------------------------------------------------------------------------------------
Stream Table
Inlet Treated Byproduct
Volumetric Flowrate 4.3750e-05 1.7374e-05 2.6376e-05
Mass Concentration H2O 997.55 996.71 998.09
Mass Concentration cod 2.3000 2.8958 3.0331e-05
Mass Concentration nonbiodegradable_cod 2.2857e-16 4.6045e-05 1.9076
Mass Concentration ammonium_as_nitrogen 0.10500 0.26444 3.0331e-05
Mass Concentration phosphate_as_phosphorous 0.050000 0.12595 3.0331e-05
====================================================================================
"""
assert output in stream.getvalue()
db = Database()
params = db._get_technology("anaerobic_mbr_mec")
class Test_AnMBRMEC_ZO_subtype:
@pytest.fixture(scope="class")
def model(self):
m = ConcreteModel()
m.fs = FlowsheetBlock(default={"dynamic": False})
m.fs.params = WaterParameterBlock(
default={"solute_list": ["cod", "nonbiodegradable_cod"]})
m.fs.unit = AnaerobicMBRMECZO(default={
"property_package": m.fs.params,
"database": db
def build(erd_type=None):
# flowsheet set up
m = ConcreteModel()
m.db = Database()
m.erd_type = erd_type
m.fs = FlowsheetBlock(default={"dynamic": False})
m.fs.prop_prtrt = prop_ZO.WaterParameterBlock(
default={"solute_list": ["tds", "tss"]}
)
density = 1023.5 * pyunits.kg / pyunits.m**3
m.fs.prop_prtrt.dens_mass_default = density
m.fs.prop_psttrt = prop_ZO.WaterParameterBlock(default={"solute_list": ["tds"]})
m.fs.prop_desal = prop_SW.SeawaterParameterBlock()
# block structure
prtrt = m.fs.pretreatment = Block()
desal = m.fs.desalination = Block()
psttrt = m.fs.posttreatment = Block()
# unit models
m.fs.feed = FeedZO(default={"property_package": m.fs.prop_prtrt})
# pretreatment
prtrt.intake = SWOnshoreIntakeZO(default={"property_package": m.fs.prop_prtrt})
prtrt.ferric_chloride_addition = ChemicalAdditionZO(
default={
"property_package": m.fs.prop_prtrt,
"database": m.db,
"process_subtype": "ferric_chloride",
}
)
prtrt.chlorination = ChlorinationZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
prtrt.static_mixer = StaticMixerZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
prtrt.storage_tank_1 = StorageTankZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
prtrt.media_filtration = MediaFiltrationZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
prtrt.backwash_handling = BackwashSolidsHandlingZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
prtrt.anti_scalant_addition = ChemicalAdditionZO(
default={
"property_package": m.fs.prop_prtrt,
"database": m.db,
"process_subtype": "anti-scalant",
}
)
prtrt.cartridge_filtration = CartridgeFiltrationZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
# desalination
desal.P1 = Pump(default={"property_package": m.fs.prop_desal})
desal.RO = ReverseOsmosis0D(
default={
"property_package": m.fs.prop_desal,
"has_pressure_change": True,
"pressure_change_type": PressureChangeType.calculated,
"mass_transfer_coefficient": MassTransferCoefficient.calculated,
"concentration_polarization_type": ConcentrationPolarizationType.calculated,
}
)
desal.RO.width.setub(5000)
desal.RO.area.setub(20000)
if erd_type == "pressure_exchanger":
desal.S1 = Separator(
default={"property_package": m.fs.prop_desal, "outlet_list": ["P1", "PXR"]}
)
desal.M1 = Mixer(
default={
"property_package": m.fs.prop_desal,
"momentum_mixing_type": MomentumMixingType.equality, # booster pump will match pressure
"inlet_list": ["P1", "P2"],
}
)
desal.PXR = PressureExchanger(default={"property_package": m.fs.prop_desal})
desal.P2 = Pump(default={"property_package": m.fs.prop_desal})
elif erd_type == "pump_as_turbine":
desal.ERD = EnergyRecoveryDevice(default={"property_package": m.fs.prop_desal})
else:
raise ConfigurationError(
"erd_type was {}, but can only "
"be pressure_exchanger or pump_as_turbine"
"".format(erd_type)
)
# posttreatment
psttrt.storage_tank_2 = StorageTankZO(
default={"property_package": m.fs.prop_psttrt, "database": m.db}
)
psttrt.uv_aop = UVAOPZO(
default={
"property_package": m.fs.prop_psttrt,
"database": m.db,
"process_subtype": "hydrogen_peroxide",
}
)
psttrt.co2_addition = CO2AdditionZO(
default={"property_package": m.fs.prop_psttrt, "database": m.db}
)
psttrt.lime_addition = ChemicalAdditionZO(
default={
"property_package": m.fs.prop_psttrt,
"database": m.db,
"process_subtype": "lime",
}
)
psttrt.storage_tank_3 = StorageTankZO(
default={"property_package": m.fs.prop_psttrt, "database": m.db}
)
# product and disposal
m.fs.municipal = MunicipalDrinkingZO(
default={"property_package": m.fs.prop_psttrt, "database": m.db}
)
m.fs.landfill = LandfillZO(
default={"property_package": m.fs.prop_prtrt, "database": m.db}
)
m.fs.disposal = Product(default={"property_package": m.fs.prop_desal})
# translator blocks
m.fs.tb_prtrt_desal = Translator(
default={
"inlet_property_package": m.fs.prop_prtrt,
"outlet_property_package": m.fs.prop_desal,
}
)
@m.fs.tb_prtrt_desal.Constraint(["H2O", "tds"])
def eq_flow_mass_comp(blk, j):
if j == "tds":
jj = "TDS"
else:
jj = j
return (
blk.properties_in[0].flow_mass_comp[j]
== blk.properties_out[0].flow_mass_phase_comp["Liq", jj]
)
m.fs.tb_desal_psttrt = Translator(
default={
"inlet_property_package": m.fs.prop_desal,
"outlet_property_package": m.fs.prop_psttrt,
}
)
@m.fs.tb_desal_psttrt.Constraint(["H2O", "TDS"])
def eq_flow_mass_comp(blk, j):
if j == "TDS":
jj = "tds"
else:
jj = j
return (
blk.properties_in[0].flow_mass_phase_comp["Liq", j]
== blk.properties_out[0].flow_mass_comp[jj]
)
# connections
m.fs.s_feed = Arc(source=m.fs.feed.outlet, destination=prtrt.intake.inlet)
prtrt.s01 = Arc(
source=prtrt.intake.outlet, destination=prtrt.ferric_chloride_addition.inlet
)
prtrt.s02 = Arc(
source=prtrt.ferric_chloride_addition.outlet,
destination=prtrt.chlorination.inlet,
)
prtrt.s03 = Arc(
source=prtrt.chlorination.treated, destination=prtrt.static_mixer.inlet
)
prtrt.s04 = Arc(
source=prtrt.static_mixer.outlet, destination=prtrt.storage_tank_1.inlet
)
prtrt.s05 = Arc(
source=prtrt.storage_tank_1.outlet, destination=prtrt.media_filtration.inlet
)
prtrt.s06 = Arc(
source=prtrt.media_filtration.byproduct,
destination=prtrt.backwash_handling.inlet,
)
prtrt.s07 = Arc(
source=prtrt.media_filtration.treated,
destination=prtrt.anti_scalant_addition.inlet,
)
prtrt.s08 = Arc(
source=prtrt.anti_scalant_addition.outlet,
destination=prtrt.cartridge_filtration.inlet,
)
m.fs.s_prtrt_tb = Arc(
source=prtrt.cartridge_filtration.treated, destination=m.fs.tb_prtrt_desal.inlet
)
m.fs.s_landfill = Arc(
source=prtrt.backwash_handling.byproduct, destination=m.fs.landfill.inlet
)
if erd_type == "pressure_exchanger":
m.fs.s_tb_desal = Arc(
source=m.fs.tb_prtrt_desal.outlet, destination=desal.S1.inlet
)
desal.s01 = Arc(source=desal.S1.P1, destination=desal.P1.inlet)
desal.s02 = Arc(source=desal.P1.outlet, destination=desal.M1.P1)
desal.s03 = Arc(source=desal.M1.outlet, destination=desal.RO.inlet)
desal.s04 = Arc(
source=desal.RO.retentate, destination=desal.PXR.high_pressure_inlet
)
desal.s05 = Arc(source=desal.S1.PXR, destination=desal.PXR.low_pressure_inlet)
desal.s06 = Arc(
source=desal.PXR.low_pressure_outlet, destination=desal.P2.inlet
)
desal.s07 = Arc(source=desal.P2.outlet, destination=desal.M1.P2)
m.fs.s_disposal = Arc(
source=desal.PXR.high_pressure_outlet, destination=m.fs.disposal.inlet
)
elif erd_type == "pump_as_turbine":
m.fs.s_tb_desal = Arc(
source=m.fs.tb_prtrt_desal.outlet, destination=desal.P1.inlet
)
desal.s01 = Arc(source=desal.P1.outlet, destination=desal.RO.inlet)
desal.s02 = Arc(source=desal.RO.retentate, destination=desal.ERD.inlet)
m.fs.s_disposal = Arc(source=desal.ERD.outlet, destination=m.fs.disposal.inlet)
m.fs.s_desal_tb = Arc(
source=desal.RO.permeate, destination=m.fs.tb_desal_psttrt.inlet
)
m.fs.s_tb_psttrt = Arc(
source=m.fs.tb_desal_psttrt.outlet, destination=psttrt.storage_tank_2.inlet
)
psttrt.s01 = Arc(
source=psttrt.storage_tank_2.outlet, destination=psttrt.uv_aop.inlet
)
psttrt.s02 = Arc(
source=psttrt.uv_aop.treated, destination=psttrt.co2_addition.inlet
)
psttrt.s03 = Arc(
source=psttrt.co2_addition.outlet, destination=psttrt.lime_addition.inlet
)
psttrt.s04 = Arc(
source=psttrt.lime_addition.outlet, destination=psttrt.storage_tank_3.inlet
)
m.fs.s_municipal = Arc(
source=psttrt.storage_tank_3.outlet, destination=m.fs.municipal.inlet
)
TransformationFactory("network.expand_arcs").apply_to(m)
# scaling
# set default property values
m.fs.prop_desal.set_default_scaling(
"flow_mass_phase_comp", 1e-3, index=("Liq", "H2O")
)
m.fs.prop_desal.set_default_scaling(
"flow_mass_phase_comp", 1e-1, index=("Liq", "TDS")
)
# set unit model values
iscale.set_scaling_factor(desal.P1.control_volume.work, 1e-5)
iscale.set_scaling_factor(desal.RO.area, 1e-4)
if erd_type == "pressure_exchanger":
iscale.set_scaling_factor(desal.P2.control_volume.work, 1e-5)
iscale.set_scaling_factor(desal.PXR.low_pressure_side.work, 1e-5)
iscale.set_scaling_factor(desal.PXR.high_pressure_side.work, 1e-5)
elif erd_type == "pump_as_turbine":
iscale.set_scaling_factor(desal.ERD.control_volume.work, 1e-5)
# calculate and propagate scaling factors
iscale.calculate_scaling_factors(m)
return m
