Sustainable Low Impact Mining solution for exploitation of small mineral deposits based on advanced rock blasting and environmental technologies

Objectif

The main economic, technological and environmental challenges of small mining include reducing high investment costs, reducing generation of waste and large tailings, identifying and addressing environmental impacts, and improving flexibility, automation and safety of operations. However, at the moment, there is no quick-fix available to reduce the environmental impact from mines, and it is neither realistic to expect production solutions very distant from today’s technologies. Considering that the present mining technology is based on rock blasting and mobile mining equipment for loading and transportation, the major challenge is to generate a new sustainable systemic solution that affects positively the relevant mining value chain.

SLIM aims to develop a cost-effective and sustainable selective low impact mining solution based on non-linear rock mass fragmentation by blasting models, airborne particulate matter, vibration affections and nitrate leaching mitigation actions for exploitation of small mineral deposits (including those with chemically complex ore-forming phases) through a new generation of explosives and an advanced automatic blast design software based on improved rock mass characterisation and fragmentation models for optimum fragmentation and minimum rock damage and far-field vibrations.

SLIM consortium is led by UPM (es), with LTU (se), MUL (at) and TUG (at) as Research Insitutions, 3GSM (at - Rock fragmentation and blasting software), MAXAM (es - Explosives), ORGIVA (es - Fluorite mine) and ERZBERG (at - Iron mine) and ARNO (es - Quarry) as validators in relevant environment. BRGM (fr), INVESTORNET (dk), MINPOL (at), and ZABALA (es) complement the Environmental and Economic assessments, the Communication and Dissemination activities and Social Awareness actions.

SLIM addresses the following issue: a) Sustainable selective low impact mining (2016), it has a planned duration of 48 months and a budget of €6,979,200 requesting €6,979,200 of EU funding.

Champ scientifique (EuroSciVoc)

CORDIS classe les projets avec EuroSciVoc, une taxonomie multilingue des domaines scientifiques, grâce à un processus semi-automatique basé sur des techniques TLN.

• ingénierie et technologiegénie électrique, génie électronique, génie de l’informationingénierie électroniquecapteurscapteurs optiques
• ingénierie et technologiegénie de l'environnementexploitation minière et travail du minerai
• ingénierie et technologiegénie de l'environnementénergie et combustibles
• sciences naturellesinformatique et science de l'informationintelligence artificielleapprentissage automatique
• sciences naturellesinformatique et science de l'informationlogiciellogiciel d’application

Mots‑clés

• Small mining
• Complex ore
• Rock fragmentation
• Rock Blasting
• Low impact mining

Programme(s)

• H2020-EU.3.5. - SOCIETAL CHALLENGES - Climate action, Environment, Resource Efficiency and Raw Materials Main Programme
• H2020-EU.3.5.3. - Ensuring the sustainable supply of non-energy and non-agricultural raw materials

Thème(s)

• SC5-13-2016-2017 - New solutions for sustainable production of raw materials

Régime de financement

Coordinateur

Participants (13)