2023 AEESP Research and Education Conference
June 20-23, 2023 | Boston, MA
Hosted at Northeastern University by a planning team of New England universities.
Conference Agenda
Overview and details of the sessions of this conference. Please select a date or location to show only sessions at that day or location. Please select a single session for detailed view (with abstracts and downloads if available).
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Session Overview | |
Location: Robinson Hall - Room 109 |
Date: Wednesday, 21/June/2023 | |
2:00pm - 3:00pm |
Wed1-2: Resource Recovery: Metals Location: Robinson Hall - Room 109 Chair: Hanqing Fan Direct lithium extraction from a high salinity brine in a continuous flow intercalative deionization system Is Graphitization of Plant Biomass a Sustainable Approach for Recovery of Indium from End-of-life Electronic Waste? Advancing lithium recovery from brines using membrane-capacitive deionization (M-CDI) modified with tailored biomimetic metal-organic framework (MOF). Leveraging Wood Chemistry for High-Performance Selenium Recovery with Reactive Evaporator Comparison of Nanofiltration and Electrodialysis for Lithium Magnesium Separation with a Unified Mass Transport Model |
3:15pm - 4:15pm |
Wed2-2: Resource Recovery: Nutrients-1 Location: Robinson Hall - Room 109 Chair: Yilin Zhang Pond-In-Pond: An alternative wastewater treatment system for reuse Low-cost, microscopy-based tool for quantitative monitoring of microalgal communities at a wastewater nutrient recovery facility Community Structure and Function During Periods of High-Performance and Upset at a Full-Scale Algal Wastewater Resource Recovery Facility Characterization of Microbial Community Composition and Dynamics in a Carbon-Based Advanced Treatment Train for Potable Reuse Deployment of a CRISPR-associated transposon system to engineer an acid fermenter microbial community for resource recovery |
4:30pm - 5:30pm |
Wed3-2: Resource Recovery: Nutrients-2 Location: Robinson Hall - Room 109 Chair: Michael Benjamin Eck Evaluating the Sustainability of New Organic Waste Infrastructure Options Using Multi-Objective Optimizations Effective nutrient recovery from digester centrate assisted by in situ production of acid/base in a novel electrochemical membrane system Optimization of the elution process in nitrogen recovery from urine via ion-exchange Examining the Mechanisms of Phosphate Capture by Metal Oxides Phosphorus Recovery from the Whole Digestate in an Electro Phosphorus Leaching and Precipitation Process |
Date: Thursday, 22/June/2023 | |
2:00pm - 3:00pm |
Thurs1-2: Wastewater Anaerobic Digestion Location: Robinson Hall - Room 109 Chair: Neha Sharma To what extent can solids retention time be reduced without deteriorating the performance of the thermal hydrolysis pretreatment-enhanced mesophilic anaerobic digestion Integrating high-fidelity real-time in situ electrochemical sensing with soft sensing for system visualization and precision process control of anaerobic digestors (AD). Model-derived insights in a two-phase anaerobic dynamic membrane bioreactor system for high-rate co-digestion Assessing anaerobic membrane bioreactor suitability for treatment of diverse influent types: A look into effluent antibiotic resistance gene and microbial community variability Stability prediction for co-digestion of sewage sludge and food waste using a modified biomethane potential test |
3:15pm - 4:15pm |
Thurs2-2: Remediation-1 Location: Robinson Hall - Room 109 Chair: Vasiliki Karanikola Distinct Microbial Communities Degrade Cellulose Diacetate Plastics in the Coastal Ocean Biotransformation and microbial community dynamics of 6:2 fluorotelomer sulfonate in water-saturated one-dimensional flow-through columns Toward a mechanistic framework linking pharmaceutical biotransformations with microbial methane oxidation and nitrate attenuation Leveraging Plant Nanobionics to Engineer Next-Generation Phytoremediation Technologies Microbially-mediated nitrate-dependent iron oxidation for remediation of selenium and nickel in mining wastewater |
4:30pm - 5:30pm |
Thurs3-2: Remediation-2 Location: Robinson Hall - Room 109 Chair: Devrim Kaya Nanosecond Bacteria Inactivation Realized by Locally Enhanced Electric Field Treatment Pulsed electrochemical treatment enables long-term effective 1,4-Dioxane pollutant degradation A stepwise potential fast chronoamperometry technique to degrade aminomethyl phosphonic acid (AMPA) Effects of operating parameters and co-contaminant on the efficiency of 1,4-dioxane removal by biological activate filtration process Photolysis of 3-nitro-1,2,4-triazol-5-one: mechanisms and products |