__)
[docs]@declare_process_block_class("PropertyInterrogatorBlock")
class PropertyInterrogatorData(PhysicalParameterBlock):
"""
Interrogator Parameter Block Class
This class contains the methods and attributes for recording and displaying
the properties requried by the flowsheet.
"""
CONFIG = PhysicalParameterBlock.CONFIG()
CONFIG.declare("phase_list", ConfigValue(
domain=dict,
description="User defined phase list. Dict with form {name: Type}"))
CONFIG.declare("component_list", ConfigValue(
domain=dict,
description="User defined component list. Dict with form {name: Type}"
))
[docs] def build(self):
'''
Callable method for Block construction.
'''
super(PropertyInterrogatorData, self).build()
self._state_block_class = InterrogatorStateBlock
# Phase objects
if self.config.phase_list is None:
self.Liq = LiquidPhase()
self.Vap = VaporPhase()
else:
for p, t in self.config.phase_list.items():
if t is None:
t = Phase
elif not isclass(t) or not issubclass(t, Phase):
raise ConfigurationError(
f"{self.name} invalid phase type {t} (for phase {p})."
f" Type must be a subclass of Phase.")
self.add_component(p, t())
# Component objects
if self.config.component_list is None:
self.A = Component()
self.B = Component()
else:
for j, t in self.config.component_list.items():
if t is None:
t = Component
elif not isclass(t) or not issubclass(t, Component):
raise ConfigurationError(
f"{self.name} invalid component type {t} (for "
f"component {j}). Type must be a subclass of "
f"Component.")
self.add_component(j, t())
# Set up dict to record property calls
self.required_properties = {}
# Dummy phase equilibrium definition so we can handle flash cases
self.phase_equilibrium_idx = Set(initialize=[1])
self.phase_equilibrium_list = \
{1: ["A", ("Vap", "Liq")]}
[docs] def list_required_properties(self):
"""
Method to list all thermophysical properties required by the flowsheet.
Args:
None
Returns:
A list of properties required
"""
return list(self.required_properties)
[docs] def list_models_requiring_property(self, prop):
"""
Method to list all models in the flowsheet requiring the given
property.
Args:
prop : the property of interest
Returns:
A list of unit model names which require prop
"""
try:
return self.required_properties[prop]
except KeyError:
raise KeyError(
"Property {} does not appear in required_properties. "
"Please check the spelling of the property that you are "
"interested in.".format(prop))
[docs] def list_properties_required_by_model(self, model):
"""
Method to list all thermophysical properties required by a given unit
model.
Args:
model : the unit model of interest. Can be given as either a model
component or the unit name as a string
Returns:
A list of thermophysical properties required by model
"""
prop_list = []
if not isinstance(model, str):
model = model.name
for k, v in self.required_properties.items():
if model in v:
prop_list.append(k)
if len(prop_list) < 1:
raise ValueError(
"Model {} does not appear in the flowsheet. Please check "
"the spelling of the model provided.")
else:
return prop_list
[docs] def print_required_properties(self, ostream=None):
"""
Method to print a summary of the thermophysical properties required by
the flowsheet.
Args:
ostream : output stream to print to. If not provided will print to
sys.stdout
Returns:
None
"""
if ostream is None:
ostream = sys.stdout
# Write header
max_str_length = 74
tab = " "*4
ostream.write("\n"+"="*max_str_length+"\n")
ostream.write("Property Interrogator Summary"+"\n")
ostream.write(
"\n" +
"The Flowsheet requires the following properties " +
"(times required):" +
"\n"+"\n")
for k, v in self.required_properties.items():
lead_str = tab + k
trail_str = str(len(v))
mid_str = " "*(max_str_length-len(lead_str)-len(trail_str))
ostream.write(lead_str+mid_str+trail_str+"\n")
ostream.write(
"\n" +
"Note: User constraints may require additional properties " +
"which are not" + "\n" + "reported here." + "\n")
[docs] def print_models_requiring_property(self, prop, ostream=None):
"""
Method to print a summary of the models in the flowsheet requiring a
given property.
Args:
prop : the property of interest.
ostream : output stream to print to. If not provided will print to
sys.stdout
Returns:
None
"""
if ostream is None:
ostream = sys.stdout
tab = " "*4
ostream.write("\n")
ostream.write(f"The following models in the Flowsheet "
f"require {prop}:"+"\n")
for m in self.required_properties[prop]:
ostream.write(tab+m+"\n")
[docs] def print_properties_required_by_model(self, model, ostream=None):
"""
Method to print a summary of the thermophysical properties required by
a given unit model.
Args:
model : the unit model of interest.
ostream : output stream to print to. If not provided will print to
sys.stdout
Returns:
None
"""
if not isinstance(model, str):
model = model.name
if ostream is None:
ostream = sys.stdout
tab = " "*4
ostream.write("\n")
ostream.write(f"The following properties are required by model "
f"{model}:"+"\n")
for m in self.list_properties_required_by_model(model):
ostream.write(tab+m+"\n")
class _InterrogatorStateBlock(StateBlock):
"""
This Class contains methods which should be applied to Property Blocks as a
whole, rather than individual elements of indexed Property Blocks.
"""
def initialize(blk, *args, **kwargs):
'''
Dummy initialization routine, This will raise an TypeError if a user
tries to initialize a model using the Interrogator Property Package
and tell them that the model cannot be solved.
'''
raise TypeError(
"Models constructed using the Property Interrogator package "
"cannot be used to solve a flowsheet. Please rebuild your "
"flowsheet using a valid property package.")
@declare_process_block_class("InterrogatorStateBlock",
block_class=_InterrogatorStateBlock)
class InterrogatorStateBlockData(StateBlockData):
"""
A dummy state block for interrogating flowsheets and recording physical
properties called for during construction.
"""
def build(self):
"""
Callable method for Block construction
"""
super(InterrogatorStateBlockData, self).build()
# Add dummy vars for building Ports and returning expressions
self._dummy_var = Var(initialize=1)
self._dummy_var_phase = Var(self.params.phase_list,
initialize=1)
self._dummy_var_comp = Var(self.params.component_list,
initialize=1)
self._dummy_var_phase_comp = Var(
self.params.phase_list,
self.params.component_list,
initialize=1)
# Define standard methods and log calls before returning dummy variable
def get_material_flow_terms(self, p, j):
self._log_call("material flow terms")
return self._dummy_var
def get_enthalpy_flow_terms(self, p):
self._log_call("enthalpy flow terms")
return self._dummy_var
def get_material_density_terms(self, p, j):
self._log_call("material density terms")
return self._dummy_var
def get_energy_density_terms(self, p):
self._log_call("energy density terms")
return self._dummy_var
# Set default values for required attributes so construction doesn't fail
def default_material_balance_type(self):
return MaterialBalanceType.componentPhase
def default_energy_balance_type(self):
return EnergyBalanceType.enthalpyTotal
def define_state_vars(b):
return {"_dummy_var": b._dummy_var}
def define_display_vars(b):
raise TypeError(
"Models constructed using the Property Interrogator package "
"should not be used for report methods.")
def get_material_flow_basis(b):
return MaterialFlowBasis.molar
def __getattr__(self, prop):
"""
Overload getattr to log each call for an unknown attribute, assuming
these are all properties.
Then, return a dummy variable with the correct indexing set.
"""
# Log call
self._log_call(prop)
# Return dummy var
if prop.endswith("_phase_comp"):
return self._dummy_var_phase_comp
elif prop.endswith("_phase"):
return self._dummy_var_phase
elif prop.endswith("_comp"):
return self._dummy_var_comp
else:
return self._dummy_var
def _log_call(self, prop):
"""
Method to log calls for properties in required_properties dict
"""
# Get the required_properties dict from parameter block
prop_dict = self.params.required_properties
# Get name of parent unit to record in required_properties
name = self._get_parent_unit_name()
try:
# If name is not listed for current property, add to list
if name not in prop_dict[prop]:
prop_dict[prop].append(name)
except KeyError:
# If a KeyError occurs, it means property has not been logged
# before, so add new entry to dict
prop_dict[prop] = [name]
def _get_parent_unit_name(self):
"""
Method to find the parent unit of the current StateBlock (if one
exists) and return this so it can be logged as in required_properties.
If current StateBlock has no parent unit, it is a stand-alone
StateBlock, so log the name of this instead.
"""
# Start with current block (i.e. a StateBlock)
parent = self
# Search up the parent tree until we find a UnitModel or top of tree
while True:
if isinstance(parent, UnitModelBlockData):
# If parent is a UnitModel, we have found our target
# Return parent name
return parent.name
else:
if parent.parent_block() is None:
# Check if the parent object has no parent, i.e. is top of
# tree. If so, we are dealling with a stand-alone
# StateBlock.
# Return name of parent_component to strip indices
return self.parent_component().name
else:
# Otherwise continue searching up tree
parent = parent.parent_block()