Laboratory Tests on e-pellets effectiveness for ore tracking
Wroclaw University of Science and Technology
Autor do korespondencji
Witold Kawalec   

Wroclaw University of Science ond Technology, Wybrzeze Wyspianskiego 27, 50-370 Wroclaw, Poland
Mining Science 2018;25:7-18
Assigning transported material with a supplementary information is becoming relevant for the needs of improving the efficiency of industrial processes. In the mining industry annotating the mined ore could bring benefits due to expected decrease of the processing energy consumption and increase of productivity. DISIRE project was focused on the implementation of e-pellets for various raw material processing and transportation processes. The paper presents laboratory tests of alternative RFID equipment for annotating ore with marked tags. Several aspects of tags traceability were investigated for the needs of the industrial tests that were eventually done in the underground mine environment. The laboratory tests results were compared with the similar tests described in the literature, that were done in the different conditions.
BŁAŻEJ R., JURDZIAK L., ZIMROZ R., 2013, Novel approaches for proccesing of multi-channels NDT signals for damage detection in conveyor belts with steel cords, Damage Assessment of Structures X, part 2, Switzerland.
DISIRE Project, 2010, (full title: Integrated Process Control based on Distributed In-Situ Sensors into Raw Material and Energy Feedstock), 2018, homepage,
DISIRE Report, Sensor technology selection report, DISIRE Deliverable D3.1, Lulea Technical University (not published).
JANSEN W. et al., 2009, Tracer-based mine-mill ore tracking via process hold-ups at North-Parkes mine, Tenth Mill Operators’ Conference, Adelaide, SA.
JURDZIAK L., KRÓL R., KAWALEC W., 2017, Study on Tracking the Mined Ore Compound with the Use of Process Analytic Technology Tags, Intelligent Systems in Production Engineering and Maintenance – ISPEM 2017.
KRÓL R., KISIELEWSKI W., KASZUBA D., GŁADYSIEWICZ L., 2017, Testing belt conveyor re-sistance to motion in underground mine conditions, International Journal of Mining Reclamation and Environment, Vol. 31, pp. 78–90.
KVARNSTRÖM B., 2010, Traceability in Continuous Processes – Applied to Ore Refinement Processes, Thesis, Division of Quality Technology, Environmental Management, and Social Informatics, De-partment of Business Administration and Social Sciences, Luleå University of Technology.
KVARNSTRÖM B., OGHAZI P., 2008, Methods for traceability in continuous processes–Experience from an iron ore refinement process, Minerals Engineering, Vol. 21, Issue 10, pp. 720–730.
KVARNSTRÖM B., BERGQUIST B., VÄNNMAN K., 2011, RFID to improve traceability in continu-ous granular flows – An experimental case study, Quality Engineering, Taylor & Francis.
KVARNSTRÖM B., VANHATALO E., 2010, Using RFID to Improve Traceability in Process Industry - Experiments in a Distribution Chain for Iron Ore Pellets, Journal of Manufacturing Technology Management, Vol. 21, No. 1, pp. 139–154.
MOE T., 1998, Perspectives on Traceability in Food Manufacture. Trends in Food Science & Technology, Vol. 9, No. 5, pp. 211–214.
PACTWA K., MALEWSKI J., 2013, Opis koncentracji miedzi w profilu złoża i propozycja jego wykor-zystania w planowaniu produkcji, Przegląd Górniczy, 69, 7, 75–82 (in Polish).
PYSZNIAK A., 2014, Development and Applications of Tracking of Pellet Streams, Uppsala Dissertation from Faculty of Science and Technology, 110, 215 pp., Acta Univeristis Upsaliensis, Uppsala.
PYSZNIAK A. et al., 8 February 2014, A pellet tracking system for the PANDA experiment, Hyperfine Interact.
RABE J., FOUCHE P., O’NEILL K., 2005, Development of a RF tracer for use in the mining and min-erals processing industry, The Third Southern African Conference on Base Metals.
ROBERTI M., 2013, How is RFID Being Applied in the Mining Sector?, RFID Journal.
SWEDBERG C., 2008, RFID Helps Miners Strike Gold, RFID Journal.
WORTLEY M., NOZAWA E., RIIHIOJA K., 2011, Metso SmartTag – the next generation and beyond, 35th APCOM Symposium.
Journals System - logo
Scroll to top