Module 3 Exercise 1 Solution:¶
Create a Heater¶
In [1]:
import pyomo.environ as pe
from pyomo.common.config import ConfigBlock, ConfigValue, In
from idaes.core import (ControlVolume0DBlock,
declare_process_block_class,
EnergyBalanceType,
MomentumBalanceType,
MaterialBalanceType,
UnitModelBlockData,
useDefault,
FlowsheetBlock)
from idaes.core.util.config import is_physical_parameter_block
from methanol_param_VLE import PhysicalParameterBlock
from idaes.core.util.misc import add_object_reference
In [2]:
def make_control_volume(unit, name, config):
if config.dynamic is not False:
raise ValueError('IdealGasIsentropcCompressor does not support dynamics')
if config.has_holdup is not False:
raise ValueError('IdealGasIsentropcCompressor does not support holdup')
control_volume = ControlVolume0DBlock(default={"property_package": config.property_package,
"property_package_args": config.property_package_args})
setattr(unit, name, control_volume)
control_volume.add_state_blocks(has_phase_equilibrium=config.has_phase_equilibrium)
control_volume.add_material_balances(balance_type=config.material_balance_type,
has_phase_equilibrium=config.has_phase_equilibrium)
control_volume.add_total_enthalpy_balances(has_heat_of_reaction=False,
has_heat_transfer=True,
has_work_transfer=False)
control_volume.add_total_pressure_balances(has_pressure_change=False)
In [3]:
def make_config_block(config):
config.declare("material_balance_type",
ConfigValue(default=MaterialBalanceType.componentPhase, domain=In(MaterialBalanceType)))
config.declare("energy_balance_type",
ConfigValue(default=EnergyBalanceType.enthalpyTotal, domain=In([EnergyBalanceType.enthalpyTotal])))
config.declare("momentum_balance_type",
ConfigValue(default=MomentumBalanceType.pressureTotal, domain=In([MomentumBalanceType.pressureTotal])))
config.declare("has_phase_equilibrium",
ConfigValue(default=False, domain=In([False])))
config.declare("has_pressure_change",
ConfigValue(default=False, domain=In([False])))
config.declare("property_package",
ConfigValue(default=useDefault, domain=is_physical_parameter_block))
config.declare("property_package_args",
ConfigBlock(implicit=True))
In [4]:
@declare_process_block_class("Heater")
class HeaterData(UnitModelBlockData):
CONFIG = UnitModelBlockData.CONFIG()
make_config_block(CONFIG)
def build(self):
super(HeaterData, self).build()
make_control_volume(self, "control_volume", self.config)
self.add_inlet_port()
self.add_outlet_port()
add_object_reference(self, 'heat', self.control_volume.heat[0.0])
In [5]:
m = pe.ConcreteModel()
m.fs = fs = FlowsheetBlock(default={"dynamic": False})
fs.properties = props = PhysicalParameterBlock(default={'Cp': 0.038056, 'valid_phase': 'Vap'})
fs.heater = Heater(default={"property_package": props, 'has_phase_equilibrium': False})
fs.heater.inlet.flow_mol.fix(1)
fs.heater.inlet.mole_frac[0, 'CH3OH'].fix(0.25)
fs.heater.inlet.mole_frac[0, 'CH4'].fix(0.25)
fs.heater.inlet.mole_frac[0, 'H2'].fix(0.25)
fs.heater.inlet.mole_frac[0, 'CO'].fix(0.25)
fs.heater.inlet.pressure.fix(0.1)
fs.heater.inlet.temperature.fix(3)
fs.heater.heat.fix(5)
opt = pe.SolverFactory('ipopt')
opt.options['linear_solver'] = 'mumps'
res = opt.solve(m, tee=False)
print(res.solver.termination_condition)
fs.heater.outlet.display()
In [ ]: