Abstract
Mining activities are essential for a population’s development; however, they also produce negative effects such as the production of waste, an impact on flora and water pollution. On the other hand, construction is one of the sectors which is most demanding of raw materials, with one of the main such materials being water. For this reason, this research evaluates the feasibility of incorporating water contaminated by mining waste into ceramic materials for bricks. In this way, the use of water is reduced and, on the other hand, the contaminating elements of the mining water are encapsulated in the ceramic matrix. To achieve this, the clay used and the contaminated water were first analysed, then different families of samples were conformed with different percentages of contaminated water. These samples were tested to determine their physical and mechanical properties. At the same time, leachate tests were carried out to determine that the ceramic material created did not cause environmental problems. The test results showed that the physical and mechanical properties of the ceramics were not influenced by the addition of contaminated water. On the other hand, the leachate tests showed that encapsulation of most of the potentially toxic elements occurred. However, the use of contaminated water as mixing water for ceramics could only be performed up to 60%, as higher percentages would leach impermissible arsenic concentrations. Accordingly, a new way of reusing water contaminated by mining activities is developed in this study, taking advantage of resources, avoiding environmental pollution and creating economic and environmentally friendly end products.
Highlights
Mining activity is essential in order to obtain the resources necessary for the large quantity of products consumed by the population [1,2]
The materials used in this research and the tests carried out to corroborate this initial hypothesis are described. This initial hypothesis consists of determining the viability of using mining water with potentially toxic elements for the conformation of ceramic materials destined for bricks
Results and discussion of the tests appear in the same order in which they have been presented in the methodology. These results allow us to obtain a series of conclusions that will condition the final hypothesis, which is the verification of the viability of using water contaminated by mining waste as mixing water for ceramic conforming
Summary
Mining activity is essential in order to obtain the resources necessary for the large quantity of products consumed by the population [1,2]. New environmental regulations governing mining activities are becoming increasingly restrictive [13], mainly due to the knowledge of previous cases of serious environmental damage and the increased environmental awareness of the population. These new regulations regulate, quantify, control and reduce environmental affections
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