This unit model is formulated as a reactive single-inlet, double-outlet model form. See documentation for :ref:`reactive single-inlet, double-outlet Helper Methods<sidor_methods>`.
The constraint used to calculate energy consumption is described in the Additional Constraints section below. More details can be found in the unit model class.
Costing is calculated using the :py:meth:`~watertap.unit_models.zero_order.hydrothermal_gasification_zo.HTGZOData.cost_hydrothermal_gasification` method. For full details on costing, see documentation for the :ref:`zero-order costing package<zero_order_costing>`.
Description | Variable Name | Units |
---|---|---|
Inlet mass flowrate | flow_mass_in | t/h |
Electricity consumption of unit | electricity | kW |
Electricity intensity with respect to inlet flowrate | energy_electric_flow_mass | kWh/t |
Dosage of catalyst per inlet flow | catalyst_dosage | lb/t |
Catalyst flow | catalyst_flow | lb/h |
Description | Constraint Name |
---|---|
Constraint for inlet mass flowrate. | cons_flow_mass |
Constraint for electricity consumption based on inlet flowrate. | electricity_consumption |
Constraint for catalyst flow based on inlet flow rate. | eq_catalyst_flow |
.. index:: pair: watertap.unit_models.zero_order.hydrothermal_gasification_zo;hydrothermal_gasification_zo
.. currentmodule:: watertap.unit_models.zero_order.hydrothermal_gasification_zo
.. automodule:: watertap.unit_models.zero_order.hydrothermal_gasification_zo :members: :noindex: