CADETProcess.processModel.LumpedRateModelWithPores

class CADETProcess.processModel.LumpedRateModelWithPores(bed_porosity, particle_porosity, particle_radius, film_diffusion, pore_accessibility, c, _cp, _q, length, diameter, axial_dispersion, flow_direction, name)

Parameters for the lumped rate model with pores.

Attributes:

bed_porosityUnsignedFloat between 0 and 1.

Porosity of the bed

particle_porosityUnsignedFloat between 0 and 1.

Porosity of particles.

particle_radiusUnsignedFloat

Radius of the particles.

film_diffusionList of unsigned floats. Length depends on n_comp.

Diffusion rate for components in pore volume.

pore_accessibilityList of unsigned floats. Length depends on n_comp.

Accessibility of pores for components.

cList of unsigned floats. Length depends on n_comp

Initial concentration of the reactor.

cpList of unsigned floats. Length depends on n_comp

Initial concentration of the pores

qList of unsigned floats. Length depends on n_comp

Initial concntration of the bound phase.

solution_recorderLRMPRecorder

Solution recorder for the unit operation.

Methods

NTP(flow_rate)	Number of theoretical plates.
calculate_flow_rate_from_velocity(u0)	Calculate volumetric flow rate from interstitial velocity.
calculate_interstitial_rt(flow_rate)	Calculate mean residence time of a (non adsorbing) volume element.
calculate_interstitial_velocity(flow_rate)	Calculate flow velocity of a (non adsorbing) volume element.
calculate_superficial_rt(flow_rate)	Calculate mean residence time of a volume element in an empty column.
calculate_superficial_velocity(flow_rate)	Calculate superficial flow velocity of a volume element in an empty column.
check_required_parameters()	Verify if all required parameters are set.
set_axial_dispersion_from_NTP(NTP, flow_rate)	Set axial dispersion from number of theoretical plates (NTP).
set_diameter_from_interstitial_velocity(Q, u0)	Set diamter from flow rate and interstitial velocity.