ARD TREATMENT - BATCH VS. CONTINUOUS FLOW REACTION SYSTEMS FOR SULPHATE PRECIPITATION, A TECHNICAL NOTE

L.R. Dinu; I. Balaiu; I. Cristea; V.R. Badescu; V. Dediu

doi:10.5593/sgem2017/51/s20.014

Scholarly record

ARD TREATMENT - BATCH VS. CONTINUOUS FLOW REACTION SYSTEMS FOR SULPHATE PRECIPITATION, A TECHNICAL NOTE

L.R. Dinu, I. Balaiu, I. Cristea, V.R. Badescu, V. Dediu

First published: 2017-06-20https://doi.org/10.5593/sgem2017/51/s20.014View metrics

Abstract

Sulphate is the specific anion present in the acid rock drainage (ARD). Although sulphate is considered benign or with low toxicity, some countries have set limits for the wastewater discharged to natural receivers, often 500 mg/L or 600 mg/L. By conventional treatment of the ARD with calcium hydroxide, some gypsum can precipitate, depending on the ARD initial sulphate content, but the conformity for sulphate will not be achieved, because the concentration correlated to gypsum solubility exceeds the limit value by roughly three times. An experimental study has been carried out to assess sulphate precipitation via ettringite process from acid rock drainage originating from closed non-ferrous mine site in the North Romania mining area. Tests for sulphate precipitation, using monocalcium aluminate cement as source of reactive aluminium for the ettringite formation, showed important differences regarding sulphate precipitation yield between batch and continuous flow reaction systems, due to reaction system itself. For continuous stirred tank reactor system (CSTR) a total space-time of 2.6 h is required when operating with cement dose equivalent to 265 mg Al for 1 g sulphate in order to safe meet the sulphate discharge limit of 600 mg/L for mine water with initial c(SO42-) = 2650 mg/L and at a temperature of 15 oC.

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Publication details

Title

ARD TREATMENT - BATCH VS. CONTINUOUS FLOW REACTION SYSTEMS FOR SULPHATE PRECIPITATION, A TECHNICAL NOTE

Authors

L.R. Dinu, I. Balaiu, I. Cristea, V.R. Badescu, V. Dediu

Proceedings

SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 17th International Multidisciplinary Scientific GeoConference SGEM2017, Ecology, Economics, Education and Legislation

Publisher

STEF92 Technology

Year

2017

Pages

101-108

SWS Citekey

Dinu201720101108

ISSN

1314-2704

ISBN

978-619-7408-08-9

Language

en

Publication type

Conference Paper

Keywords

mine water ARD sulphate CSTR ettringite

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