SWS Academic Research eLibraryEarth & Planetary Sciences

Scholarly record

EVALUATION OF IRON ORE SINTER STRUCTURE USING A VARIOUS TYPES OF BIOMASS

Maslejova, Alica

First published: 2013-06-20https://doi.org/10.5593/sgem2013/ba1.v2/s04.007View metrics

Publication Impact Profile

PlumX
  • Citations
  • CrossRef - Citation Indexes: 1
  • Scopus - Citation Indexes: 3
  • Captures
  • Mendeley - Readers: 3

Publication details

Title
EVALUATION OF IRON ORE SINTER STRUCTURE USING A VARIOUS TYPES OF BIOMASS
Authors
Maslejova, Alica
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2013
Pages
581 - 588 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References48
  1. Norgate T. & Langberg D. Environmental and Economic aspects of Charcoal use in Steelmaking, ISIJ International, Japan, 2009, pp.587-595

  2. Suopajarvi H. & Angerman M. Layered Sustainability Assessment Framework , Germany, Dusseldorf, 2011 METEC InSteelCon 2011, Session10, pp.1-10

  3. Birat J.P. Steel and CO2 the ULCOS program, CCS and mineral carbonization using steemaking slag, Proceedings of the 1 st International Slag Valorization Symposium, 6-7 April 2009, Leuven, Belgium, 2009, pp.1-12

  4. Worrel E. & Neelis M. & price L. & Galitsky C. & Zhou N. World Best Practice Energy Intensity Values for Selected Industrial Sectors, Lawrence Berkely National Laboratory, USA, 2007, 1-52, pp.5-17

  5. Arnsfeld S. & Babich A. & Senk D. Characterization of Pyrolysed Biomass as an Alternative Option to Pulverized Coal Injection into the Blast Furnace, SCANMET IV 4th International Conference on Process Development in Iron Making & Steelmaking, June 2012, Lulea, Sweeden, Renewable energy, pp639-648 Section Mineral Processing

  6. Chipatecua G.M. & Rocha S.H. F.S. & Quicker P. Biocoke for the Cupola Furnace, Germany, Dusseldorf, 2011 METEC InSteelCon 2011, Session9, pp.1-7

  7. Molin A.& Maslejova,A.Organics Fibre Addition for Corrosion Ability Improvement, Silika, č.1, 2000, pp.36 -41

  8. Maslejova A.& Machajova Z. Laboratory Testing of Biomass Usage for Metallurgical Coke Production, 6 th Annual Eurocoke Summit, April 2010, Lisbon,Portugal, Required Paper.

  9. Lonbottom R.J. & Monaghan B.J. & Scholes O. & Mahoney M.R. Development of a Metallurgical Coke Analogue to Investigate the Effects of Coke Mineralogy on Coke Reactivity, SCANMET IV, International Conference on Process Development in Iron and Steelmaking, June, 2012, Lulea, Sweden, pp.147-157.

  10. Babich A . & Senk D. & Gudenau H.W. Coke Quality for Modern Blast Furnace, 4th Congress on the Science and Technology of Ironmaking, ICSTI 06, Osaka, Japan, 2006, pp. 351-354

  11. Mattila O.& Salmi P. Wavelet-Based Image Analysis Method to Study the Properties of Coke, SCANMET III – 3 rd International Conference on Process Development in Iron and Steelmaking, 8-11 June 2008, Lulea, Sweden, Volume 2, pp.237-244

  12. MacPhee T. & Todoachuk T. & Conejeros M. & Kojijn C. A Facile Approach to the CSR Determination of Metallurgical Coke, Germany, Dusseldorf, 2011 METEC InSteelCon 2011Session 4, pp. 1-7

  13. Sabikova,M. & Frohlichová M.&Petikova I.&Maslejova A. Coal Brand and Mechanical Coke properties, Acta Metallurgica Slovaca, Vol. 13, No.5, 2007, pp .71-75, ISSN-1335-1532

  14. Lundgren M. & Bjorkman B. & Okvist S. L. Coke reactivity under Blast Furnace Condition and in the CSR/CRI Test, SCANMET III, International Conference on Process Development in Iron and Steelmaking,Lulea, Sweden, pp.125-135

  15. Thomas S. & McKnight S.J. & Serrano E.J. & Maslejova A. & Zelinsky R. & Tomas J. & Vlasic P. Laboratory Evaluation of Biomass Usage for Coke and Sinter Production, Session 9, Alternative Fuels in Iron- and Steelmaking, D:\CD- Data\proceeding_eecr\EECR-160.pdf

  16. Legemza J.&Frö hlichova M.&Findorák R.&Bakaj F. The Simulating of Production the Agglomerate in Laboratory Sintering P an, 2011.In: Acta Metallurgica Slovaca - Roč. 1, č. 4 (2011), s. 245-252

  17. Majercak S&Majercakov A. & Maslejova A.: Geametrical and structural Activities of Iron oxides, Metallurgia i Odlewnictvo, tom 17, Zeszt 3-4, 1991, pp. 445-457

  18. Sihlovcova A. & Majercak S & Toth I. Mössbauer Spectroscopy Utilization for Sinter Phase Analysis, Hutnicke Listy, No.6, 1989

  19. Sihlovcova A.&Majercak, S.& Majercakova A.& Jusfin J.S.& Bazilevic T.N.& Dansin V.V.& Bakumova N.V. Sinter Liquid Properties Study, Hutnicke Listy, No.1, GeoConference on Science and Technologies in Geology, Exploration and Mining

  20. Majercak S. & Majercakova A. & Sihlovcova A. Geometry and Grain/Pores Possition in Pellets, Technical Transaction, 1989

  21. Majercak S. & Majercakova A. & Sihlovcova A. The Influence of Magnetite Purity Upon the Oxidation Conditions, 3rd Table Meeting on Physico-Chemical and Structural Properties and Kinetics of Reduction Wűstite and Magnetite, September 28 -October 3, 1986, Poland

  22. Nicola, V.Y & at all: Metallurgical and Materials Transactions B, Vol35B, October 2001, pp. 929 -936

  23. Mansurova, N.R.& Malysheva& T.Y. Metallurgist, Vol.50, No. 9-10, 2006, p p.510-518

  24. Frohlichova M.&Legemza J.&Findorak R.&Bakaj F. 2010. The process of simulating the iron ores agglomerate production under laboratory conditions: Hutník. Vol. 77, no. 9 (2010), p. 450-454. - ISSN 1230-3534 AKNOWLEDGEMENTS I want to thank my collegues at U. S. Steel Košice, s.r.o. who contributed to this paper: Rudolf Želinský, Ján Tomáš, Peter Vlašič, Pavol Výrostko for perfo rming the sinter tests, Martin Černík for the XRD and Lucia Hrabčáková for the SEM analyses.

  25. Norgate T. & Langberg D. Environmental and Economic aspects of Charcoal use in Steelmaking, ISIJ International, Japan, 2009, pp.587-595

  26. Suopajarvi H. & Angerman M. Layered Sustainability Assessment Framework , Germany, Dusseldorf, 2011 METEC InSteelCon 2011, Session10, pp.1-10

  27. Birat J.P. Steel and CO2 the ULCOS program, CCS and mineral carbonization using steemaking slag, Proceedings of the 1 st International Slag Valorization Symposium, 6-7 April 2009, Leuven, Belgium, 2009, pp.1-12

  28. Worrel E. & Neelis M. & price L. & Galitsky C. & Zhou N. World Best Practice Energy Intensity Values for Selected Industrial Sectors, Lawrence Berkely National Laboratory, USA, 2007, 1-52, pp.5-17

  29. Arnsfeld S. & Babich A. & Senk D. Characterization of Pyrolysed Biomass as an Alternative Option to Pulverized Coal Injection into the Blast Furnace, SCANMET IV 4th International Conference on Process Development in Iron Making & Steelmaking, June 2012, Lulea, Sweeden, Renewable energy, pp639-648 Section Mineral Processing

  30. Chipatecua G.M. & Rocha S.H. F.S. & Quicker P. Biocoke for the Cupola Furnace, Germany, Dusseldorf, 2011 METEC InSteelCon 2011, Session9, pp.1-7

  31. Molin A.& Maslejova,A.Organics Fibre Addition for Corrosion Ability Improvement, Silika, č.1, 2000, pp.36 -41

  32. Maslejova A.& Machajova Z. Laboratory Testing of Biomass Usage for Metallurgical Coke Production, 6 th Annual Eurocoke Summit, April 2010, Lisbon,Portugal, Required Paper.

  33. Lonbottom R.J. & Monaghan B.J. & Scholes O. & Mahoney M.R. Development of a Metallurgical Coke Analogue to Investigate the Effects of Coke Mineralogy on Coke Reactivity, SCANMET IV, International Conference on Process Development in Iron and Steelmaking, June, 2012, Lulea, Sweden, pp.147-157.

  34. Babich A . & Senk D. & Gudenau H.W. Coke Quality for Modern Blast Furnace, 4th Congress on the Science and Technology of Ironmaking, ICSTI 06, Osaka, Japan, 2006, pp. 351-354

  35. Mattila O.& Salmi P. Wavelet-Based Image Analysis Method to Study the Properties of Coke, SCANMET III – 3 rd International Conference on Process Development in Iron and Steelmaking, 8-11 June 2008, Lulea, Sweden, Volume 2, pp.237-244

  36. MacPhee T. & Todoachuk T. & Conejeros M. & Kojijn C. A Facile Approach to the CSR Determination of Metallurgical Coke, Germany, Dusseldorf, 2011 METEC InSteelCon 2011Session 4, pp. 1-7

  37. Sabikova,M. & Frohlichová M.&Petikova I.&Maslejova A. Coal Brand and Mechanical Coke properties, Acta Metallurgica Slovaca, Vol. 13, No.5, 2007, pp .71-75, ISSN-1335-1532

  38. Lundgren M. & Bjorkman B. & Okvist S. L. Coke reactivity under Blast Furnace Condition and in the CSR/CRI Test, SCANMET III, International Conference on Process Development in Iron and Steelmaking,Lulea, Sweden, pp.125-135

  39. Thomas S. & McKnight S.J. & Serrano E.J. & Maslejova A. & Zelinsky R. & Tomas J. & Vlasic P. Laboratory Evaluation of Biomass Usage for Coke and Sinter Production, Session 9, Alternative Fuels in Iron- and Steelmaking, D:\CD- Data\proceeding_eecr\EECR-160.pdf

  40. Legemza J.&Frö hlichova M.&Findorák R.&Bakaj F. The Simulating of Production the Agglomerate in Laboratory Sintering P an, 2011.In: Acta Metallurgica Slovaca - Roč. 1, č. 4 (2011), s. 245-252

  41. Majercak S&Majercakov A. & Maslejova A.: Geametrical and structural Activities of Iron oxides, Metallurgia i Odlewnictvo, tom 17, Zeszt 3-4, 1991, pp. 445-457

  42. Sihlovcova A. & Majercak S & Toth I. Mössbauer Spectroscopy Utilization for Sinter Phase Analysis, Hutnicke Listy, No.6, 1989

  43. Sihlovcova A.&Majercak, S.& Majercakova A.& Jusfin J.S.& Bazilevic T.N.& Dansin V.V.& Bakumova N.V. Sinter Liquid Properties Study, Hutnicke Listy, No.1, GeoConference on Science and Technologies in Geology, Exploration and Mining

  44. Majercak S. & Majercakova A. & Sihlovcova A. Geometry and Grain/Pores Possition in Pellets, Technical Transaction, 1989

  45. Majercak S. & Majercakova A. & Sihlovcova A. The Influence of Magnetite Purity Upon the Oxidation Conditions, 3rd Table Meeting on Physico-Chemical and Structural Properties and Kinetics of Reduction Wűstite and Magnetite, September 28 -October 3, 1986, Poland

  46. Nicola, V.Y & at all: Metallurgical and Materials Transactions B, Vol35B, October 2001, pp. 929 -936

  47. Mansurova, N.R.& Malysheva& T.Y. Metallurgist, Vol.50, No. 9-10, 2006, p p.510-518

  48. Frohlichova M.&Legemza J.&Findorak R.&Bakaj F. 2010. The process of simulating the iron ores agglomerate production under laboratory conditions: Hutník. Vol. 77, no. 9 (2010), p. 450-454. - ISSN 1230-3534 AKNOWLEDGEMENTS I want to thank my collegues at U. S. Steel Košice, s.r.o. who contributed to this paper: Rudolf Želinský, Ján Tomáš, Peter Vlašič, Pavol Výrostko for perfo rming the sinter tests, Martin Černík for the XRD and Lucia Hrabčáková for the SEM analyses.

View or Download full articleAccess options
Full paper accessChoose SWS login, librarian support, or instant article download.

SWS access login

Login as SWS Scientific Committee

Authors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.

For librarian assistance: [email protected]

Purchase Instant Access

48-hour online accessComing soon
Online-only accessComing soon
Download the full article in PDF formatEUR 35
  • Article can be downloaded after successful payment.
  • Article may be used according to SWS library access terms.
  • Article cannot be redistributed.
Get full paper

Back to publication list