Case studies in Chile: Thickened tailings and the Center for Mathematical Modeling

Thickened tailings

One of the main problems associated to mining is disposing of “tailings”. These residuals are a mixture of rocks, minerals, water and earth. The thickened tailings technology allows a higher rate of water recovery from the tailings, while also producing less harmful environmental effects (flying dust, risk of liquefaction, etc.). In terms of our conceptual framework, thickened tailings are a “repairing” technological alternative.

One of our case studies has been the development of this technology in Chile, for which we interviewed, between November and January, executives at two suppliers of engineering services associated to tailings, a South African expert that was in Chile as visiting professor, executives from a mining company that is using this technology, as well as other experts in the Chilean copper mining sector that have observed what has happened with this technology. We conducted in-depth interviews with all of them, trying to understand: how this technology has been difused and adapted to the local reality; interactions between different actors during this process; the way in which this technology produces less environmental problems, and the challenges and future prospects for the technology. Our next report will include a detailed analysis of our conclusions.

 

Center for Mathematical Modeling

We are also interested in knowledge-intensive activities that could help diversify the Chilean economy starting from the accumulated experience in natural resources. The case of the Center for Mathematical Modeling at Universidad de Chile falls in this category. Their mission is “to create new mathematics and use them for solving problems of other sciences, the industry, and public policies”.

Our study focuses specifically on the Laboratory of Geomechanics for Mining, that has worked chiefly in the problem of rock blasting with Codelco’s Teniente Division. The rock blasting phenomenom is one of the worst risks in underground mining operations, and a better understanding of it would produce two very important improvements: avoiding deadly accidents and allowing for a higher rate of mineral extraction.

We interviewed the leader of this research group, as well as his counterpart in the El Teniente mine, in Rancagua, and other experts in the mining and academic sectors. We obtained interesting conclusions regarding the role of big mining companies in the development of cutting edge research and knowledge creation at universities; the potential role for Chilean research in the world context; the characteristics of successful collaboration between mining companies and research centers; and in general the possibilities to develop and commercialize new, knowledge-intensive technologies starting from the experience the country has in mining.