Modeling nanomaterial fate in wastewater treatment: Monte
Wastewater effluent and sewage sludge are predicted to be important release pathways for nanomaterials used in many consumer products. The uncertainty and variability of potential nanomaterial inputs, nanomaterial properties, and the operation of the wastewater treatment plant contribute to the difficulty of predicting sludge and effluent
Modeling nanomaterial fate in wastewater treatment: Monte Carlo simulation of silver nanoparticles (nano-Ag) Author: Hendren, Christine Ogilvie, Badireddy, Appala R., Casman, Elizabeth, Wiesner, Mark R. Source: The Science of the total environment 2013 v.449 pp. 418-425 ISSN: 0048-9697 Subject:
Modeling Nanomaterial Environmental Fate in Aquatic Systems
Modeling Nanomaterial Environmental Fate in Aquatic Systems to the current state of the science in modeling the fate and behavior of NMs in aquatic environments. We address the (e.g., wastewater treatment plants, incinerators) and environmental “compartments” (e.g., soil, air, water). Such
The earliest approaches to NM fate modeling relied on material flow analysis (MFA), which is a specific assessment methodology developed in the field of industrial ecology to track the stocks and flows of substances into and between technological “compartments” (e.g., wastewater treatment plants, incinerators) and environmental
Hendren, C.O., Badireddy, A.R., Casman, E. and Wiesner, M
Hendren, C.O., Badireddy, A.R., Casman, E. and Wiesner, M.R. (2013) Modeling Nanomaterial Fate in Wastewater Treatment Monte Carlo Simulation of Silver Nanoparticles
Modeling nanomaterial fate in wastewater treatment: Monte Carlo simulation of silver nanoparticles (nano-Ag) Article in Science of The Total Environment 449C:418-425 · February 2013 with 788 Reads
Science of the Total Environment - Elsevier
Modeling nanomaterial fate in wastewater treatment: Monte Carlo simulation of silver nanoparticles (nano-Ag) Christine Ogilvie Hendren, Appala, R. Badireddy, Elizabeth Casman, Mark R. Wiesner Science of the Total Environment , vol. 449 (2013), pp. 418-425
Hendren Christine Ogilvie, Badireddy Appala R., Casman Elizabeth and Wiesner Mark R. 2013 Modeling nanomaterial fate in wastewater treatment: Monte Carlo simulation of silver nanoparticles (nano-Ag) Science of the Total Environment 449 418-425. Crossref
Nanoparticles in wastewater treatment plants: a novel
Nanomaterial (NM) release into wastewater treatment plants (WWTPs) is inevitable due to increased production and application throughout past decades and in the future. Concern arose about environmental risks and impact on activated sludge. Environmental risk assessment (ERA) for NMs according to established guidelines is considered not suitable, because NMs exhibit unique characteristics.
Wastewater treatment For nano‐Ag and nano‐TiO 2 , a removal between 90.6 and 99.5% (uniform distribution) was used based on the only available study of ENM removal from wastewater 40 . A removal efficiency between 96.3 and 99.7% (uniform distribution) was estimated for CNT based on data about its aggregation in the presence of high
Water | Free Full-Text | Application of the Mathematical
The aim of the present work was the modeling of the wastewater treatment plant operation work using Monte Carlo method and different random variables probability distributions modeling. The analysis includes the following pollutants indicators; BOD5 (Biochemical Oxygen Demand), CODCr (Chemical Oxygen Demand), Total Suspended Solids (SSt), Total Nitrogen (TN), and Total Phosphorus (TP).
Publications Details for: Transatlantic Initiative for Nanotechnology and the Environment Grant Number R834574 RFA: Environmental Behavior, Bioavailability and Effects of Manufactured Nanomaterials - Joint US – UK Research Program (2009)
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