{"accessLevel": "public", "bureauCode": ["020:00"], "contactPoint": {"fn": "Terranna Haxton", "hasEmail": "mailto:haxton.terra@epa.gov"}, "description": "Data simulation for Desalination drinking water systems and industrial processes generating high salinity streams require practical brine management options for disposal and/or treatment.\u00a0 Treatment most often involves large capacity brine concentrating processes, on the order of 2000 m3/day, that rely on water evaporation, vapor compression, and condensation.\u00a0 Tornadic One-Pass\u2122 (TOP\u2122) technology adds an aerosol-generating \u201cPod\u201d device to the evaporation step with the goal of energy efficient operation even at smaller scales.\u00a0 The principles behind the tornadic flowfield that breaks up and aerosolizes water injected into the Pod are introduced.\u00a0 Design of a 6.8 m3/day TOP\u2122 demonstration system producing a NaCl slurry (55 wt% solids) from a 22 wt% NaCl influent is described.\u00a0 Simulations of the system with three influent brine concentrations and three forms of final NaCl concentrate are presented and predicted energy usage is compared to estimates for conventional systems.\u00a0 By varying simulation process parameters, the heat transfer performance of the evaporator/condenser is identified as having a large impact on overall efficiency.\u00a0 TOP\u2122The TOP\u2122 system is anticipated to be most competitive, on an energy usage basis, with conventional concentrator/crystallizer systems when processing higher salinity brines and producing final concentrates containing precipitated NaCl. \n\nThis dataset is associated with the following publication:\nVane, L., K. Rock, and D. Jordan. Energy efficient vortex-enhanced water evaporation technology for concentrated brine management: Theory and process simulation evaluation.   DESALINATION. Elsevier Science Ltd, New York, NY, USA, 522: 115427, (2022).", "distribution": [{"downloadURL": "https://pasteur.epa.gov/uploads/10.23719/1529410/Supplementary%20data%20for%20Energy%20efficient%20vortex%20enhanced%20water%20evaporation%20technology%20for%20concentrated%20brine%20management%20Theory%20and%20process%20simulation%20evaluation%20.docx", "mediaType": "application/vnd.openxmlformats-officedocument.wordprocessingml.document", "title": "Supplementary data for Energy efficient vortex enhanced water evaporation technology for concentrated brine management Theory and process simulation evaluation .docx"}], "identifier": "https://doi.org/10.23719/1529410", "keyword": ["Concentrate Management", "brine", "desalination", "zero liquid discharge"], "license": "https://pasteur.epa.gov/license/sciencehub-license.html", "modified": "2021-08-10", "programCode": ["020:000"], "publisher": {"name": "U.S. EPA Office of Research and Development (ORD)", "subOrganizationOf": {"name": "U.S. Environmental Protection Agency", "subOrganizationOf": {"name": "U.S. Government"}}}, "references": ["https://doi.org/10.1016/j.desal.2021.115427"], "rights": null, "title": "Supplementary data Energy efficient vortex-enhanced water evaporation technology for concentrated brine management: Theory and process simulation evaluation"}