A State of the Art on Red Mud as a Substitutional Cementitious Material

Venkatesh, Chava; Madduru, Sri Rama Chand; Nerella, Ruben

doi:10.18280/acsm.430206

Cited by 32 publications

(12 citation statements)

References 45 publications

(70 reference statements)

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“…Many studies investigated extraction of valuable components [7][8][9] with a particular focus on iron [10,11] as a major red mud 2 of 23 component [12] and rare-earth metals [13][14][15][16] as a critical material for many important technologies [17]. A common approach involves utilization of red mud in construction industry [18], namely in production of cement [19], concrete [20], bricks [21,22], geopolymers [23], etc. Some studies considered its use as an adsorbent [24], catalyst [25] and coagulant [26].…”

Section: Introductionmentioning

confidence: 99%

Influence of Sodium Sulfate Addition on Iron Grain Growth during Carbothermic Roasting of Red Mud Samples with Different Basicity

Grudinsky

Zinoveev

Pankratov

et al. 2020

Metals

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Red mud is an iron-containing waste of alumina production with high alkalinity. A promising approach for its recycling is solid-phase carbothermic roasting in the presence of special additives followed by magnetic separation. The crucial factor of the separation of the obtained iron metallic particles from gangue is sufficiently large iron grains. This study focuses on the influence of Na2SO4 addition on iron grain growth during carbothermic roasting of two red mud samples with different (CaO + MgO)/(SiO2 + Al2O3) ratio of 0.46 and 1.21, respectively. Iron phase distribution in the red mud and roasted samples were investigated in detail by Mössbauer spectroscopy method. Based on thermodynamic calculations and results of multifactorial experiments, the optimal conditions for the roasting of the red mud samples with (CaO + MgO)/(SiO2 + Al2O3) ratio of 0.46 and 1.21 were duration of 180 min with the addition of 13.65% Na2SO4 at 1150 °C and 1350 °C followed by magnetic separation that led to 97% and 83.91% of iron recovery, as well as 51.6% and 83.7% of iron grade, respectively. The mechanism of sodium sulfate effect on iron grain growth was proposed. The results pointed out that Na2SO4 addition is unfavorable for the red mud carbothermic roasting compared with other alkaline sulfur-free additives.

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Section: Introductionmentioning

confidence: 99%

Influence of Sodium Sulfate Addition on Iron Grain Growth during Carbothermic Roasting of Red Mud Samples with Different Basicity

Grudinsky

Zinoveev

Pankratov

et al. 2020

Metals

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“…It is found to be reuse Power et al, 2009[27]. The high alkalinity (pH: 11-13) are creating solemn threat to the water and environment and kills all vegetation's all around, Venkatesh S., 2019 [28].A considerable work has been done to use this detrimental waste as to use this waste in manufacture of iron & steel, alumina, titania, and alkali, as building materials like brick, LWA (light weight aggregates), tiles manufacture for roofs and floors with cements, manufacture of pottery, bricks, sanitary ware, colored tiles , glasses, glazes, sanitary gadgets, and many others like fertilizer, waste treatment and filler (Parekh et al, 1976[29], Prasad P.M. et al, 1985[16]). About 1 -2.5 MT of RM is evolved during production of 1MT of alumina depending upon the raw ore.…”

Section: Present Interest Of Investigationmentioning

confidence: 99%

Optimized Structural Performance of Paver Blocks of Bajri Concrete: NRM Partly Substituting Cement

Mohapatra*,

Mishra,

Nayak

et al. 2019

IJITEE

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The discarded object dart during alumina extraction from bauxite ores in Bayers process is Red Mud. The solid/ liquid insoluble by-product dumped in exposed red mud ponds which are radioactive, highly alkaline and environmental contaminant to soil, surface water and ground water and possess disposal threats. Recent trend in increased urbanization and modernization has plenty of use of exterior flooring by concrete pavers block depending upon traffic load and volume. Present work is to know whether this red mud can be reused as a sustainable construction material to replace cement. The XRF spectroscopic advantage is taken to determine the composition identities between red mud and OPC cement. The study reveals the optimized percentage of red mud blend with cement after neutralization normalization. It cannot be disposed of easily. Attempt has been made to use bajri as the coarse aggregate instead of 12mm chips. The crusher by-product is having less use as construction materials. So the spare of cement by compensating with red mud and use of bajri shall be cost effective, environmentally sustainable and convenient disposal of the harmful waste. The mechanical characteristics like compressive, flexural, and split tensile strength etc., at 0%, 10%, 20%, 30% and 40% replacement of cement by red mud is found by using compressive testing machine (CTM) and universal testing machine (UTM) adhering to IS : 15658 (2006) and amended in 2011. The 20% OPC cement substitution by red mud is found to be adequate and will maintain sustainability.

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“…Recent efforts in utilizing BR as a cement replacement material has been summarized [7,12,13]. Almost all studies performed and described in the mentioned references, used BR "as is" without further treatment and investigated the effect of BR on mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

Alkali-reduced Bauxite Residue as Novel SCM

Danner

Sletnes

Justnes

2020

Nordic Concrete Research

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Bauxite residue is a major waste stream available in large volumes globally that can cause risks to the surrounding environment (e.g. ecotoxicity) when disposed and stored by conventional methods. There is yet no large-scale application and the utilization as supplementary cementitious material might be the best way to re-use bauxite residue. The main obstacle for the utilization of bauxite residue in the construction industry is the high alkalinity. This paper presents first results of a study on alkali reduction of bauxite residue by acetic acid treatment and the potential application of this alkali reduced bauxite residue as pozzolan in cementitious binders. A process of alkali reduction is presented that can help solving waste management problems of alumina refineries by transforming bauxite residue to a less hazardous waste, while producing a reactive pozzolan and Na-acetate that can find application in the construction and infrastructure market. 90% alkalinity reduction of bauxite residue could be achieved by simply washing with diluted acetic acid. Alkali-reduced bauxite residue showed good pozzolanic reactivity regarding portlandite consumption, bound water and 28-day compressive strength of mortars with 20% replacement of OPC.

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A State of the Art on Red Mud as a Substitutional Cementitious Material

Cited by 32 publications

References 45 publications

Influence of Sodium Sulfate Addition on Iron Grain Growth during Carbothermic Roasting of Red Mud Samples with Different Basicity

Influence of Sodium Sulfate Addition on Iron Grain Growth during Carbothermic Roasting of Red Mud Samples with Different Basicity

Optimized Structural Performance of Paver Blocks of Bajri Concrete: NRM Partly Substituting Cement

Alkali-reduced Bauxite Residue as Novel SCM

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