Kyushu University Academic Staff Educational and Research Activities Database
Researcher information (To researchers) Need Help? How to update
Takayuki Maeda Last modified date:2019.06.18

Assistant Professor / Reaction Engineering for Material Processing
Department of Materials Science and Engineering
Faculty of Engineering


Graduate School
Undergraduate School


E-Mail
Phone
092-802-2940
Fax
092-802-2990
Academic Degree
Doctor of Engineering
Country of degree conferring institution (Overseas)
No
Field of Specialization
Ironmaking
Total Priod of education and research career in the foreign country
00years00months
Research
Research Interests
  • Effect of Granulation Condition and Property of Raw Material on Strength of Granulated Particle by Tumbling Granulation
    Gaseous Reduction Rate of Iron ore Sinter
    Reduction behavior of Carbon Composite Iron Ore
    keyword : Iron Ore, Sintering、Reduction Rate
    2005.04.
Academic Activities
Reports
1. Effect of Particle Size of Iron Ore and Coke on Granulation Property of Quasi-Particle.
2. Co-Production System of Iron- hydrogen Utilizing Waste Materials.
3. Effect of granulation condition and property of raw mineral on strength of granulated particle by tumbling
granulation.
Papers
1. Takayuki Maeda, Ko-ichiro Ohno, shimizu masakata, Keigo Noda, KOKI NISHIOKA, Effect of Coke Combustion Rate Equation on Numerical Simulation of Temperature Distribution in Iron Ore Sintering Process, The Iron and Steel Institute of JAPAN, http://dx.doi.org/10.2355/isijinternational.53.1350, 53, 9, 1642-1647, 2013.09.
2. Takayuki Maeda, Ko-ichiro Ohno, shimizu masakata, Keigo Noda, KOKI NISHIOKA, Combustion Rate of Coke in Quasi-particle at Iron Ore Sintering Process, The Iron and Steel Institute of JAPAN, http://dx.doi.org/10.2355/isijinternational.53.1350, 53, 9, 1588-1593, 2013.09.
3. Takayuki Maeda, Ko-ichiro Ohno, shimizu masakata, Ryota Kikuchi, Kazuya Kunitomo, Effect of Particle Size of Iron Ore and Coke on Granulation Property of Quasi-Particle, The Iron and Steel Institute of JAPAN, http://dx.doi.org/10.2355/isijinternational.53.1350, 53, 9, 1503-1509, 2013.09.
4. Takayuki Maeda, Ko-ichiro Ohno, shimizu masakata, KOKI NISHIOKA, Daisuke Noguchi, Kinetics of Reduction Step of Wustite to Iron of Hematite and Quaternary Calcium Ferrite, The Iron and Steel Institute of JAPAN, http://dx.doi.org/10.2355/isijinternational.53.1350, 53, 8, 1350-1357, 2013.08.
5. Takayuki Maeda, Kazuya Kunitomo, Ko-ichiro Ohno, shimizu masakata, Ryota Kikuchi, EFFECT OF PARTICL SIZE OF IRON ORE AND COKE ON GRANULATION PROPERTY OF QUASI-PARTICLE, 9th Japan-Brazil Symposium on Dust Processing - Energy - Environment In Metallurgical Industries, 265-273, 2013.09.
6. Effect Material Particle Size on Reduction rate of Hematite and Quaternary Calcium Ferrite Mixtures.
7. Effect Material Particle Size on Reduction rate of Hematite and Quaternary Calcium Ferrite Mixtures.
8. Takayuki Maeda, Ko-ichiro Ohno, KOKI NISHIOKA, shimizu masakata, Daisuke Noguchi, Effect of CO Gas Concentration on Reduction Rate Of Major Mineral Phase in Sintered Iron Ore, The Iron and Steel Institute of Japan, http://dx.doi.org/10.2355/isijinternational.53.570, 53, 4, 570-575, 2013.04.
9. 前田 敬之, 大野 光一郎, 清水 正賢, 西岡 浩樹, 野口 大介, Effects of Gas Concentration on Reduction Rate of Major Mineral Phase in Sintered Iron Ore, Proceedings of 4th International Conference on Process Development in Iron and Steelmaking, Vol. 1, pp. 551- pp. 560, 2012.06.
10. Kinetics of Reduction Step of Wustite to Iron of Hematite and Quaternary Calcium Ferrite Mixtures.
11. Ko-ichiro OHNO, Takayuki MAEDA, Koki NISHIOKA and Masakata SHIMIZU, Effect of slag melting behavior on slag-metal separation temperature of self reducing pellet, 6th European Coke and Ironmaking Congress 2011, CD-ROM, 2011.06.
12. Ko-ichiro OHNO, Masashi KAIMOTO, Takayuki MAEDA, Koki NISHIOKA and Masakata SHIMIZU, Effect of Slag Melting Behavior on Metal-Slag Separation Temperature in Powdery Iron, Slag and Carbon Mixture, ISIJ International, Vol. 51, No. 8, pp. 1279-1284, 2011.08.
13. Ko-ichiro OHNO, Takayuki MAEDA, and Masakata SHIMIZU, Investigation on Slag-Metal Separation Behavior of Carbon Composite pellet Using Various Slag Melting Temperature, Proceedings of the 13th International Symposium on Materials Science and Engineering between Chonbuk National University and Kyushu University, pp. 77-87, 2011.10.
14. Modeling of Dripping Behavior in Particles Paced Bet Filled with Immiscible Fluid.
15. Effect of CO Gas Concentration on Reduction Rate of Major Mineral Phase in Sintered Iron Ore.
16. Koki Nishioka, Yasuaki Ueki, Ko–ichiro Ohno, Takayuki Maeda and Masakata Shimizu, PRODUCTION OF REDUCED IRON AND VALUABLE GASES FROM WASTE PLASTIC MATERIALS AND IRON OXIDE MIXTURES, Proceedings of The 12th Japan-China Symposium on Science and Technology on Iron and Steel, pp. 50-56, 2010.10.
17. Koki Nishioka, Takayuki Maeda, Ko-ichiro Ohno, Masakata Shimizu, Effect of Iron Ore and Coal Properties on Reduction and Gasification Behavior of Carbon Composite Iron Ore Briquette, Proceedings of The 6th Korea-Japan workshop on Science and Technology in Ironkaking and Steelmaking, pp. 123-127, 2010.01.
18. Koki NISHIOKA, Koji OSUGA, Yasuaki UEKI, Ko-Ichiro OHMO, Takayuki MAEDA and Masakata SHIMIZU , Effect of Iron Ore and Coal Properties on Reduction and Gasification Behavior of Carbon Composite Iron Ore Briquette, Proceedings of 5th International Conference on Science and Technology of Ironmaking, 2, 1326-1330, 2009.10.
19. Effect of Iron Ore and Coal Properties on Reaction Behavior of Carbon Composite Iron Ore Briquette.
20. Takayuki MAEDA, Koki NISHIOKA and Masakata SHIMIZU, Effect of Granulation Condition and Property of Raw Material on Strength of Granulated Particle by Tumbling Granulation, ISIJ International, 49, 5, 625-630, 2009.05.
21. Measurement of Effective Diffusivity for CO-CO2 Gas Mixture in Hot Briquetting Carbon Composite Iron Ore by Wicke-Kallenbach Method.
22. Yasuaki UEKI, Ryutaro MII, Ko-ichiro OHNO, Takayuki MAEDA, Koki NISHIOKA, Masakata SHIMIZU, Reaction Behavior during Heating Waste Plastic Materials and Iron Oxide Composites, ISIJ International, Vo.48, No.12, pp.1670-1675, 2008.12.
23. Ko-Ichiro OHNO, Yasuaki UEKI, Takayuki MAEDA, Koki NISHIOKA, Masakata SHIMIZU, Utilization of Waste Plastic Material as Reducing Agent and Gaseous Source during Iron Reduction Process, Proceedings of 7th Japan-Brazil Symposium on Dust Processing - Energy - Environment in Metallurgical Industries and 1st International Seminar on Self-Reducing and Cold Bonded Agglomeration, (CD-ROM), 2008.09.
24. Kinetic Analysis of Spherical Wustite Reduction Transported with CH4 Gas.
25. Takayuki Maeda, Koki Nishioka and Masakata Shimizu , Dissolution Rate of Solid Hematite into Molten Calcium Ferrite, 3th International Conference on Process Development in Iron and Steel, Vol. 1, pp. 99-105, 2008.05.
26. K.Nishioka, Y.Ueki, K.Ohno, T.Maeda and M.Shimizu, Gasification and Reduction Behavior of Plastics and Iron Ore Mixtures by Microwave Heating, Proceedings of The 9th International Symposium on Materials Science and Engineering between Chonbuk National University and Kyushu University , 2007.10.
27. K. OHNO, N. TAKEUCHI, Y. NOMURA, T. MAEDA, K. NISHIOKA and M. SHIMIZU, Rapid reduction of spherical wustite fine particle transported with CH4 gas, Proceedings of 3rd International Steel Conference on New Developments in Metallurgical Process Technologies , pp.16-23, 2007.06.
28. K. Nishioka, T. Maeda and M. Shimizu, Three-dimensional mathematical simulation of iron and slag drainage behavior in blast furnace hearth, Proceedings of 3rd International Steel Conference on New Developments in Metallurgical Process Technologies , pp.47-54, 2007.06.
29. M. SHIMIZU, Y. UEKI, T. MAEDA, K. NISHOKA and K. OHNO, Characteristics and Possibilities of Self-Reduction Method with Carbon Composite Iron Ore Compacts, Proceedings of International Conference on Mining, Materials and Petroleum Engineering, The Frontiers of Technology , pp. 229-233, 2007.05.
30. M. SHIMIZU, Y. NOMURA, K. OHNO T. MAEDA and K. NISHOKA, Rapid In-Flight Reduction of Fine Iron Ore Transported by CH4 Gas, Proceedings of Japan-Indonesia Bilateral Symposium on Sustainable Engineering, 2007.05.
31. K. NISHOKA, T. TANIGUCHI, Y. UEKI, K. OHNO, T. MAEDA and M. SHIMIZU, Gasification and Reduction Behavior of Plastic and Iron Ore Mixtures by Microwave Heating, ISIJ International, 47(2007), pp.602-607, 2007.04.
32. Effect of Atmospheric Gas Composition and Temperature on the Gasification of Coal in Hot Briquetting Carbon Composite Iron Ore.
33. Effect of Adding Moisture and Wettability on Granulation of Iron Ore.
34. Y. UEKI, M. KANAYAMA, T. Maeda, K. NISHIOKA and M. SHIMIZU, Effect of Atmospheric Gas Composition on Residual Carbon in Carbon Composite Pellet, Proceedings of 4th International Conference on Science and Technology of Ironmaking, pp.77-80, 2006.11.
35. Masakata SHIMIZU, Takayuki MAEDA, Koki NISHIOKA and Kunihiko NAKASHIMA, Formation Rate of Calcium Ferrite Melt in Iron Ore Sintering Process, Proceedings of the first Australia-China-Japan symposium on iron and steelmaking, pp.141-147, 2006.09.
36. T. MAEDA, C. FUKUMOTO, T. MATSUMURA, K. NISHIOKA, and M. SHIMIZU, Effect of Adding Moisture and Wettability on Granulation of Iron Ore, ISIJ Internatinal, 10.2355/isijinternational.45.477, 45, 4, 477-484, Vol.45, No.4, pp.477-484, 2005.04.
37. Effect of Atmospheric Gas Composition on Reduction Behavior of Low Porosity Carbon Composite Iron Ore Pellet.
Presentations
1. Reduction Behavior of Sintered Ore having Different Minerals in CO-CO2-H2 gas mixture
H. Masashi, T. Maeda, K. Ohno, K. Kunitomo
The 176th ISIJ Meeting
.
2. Effect of Porosity, Temperature and Gas Composition on Reduction Rate of Iron Oxide and Calcium
Ferrite
.
3. Numerical Simulation of Sintering Process Considering Oxidation Rate and Reaction Heat of Magnetite.
4. Takayuki Maeda, Kazuya Kunitomo, Ko-ichiro Ohno, shimizu masakata, Ryota Kikuchi, EFFECT OF PARTICL SIZE OF IRON ORE AND COKE ON GRANULATION PROPERTY OF QUASI-PARTICLE, 9th Japan-Brazil Symposium on Dust Processing-Energy-Enviroment in Metallurgical Industries, 2013.09.
5. Characteristics of formation and dissolution of kish graphite in blast furnace hearth.
6. Combustion Rate of Coke in Quasi-Particle in Sintering Process.
7. Effect of Particle Size of Iron Ore and Coke on Granulation Property of Quasi-Particle.
8. Effect of Material Particle Size on Reduction rate of Hematite and Quaternary Calcium Ferrite Mixtures.
9. Analysis of Gasification rate for Highly Reactive Coke with CO-CO2 Gas Mixture.
10. Kinetics of Reduction Step of Wustite to Iron of Hematite and Quaternary Calcium Ferrite Mixtures.
11. Effect of CO Gas Concentration on Reduction Rate of Multi-component Calcium Ferrite.
12. Effect of Carbon Property on Gasification Rate of Carbon Obtained by Decomposition of Organic Waste.
13. Effect of CO Gas Concentration on Reduction Rate of Iron Oxide.
14. Effect of particle size and gangue mineral on strength of granulated particle by tumbling granulation.
15. Effect of Fixed Carbon in Waste Materials on Reduction Behavior of Organic Municipal Waste Materials and Iron Ore Mixtures.
16. Effect of carbon structure on iron carburization behavior.
17. Relationship Between Particle Size and Strength of Granulated Particle for Iron Ore Sinter.
18. Effect of Properties of Raw Material on Reduction Rate of Carbon Composite Briquette.
19. Thermal degradation behavior of organic waste and the reduction behavior of iron oxide with organic waste.
20. Reducton behavior of organic waste and iron oxide mixtures.
Awards
  • Rapid Reduction of Fine Iron Ore Transported with CH4 Gas
Educational
Other Educational Activities
  • 2009.12.