Abstract
This paper presents a method of utilising ilmenite MUD created during the production of titanium dioxide (TiO2) according to the sulphate method as an additive for Portland cement composites. After the production process, undissolved MUD was additionally rinsed with water and filtrated in the factory to make it more useful (R-MUD) for implementation and also to turn back some of the by-products of the production of TiO2. R-MUD is less hazardous waste than MUD. It has a lower concentration of sulphuric acid and some heavy metals. The rinsing process raised the concentration of SiO2, which is a valuable part of R-MUD because of its potential pozzolanic activity. This means that the R-MUD might be a reactive substitute of part of Portland cement in building composites. The article presents the results of research on the pozzolanic activity of R-MUD and other materials with proved pozzolanic activity, such as silica fume, fly ash and natural pozzolana (trass). Tests were performed using thermal analysis techniques. The tests showed that the pozzolanic activity or R-MUD after three days is at the same level as silica fume and after 28 days it is twice as high as the activity of fly ash. Beyond the 180th day of curing, R-MUD had the same level of activity as fly ash. The summary is supplemented by calorimetric tests, which confirm the high reactivity of R-MUD compared to other commonly used concrete additives, already in the initial hydration period. In summary, heat of hydration after 72 h of Portland cement with R-MUD is at the same level as the heat of hydration of Portland cement with silica fume and also pure Portland cement grout. The results confirm that the process of formation of micro-silica contained in R-MUD react with calcium hydroxide to form the C-S-H phase, which is responsible for the microstructure of cement composites.
Highlights
Titanium dioxide (TiO2 ) is mainly produced in one of two ways: The sulphate method and the chloride method
The results of the research and the analysis presented above allow us to conclude that: n n n n n n the correction of the sulphuric acid content and the washing out of some of the soluble salts allows to obtain a new quality of waste—rinsed ilmenite MUD (R-MUD), which is less hazardous than MUD and allows to consider other possibilities of application
The resulting filtrate is a valuable raw material for further production of TiO2 ; it is justified to expect that minimising the sulphuric acid content in R-MUD to a level below 1%
Summary
Titanium dioxide (TiO2 ) is mainly produced in one of two ways: The sulphate method and the chloride method. Global world production of TiO2 in 2019 reached 7.2 million tonnes. The sulphate method is used to produce 45% of world production while in Europe this method takes about 70% of production [1]. The sulphate method of TiO2 production is difficult and generates a variety of waste from which not all can be used further (Figure 1). Undissolved ilmenite MUD waste occurs when ilmenite is leached with sulphuric acid and insoluble residues remain. Its high sulphuric acid content (about 14%) makes ilmenite MUD a hazardous waste. The raw material used to produce TiO2 comes from various sources and sometimes
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