batch_long_ternary.add_event('feed_on', 'flow_sheet.feed.flow_rate', Q)
batch_long_ternary.add_event('feed_off', 'flow_sheet.feed.flow_rate', 0.0)
batch_long_ternary.add_duration('feed_duration', 'feed_on', 'feed_off')
batch_long_ternary.add_event('eluent_on', 'flow_sheet.eluent.flow_rate', Q)
batch_long_ternary.add_event('eluent_off', 'flow_sheet.eluent.flow_rate', 0.0)
batch_long_ternary.add_event_dependency('eluent_on', ['feed_off'])
batch_long_ternary.add_event_dependency('eluent_off', ['feed_on'])
batch_long_ternary.add_event_dependency('feed_off',
['feed_on', 'feed_duration'], [1, 1])
batch_long_ternary.cycle_time = 135.134
batch_long_ternary.feed_duration.time = 16.268
if __name__ == '__main__':
from CADETProcess.simulation import Cadet
process_simulator = Cadet()
process_simulator.evaluate_stationarity = True
batch_long_ternary_sim_results = process_simulator.simulate(
batch_long_ternary)
batch_long_ternary_sim_results.save(case_dir)
from CADETProcess.fractionation import optimize_fractionation
batch_long_ternary_frac = optimize_fractionation(
batch_long_ternary_sim_results.chromatograms,
batch_long_ternary.process_meta,
purity_required=[0, 0.95, 0])
batch_long_ternary_frac.save(case_dir)
ssr_binary.add_event('recycle_on', 'flow_sheet.column.output_state', 0)
ssr_binary.add_event('recycle_off', 'flow_sheet.column.output_state', 1)
ssr_binary.add_event_dependency('feed_on', ['inject_off'])
ssr_binary.add_event_dependency('feed_off', ['feed_on', 'feed_duration'],
[1, 1])
ssr_binary.add_event_dependency(
'inject_off', ['inject_on', 'feed_duration', 'recycle_off', 'recycle_on'],
[1, 1, 1, -1])
# Set process times
ssr_binary.cycle_time = 191.11
ssr_binary.feed_duration.time = 42.956
ssr_binary.recycle_on.time = 354.081
ssr_binary.recycle_off.time = 358.552
if __name__ == '__main__':
from CADETProcess.simulation import Cadet
process_simulator = Cadet()
process_simulator.evaluate_stationarity = True
process_simulator.n_cycles_min = 4
ssr_binary_sim_results = process_simulator.simulate(ssr_binary)
ssr_binary_sim_results.save(case_dir)
from CADETProcess.fractionation import optimize_fractionation
ssr_binary_frac = optimize_fractionation(
ssr_binary_sim_results.chromatograms,
ssr_binary.process_meta,
purity_required=0.95)
ssr_binary_frac.save(case_dir)
serial_ternary.add_event('serial_on', 'flow_sheet.column_1.output_state', 1)
serial_ternary.add_event('serial_off', 'flow_sheet.column_1.output_state', 0)
serial_ternary.add_event('eluent_2_on', 'flow_sheet.eluent_2.flow_rate', Q)
serial_ternary.add_event('eluent_2_off', 'flow_sheet.eluent_2.flow_rate', 0.0)
serial_ternary.add_event_dependency('eluent_2_on', ['serial_off'], [1])
serial_ternary.add_event_dependency('eluent_2_off', ['serial_on'], [1])
# Set process times
serial_ternary.cycle_time = 210.121
serial_ternary.feed_duration.time = 45.859
serial_ternary.serial_on.time = 119.017
serial_ternary.serial_off.time = 47.634
if __name__ == '__main__':
from CADETProcess.simulation import Cadet
process_simulator = Cadet()
process_simulator.evaluate_stationarity = True
serial_ternary_sim_results = process_simulator.simulate(serial_ternary)
serial_ternary_sim_results.save(case_dir)
from CADETProcess.fractionation import optimize_fractionation
serial_ternary_frac = optimize_fractionation(
serial_ternary_sim_results.chromatograms,
serial_ternary.process_meta,
purity_required=[0.95, 0.95, 0])
serial_ternary_frac.save(case_dir)