Stabilization of sulphidic mine tailings by different treatment methods:heavy metals and sulphate immobilization

Kiventerä, J. (Jenni)

22 October 2019

Abstract Millions of tons of mine tailings are generated worldwide annually. Since many valuable metals such as Ag, Cu, Pb, Zn, Au and Ni are usually incorporated into sulphidic minerals, a large proportion of the tailings generated contain high amounts of sulphates and heavy metals. Some of these tailings are used as paste backfill material at mining sites, but large amounts are still being deposited into the tailings dams under water coverage. Sulphidic minerals are stable underground but after mining of the ore and several processing steps these minerals can be oxidized when they come into contact with water and air. This oxidation generates acid and thus reduces the pH of the surrounding environment. Furthermore, the heavy metals present in the mine tailings can be leached into the environment. This phenomenon, called Acid Mine Drainage (AMD), is one of the most critical environmental issues related to the management of sulphidic-rich tailings. Since AMD generation can still occur hundreds of years after closure of the mine, the mine tailings need stable, sustainable and economically viable management methods in order to prevent AMD production in the long term. The aim of this PhD thesis was to study various solidification/stabilization (S/S) methods for the immobilization of sulphidic mine tailings. The main focus was to develop a suitable chemical environment for achieving effective heavy metal (mainly arsenic) and sulphate immobilization while simultaneously ensuring good mechanical properties. Three treatment methods were tested: alkali activation, stabilization using hydrated lime (Ca(OH)2) and blast furnace slag (GBFS), and calcium sulphoaluminate-belite (CSAB) cement stabilization. The mine tailings used in this study contained large amounts of sulphates and heavy metals such as Cr, Cu, Ni, Mn, Zn, V and As. The leaching of arsenic and sulphates from powdered tailings exceeded the legal limits for regular and inert waste. All treatment methods were found to generate a hardened matrix that was suitable for use as a backfilling or construction material, but the calcium-based binding system was the most suitable for effective immobilization of all the heavy metals (including arsenic) and the sulphates. Precipitation in the form of calcium sulphates/calcium arsenate and the formation of ettringite are the main stabilization methods employed in calcium-based stabilization/solidification (S/S) systems. Some evidence of physical encapsulation occurring simultaneously with chemical stabilization was noted. These results can be exploited further to develop more sustainable mine tailing management systems for use in the future. The tailings could be stored in a dry landfill area instead of in tailing dams, and in this way a long-term decrease in AMD generation could be achieved, together with a high potential for recycling. / Tiivistelmä Monet arvometallit kuten kulta, kupari ja nikkeli ovat sitoutuneena sulfidipitoisiin mineraaleihin. Louhittaessa ja rikastettaessa näitä sulfidimineraaleja syntyy miljoonia tonneja sulfidipitoisia rikastushiekkoja vuosittain. Rikastushiekat voivat sisältää myös runsaasti erilaisia raskasmetalleja. Osa rikastushiekoista hyödynnetään kaivostäytössä, mutta suurin osa rikastushiekoista läjitetään edelleen ympäristöön rikastushiekka-altaisiin veden alle. Kun sulfidipitoinen malmi kaivetaan ja käsitellään, sulfidiset mineraalit hapettuvat ollessaan kosketuksissa veden ja hapen kanssa. Hapettuessaan ne muodostavat rikkihappoa, laskien ympäristön pH:ta jolloin useimmat raskasmetallit liukenevat ympäristöön. Muodostuvia happamia kaivosvesiä voi syntyä vielä pitkään kaivoksen sulkemisen jälkeen ja ovat näin ollen yksi suurimmista kaivosteollisuuteen liittyvistä ympäristöongelmista. Lisäksi suuret rikastushiekka-altaat voivat aiheuttaa vaaraa myös ihmisille, mikäli altaan rakenteet pettävät. Rikastushiekkojen kestäviä ja ympäristöystävällisiä varastointimenetelmiä täytyy kehittää, jotta näitä ongelmia voidaan tulevaisuudessa ehkäistä. Tässä työssä tutkittiin menetelmiä, joilla kultakaivoksella syntyvät sulfidipitoiset vaaralliseksi jätteeksi luokitellut rikastushiekat saataisiin stabiloitua tehokkaasti. Työssä keskityttiin kolmeen erilaiseen menetelmään: alkali-aktivointiin, stabilointiin kalsiumhydroksidin ja masuunikuonan avulla ja stabilointiin CSAB sementin avulla. Valmistettujen materiaalien mekaanisia ja kemiallisia ominaisuuksia arvioitiin. Tavoitteena oli ymmärtää, miten eri menetelmät soveltuvat raskasmetallien (erityisesti arseenin) ja sulfaattien sitoutumiseen ja mikä on eri komponenttien rooli reaktioissa. Alkali-aktivoimalla rikastushiekkaa sopivan sidosaineen kanssa saavutettiin hyvät mekaaniset ominaisuudet ja useimmat haitta-aineet sitoutuivat materiaaliin. Ongelmia aiheuttivat edelleen sulfaatit ja arseeni. Kalsiumpohjaiset menetelmät sitoivat raskasmetallit (myös arseenin) ja sulfaatit tehokkaimmin. Sulfaatit ja arseeni saostuivat muodostaen niukkaliukoisia komponentteja kalsiumin kanssa. Samanaikaisesti rakenteeseen muodostui ettringiittiä, jolla on tutkitusti hyvä kyky sitoa erilaisia raskasmetalleja rakenteeseensa. Raskasmetallit myös kapseloituivat rakenteen sisään. Työn tuloksia voidaan hyödyntää, kehitettäessä rikastushiekkojen turvallista varastointia. Kun materiaalille saavutetaan riittävän hyvä lujuus ja kemiallinen stabiilius, rikastushiekat voitaisiin läjittää tulevaisuudessa kuivalle maalle altaan sijaan. Näin vältyttäisiin rikastushiekka-altaiden rakentamiselta ja voitaisiin vähentää happamien kaivosvesien muodostumista pitkällä ajanjaksolla. Saavutettujen tulosten perusteella rikastushiekkoja voidaan mahdollisesti tulevaisuudessa hyödyntää myös erilaisissa betonin tapaisissa rakennusmateriaaleissa.

CSAB cement

alkali-activation

ettringite formation

heavy metal immobilization

mine tailing management

sulfate stabilization

sulfidic mine tailings

CSAB sementti

alkali-aktivointi

ettringiitti

raskasmetallien stabilointi

sulfaatin stabilointi

sulfidiset rikastushiekat

[pt] AVALIAÇÃO DOS PROCESSOS DE DISPOSIÇÃO E SECAGEM DE UM REJEITO DE LAVAGEM DE BAUXITA / [en] EVALUATION OF THE DISPOSAL AND DRYING PROCESSES OF A WASHED BAUXITE TAILINGS

CAIO ARAUJO MARINHO

25 April 2024

[pt] O gerenciamento e estocagem dos residuos de mineração apresentam desafios constantes devido às crescentes demandas do setor, dessa forma, o aperfeiçoamento dos processos de gestão dos rejeitos e a otimização da capacidade de estocagem dos reservatórios são fundamentais para a viabilidade de um empreendimento de exploração de recursos minerais. O presente trabalho apresenta a metodologia utilizada para avaliação do processo de ressecamento de rejeito da lavagem de bauxita da Mineração Rio do Norte, sendo proposta a execução de dois reservatórios experimentais, em escala piloto, possibilitando o monitoramento do comportamento de ressecamento do rejeito in loco e a cxecução de ensaios em laboratório. A proposta do estudo é avaliar o comportamento do rejeito quando disposto em diferentes espessuras de camadas, incluindo aspectos de condições climáticas e tempo de secagem. O objetivo foi calibrar o modelo de enchimento e otimizar a área dos reservatórios contidos no sistema de contenção de rejeitos da MRN, aperfeiçoando a previsibilidade do final da vida útil das estruturas e maior assertividade do balanço de massas no longo prazo. Os estudos de campo e laboratório consistiram na disposição e monitoramento de camadas com 0,50 m e 0,80 m. Dessa forma, foi possível a avaliacão dos teores de sólidos ao final do periodo de secagem das camadas dispostas, avaliar as curvas de enchimento e recalque do rejeito, medir os ângulos de repouso no momento da disposição e após periodo de ressecamento e analisar a morfologia e desenvolvimento das trincas de contração. Com base nos resultados laboratoriais e de campo obtidos nesse trabalho, conclui-se que o comportamento do processo de ressecamento do rejeito é influenciado por uma série de fatores, podendo citar a permeabilidade do fiundo dos reservatórios as condições climáticas (incidência pluviométrica e taxa de evaporação) como os mais impactantes ao processo. No trabalho não foi observado uma grande diferença do comportamento de rejeito para as camadas de 0,50 cm e 0.80 cm. / [en] The management and storage of mining waste present constant challenges due tothe increasing demands of the sector. Therefore, improving waste managementprocesses and optimizing the storage capacity of reservoirs are fundamental to theviability of a mineral resource exploration project. This study presents themethodology used to evaluate the desiccation process of washed bauxite tailings atMineração Rio do Norte (MRN). The implementation of two experimentalreservoirs at a pilot scale is proposed, allowing on-site monitoring and laboratorytests for the tailings desiccation behavior. The objective of the study is to assess thetailings behavior when disposed in different layer thicknesses, considering aspectssuch as weather conditions and drying time. The aim was to calibrate the fillingmodel and optimize the area of the reservoirs within MRN s tailings storage facility,thus improving the predictability of the structures end-of-life and enhancing theaccuracy of long-term mass balance. Field and laboratory studies involved thedeposition and monitoring of layers with thicknesses of 0.50 m and 0.80 m. Thisenabled the evaluation of the solids content at the end of the drying period.assessment of filling and settlement curves, measurement of the angle of repose atthe time of deposition and after the drying period, and analysis of crack morphologyand development. Based on the field and laboratory results obtained in this study,it can be concluded that the behavior of the tailings desiccation process is influencedby several factors. The permeability of the reservoir bottom and weather conditions(rainfall and evaporation rate) are identified as the most impactful to the process.No significant difference in the behavior of the waste was observed between the 0.50 cm and 0.80 cm layers.

[pt] RESSECAMENTO

[pt] CAMPO EXPERIMENTAL

[pt] GERENCIAMENTO DE REJEITOS

[pt] REJEITO DE BAUXITA

[pt] TRINCA

[en] DESICCATION

[en] EXPERIMENTAL FIELD

[en] TAILING MANAGEMENT

[en] BAUXITE TAILINGS

[en] CRACK