Source code for watertap.unit_models.zero_order.magprex_zo

###############################################################################
# WaterTAP Copyright (c) 2021, The Regents of the University of California,
# through Lawrence Berkeley National Laboratory, Oak Ridge National
# Laboratory, National Renewable Energy Laboratory, and National Energy
# Technology Laboratory (subject to receipt of any required approvals from
# the U.S. Dept. of Energy). All rights reserved.
#
# Please see the files COPYRIGHT.md and LICENSE.md for full copyright and license
# information, respectively. These files are also available online at the URL
# "https://github.com/watertap-org/watertap/"
#
###############################################################################
"""
This module contains a zero-order representation of a Magprex reactor unit
for struvite precipitation.
"""

from pyomo.environ import units as pyunits, Var
from idaes.core import declare_process_block_class
from watertap.core import build_sido_reactive, constant_intensity, ZeroOrderBaseData

# Some more information about this module
__author__ = "Marcus Holly"



[docs]@declare_process_block_class("MagprexZO")
class MagprexZOData(ZeroOrderBaseData):
    """
    Zero-Order model for a Magprex reactor unit.
    """

    CONFIG = ZeroOrderBaseData.CONFIG()


[docs]    def build(self):
        super().build()

        self._tech_type = "magprex"

        build_sido_reactive(self)
        constant_intensity(self)

        self.magnesium_chloride_dosage = Var(
            units=pyunits.dimensionless,
            bounds=(0, None),
            doc="Dosage of magnesium chloride per sludge",
        )

        self._fixed_perf_vars.append(self.magnesium_chloride_dosage)

        self._perf_var_dict[
            "Dosage of magnesium chloride per sludge"
        ] = self.magnesium_chloride_dosage

        self.MgCl2_flowrate = Var(
            self.flowsheet().time,
            units=pyunits.kg / pyunits.hr,
            bounds=(0, None),
            doc="Magnesium chloride flowrate",
        )

        self._perf_var_dict["Magnesium Chloride Demand"] = self.MgCl2_flowrate

        @self.Constraint(
            self.flowsheet().time,
            doc="Constraint for magnesium chloride demand based on sludge flowrate.",
        )
        def MgCl2_demand(b, t):
            return b.MgCl2_flowrate[t] == (
                b.magnesium_chloride_dosage
                * pyunits.convert(
                    b.properties_byproduct[t].flow_mass_comp["struvite"],
                    to_units=pyunits.kg / pyunits.hour,
                )
            )