Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Takayuki Maeda Last modified date:2019.06.18

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


Presentations
1. N. Kazuto, T. Maeda, K. Ohno, K. Kunitomo .
2. 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
.
3. A. Amini, K. Ohno, T. Maeda, K. Kunitomo, Coupling of Magnetite Particles with Microwaves at Temperatures lower than the Curie Point, 9th International Symposium on Electromagnetic Processing of Materials (EPM2018), 2018.10.
4. Ko-ichiro Ohno, Shinya Miura, Takayuki Maeda, and Kazuya Kunitomo, Melting behaviour observation of iron contacted with different kinds of carbonaceous materials under loading condition, 1th International Conference on Energy and Material Efficiency and CO2 Reduction in the Steel Industry, 2017.10.
5. Kazuto Nishihiro, Ko-ichiro OHNO, Takayuki Maeda and Kazuya Kunitomo, Effect of surface characteristics of reduced iron on carbon deposition reaction by CO-H2 gas mixture, 1th International Conference on Energy and Material Efficiency and CO2 Reduction in the Steel Industry, 2017.10.
6. A. Amini, T. Maeda, K. Ohno, A. Zakeri, K. Kunitomo, Effect of SrO addition to the CaO-Al2O3-SiO2 slag on desulfurization of plain carbon steel, 1th International Conference on Energy and Material Efficiency and CO2 Reduction in the Steel Industry, 2017.10.
7. Amini, Miyazaki Nishi, Y. Mugita, K. Nishihiro, K. Ohno, T. Maeda and K. Kunitomo, Carbothermic reduction of FeS in the presence of lime using microwave heating, (一社)日本鉄鋼協会 秋季講演大会, 2017.09.
8. Effects of Gas composition and Temperature on Carbon Deposition from H2-CO.
9. Effect of Porosity, Temperature and Gas Composition on Reduction Rate of Iron Oxide and Calcium
Ferrite
.
10. Numerical Simulation of Sintering Process Considering Oxidation Rate and Reaction Heat of Magnetite.
11. Usage of the By-Product Glycerol for Sintering Process.
12. Takayuki Maeda, Ko-ichiro Ohno, Kazuya Kunitomo, Cao Son Nguyen, Wetting behavior of carbon un-saturated iron on graphite substrate, The Japanese society for experimental mechanics, 2016.11.
13. Effect of CaO・2Al2O3 in coke analogue on carbon dissolution.
14. Effects of reduced iron’s surface characteristics on carbon deposition by H2-CO.
15. Takayuki Maeda, Kazuya Kunitomo, Ko-ichiro Ohno, KOKI NISHIOKA, shimizu masakata shimizu, Hiroshi Ogi, Keigo Noda, Effect of fine coke combustion behavior in quasi-particle on temperature distribution of iron ore sintering process, Asia Steel Intenationai Conference 2015, 2015.10.
16. Takayuki Maeda, Kazuya Kunitomo, Ko-ichiro Ohno, Takahiro Miyake , Shintaro Yano , Cao son Nguyen , Effect of Simulant Ash on Wetting Behavior of Liquid Iron on Carbonaceous Material Substrate, 7th International Conference on Science and Technology of Ironmaking, 2015.05.
17. 前田 敬之, 国友 和也, 大野 光一郎, グエン カオ ソン, The Role of Alumina in the Relationship between Carbon Dissolution and Wettability
of Molten Iron on Carbonaceous Materials Substrate, 日本鉄鋼協会, 2015.03.
18. Effect of Magnetite on Calcium ferrite Formation in Sintering Process.
19. Effect of Mixed Carbonaceous Materials Ratio on Apparent Viscosity of Slag Packed Bed.
20. 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.
21. Effect of Coke Breeze Size on Combustion Rate in Quasi-particles.
22. Effect of Coke Breeze Size on Combustion Rate in Quasi-particles.
23. Evaluation of wetting behavior between Fe and carbonaceous material
by sessile drop method with liquid sample injection system.
24. Effect of carbonaceous material’s character on phase separation behavior of Fe-Cu.
25. Characteristics of formation and dissolution of kish graphite in blast furnace hearth.
26. Combustion Rate of Coke in Quasi-Particle in Sintering Process.
27. Effect of Particle Size of Iron Ore and Coke on Granulation Property of Quasi-Particle.
28. Effect of Material Particle Size on Reduction rate of Hematite and Quaternary Calcium Ferrite Mixtures.
29. Analysis of Gasification rate for Highly Reactive Coke with CO-CO2 Gas Mixture.
30. Dissolution of Refractory by Change of Carbon Solubility of Liquid Iron in Blast Furnace Hearth.
31. Kinetics of Reduction Step of Wustite to Iron of Hematite and Quaternary Calcium Ferrite Mixtures.
32. Effect of Slag Melting Behavior on Metal-Slag Separation Temperature.
33. Effect of CO Gas Concentration on Reduction Rate of Multi-component Calcium Ferrite.
34. Combustion Rate of Coke in Quasi-Particles in the Sintering Process.
35. Properties measurements and mathematical model development of innovative carbon iron ore composites.
36. Effect of Carbon Property on Gasification Rate of Carbon Obtained by Decomposition of Organic Waste.
37. Effect of CO Gas Concentration on Reduction Rate of Iron Oxide.
38. Effective diffusivity of gas in packed beds.
39. Mathematical Model of Sintering Process for Gaseous Fuel Injection.
40. Effect of particle size and gangue mineral on strength of granulated particle by tumbling granulation.
41. Effect of Fixed Carbon in Waste Materials on Reduction Behavior of Organic Municipal Waste Materials and Iron Ore Mixtures.
42. Effect of carbon structure on iron carburization behavior.
43. Relationship Between Particle Size and Strength of Granulated Particle for Iron Ore Sinter.
44. Effect of Properties of Raw Material on Reduction Rate of Carbon Composite Briquette.
45. Reduction and Gas conversion Behavior of Waste Plastic and Iron Ore Mixtures by Microwave Heating.
46. Thermal degradation behavior of organic waste and the reduction behavior of iron oxide with organic waste.
47. Reducton behavior of organic waste and iron oxide mixtures.