Title

Laboratory-Scale Characterization Of A Green Sorption Medium For On-Site Sewage Treatment And Disposal To Improve Nutrient Removal

Keywords

Denitrification; Green sorption medium; Groundwater quality; Nitrification; On-site wastewater; Phosphorus removal

Abstract

On-site sewage treatment and disposal systems (OSTDSs) are oftentimes used to treat human waste accruing from nearly one-third of the U.S. population. Operation of OSTDS contributes a large fraction of nutrient loads to groundwater aquifers. This article aims to develop and present a new "green sorption medium," which has not been fully tested before, to be placed in the vadose zone of the OSTDS underground drain fields. This green sorption medium is comprised of recycled materials with "green" implications for nutrient absorption and adsorption. The composition or recipe of the new material mix was derived based on a thorough literature review. Technical coverage of this study includes material characterization, batch isotherm identification, and a microcosm study leading to improve the application potential of these new material mixes. Batch absorption isotherm data was well fitted by the Langmuir and Freundlich isotherm models. Under the hydraulic retention time of 24h in a laboratory-scale microcosm of unique functional design, removal efficiencies were found significant for all pollutants of concern. Running as a continuous system, the microcosm, filled with the preselected recipes, was dosed with septic effluent containing 1.76L-1 of ammonia, 0.166L-1 of nitrite, 0.352L-1 of nitrate, and 1.498L-1 of orthophosphorus. This study confirmed 55% removal efficiency of nitrates and 89% of phosphorus under a hydraulic retention time of 24h. With the aid of Langmuir isotherm data, the theoretical life expectancy of the proposed sorption media mix used in the microcosm was estimated to be 1.2 years for phosphorus sorption. Results obtained largely complement current knowledge on the use of green sorption media for nutrient removal. These findings should also elaborate full-scale field studies in the future. © Mary Ann Liebert, Inc.

Publication Date

4-1-2010

Publication Title

Environmental Engineering Science

Volume

27

Issue

4

Number of Pages

301-312

Document Type

Review

Personal Identifier

scopus

DOI Link

https://doi.org/10.1089/ees.2009.0256

Socpus ID

77951121002 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/77951121002

This document is currently not available here.

Share

COinS