watertap.examples.flowsheets.case_studies.wastewater_resource_recovery.dye_desalination package
Submodules
watertap.examples.flowsheets.case_studies.wastewater_resource_recovery.dye_desalination.dye_desalination module
watertap.examples.flowsheets.case_studies.wastewater_resource_recovery.dye_desalination.dye_desalination_ui module
watertap.examples.flowsheets.case_studies.wastewater_resource_recovery.dye_desalination.dye_desalination_withRO module
[1] Zaharaddeen N. Garba, Zakariyya U. Zango, A. A. Babando and A. Galadima. “Competitive adsorption of dyes onto granular activated carbon”, 2015, Journal of Chemical and Pharmaceutical Research, pp. 710-717
[2] Jong Jib Lee. “Isotherm, Kinetic and Thermodynamic Characteristics for Adsorption of Congo Red by Activated Carbon”, 2014, Korean Chemical Engineering Research, Vol. 53 Iss. 1, pp. 64-70
- watertap.examples.flowsheets.case_studies.wastewater_resource_recovery.dye_desalination.dye_desalination_withRO.optimize_operation(m)[source]
- Unfixes RO operating conditions and sets solver objective
Operating pressure: 1 - 83 bar
Crossflow velocity: 10 - 30 cm/s
Membrane area: 50 - 5000 m2
Volumetric recovery: 10 - 75 %