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Prof. MORITOMI, Hiroshi

 

• Original Papers

1. Afrinaldi A, Kakiuchi T, Nakagawa S, Moritomi H, Kumabe K, Nakai A, Ohtani A, Mizutani Y, Uematsu Y. Fabrication of recycled carbon fiber reinforced magnesium alloy composite by friction stir processing using 3-flat pin tool and its fatigue properties. Materails Transaction 2018; 59(3): 475-481.

   [External Link]

2. Kumabe K, Kanamori Y, Han L, Moritomi H, Kambara S, Hasegawa T. Production of hydrocarbons in Fischer-Tropsch synthesis with cobalt-based catalyst: Investigations of primary kerosene yield and carbon mass balance. Journal of Japan Institute of Energy 2017;96(4):121-127 press (in Japanese). [External Link]
3. Kumabe K, Nishimura Y, Kambara S, Moritomi H. Kinetic study of subcritical steam gasification of coal using calcium-based carbon dioxide sorbent. Ind. Eng. Chem. Res. 2014; 53(6): 2183-2188. [External Link]
4. Kambara S, Koyano A, Takeyama A, Osakabe T, Kumabe K, Moritomi H. Characteristics of NOx formation in hydrogen oxidation by atmospheric non-equilibrium plasma. Journal of the Combustion Society of Japan 2013;55(173):278-284. [External Link]
5. Takeyama A, Kambara S, Kondo M, Hishinuma N, Masui M, Murata Y, Moritomi H. Non-Catalytic deNOx Using Activated Ammonia Generated by Vacuum Ultra Violet. Transactions of the Japan Society of Mechanical Engineers Series B 2013; 79(801): 791-795．[External Link]
6. Kumabe K, Moritomi H, Ito W, Kambara S, Minowa T, Sakanishi K. Material balances of major and trace elements in hydrogen production process from coal with CO2 recovery. Fuel 2013;107:40-46. [External Link]
7. Hartuti S, Kambara S, Takeyama A, Kumabe K, Moritomi H. Direct Quantitative Analysis of Arsenic for Coal Fly Ashes. J. Anal. Methods Chem. 2012;2012:1-6. [External Link]
8. Kambara S, Hayakawa Y, Masui M, Miura T, Kumabe K, Moritomi H. Relation between Chemical Composition of Dissociated Ammonia by Atmospheric Plasma and DeNOx Characteristics. Transactions of the Japan Society of Mechanical Engineers Series B 2013; 78(789): 1038-1042．[External Link]
9. Kambara S, Okuda T, Iwata T, Sasaki T, Kumabe K, Moritomi H. Characteristics of N2O Decomposition by Atmospheric Non-Equilibrium Plasma. Transactions of the Japan Society of Mechanical Engineers Series B 2013; 78(789): 1034-1037． [External Link]
10. Kambara S, Hayakawa Y, Masui M, Hishinuma N, Kumabe K, Moritomi H. Removal of nitric oxide by activated ammonia generated by vacuum ultraviolet radiation. Fuel 2012;94:274-279. [External Link]
11. Khandakar Habib Al Razi., Moritomi H. Modeling of atmospheric dispersion of mercury from coal-fired power plants in Japan Atmospheric Pollution Research 2012; 3(2): 226-237. [External Link]
12. Khandakar Md Habib Al Razi, Moritomi H, Kambara S. Atmospheric mercury dispersion modelling from two nearest hypothetical point sources. International Journal of Energy and Environment 2012; 3(2): 31-44. [External Link]
13. Khandakar Habib Al Rzi , Moritomi H. Prediction of Ozone Concentrations in March 2008 over Coastal Areas of the Sea of Japan Using the WRF/Chem Model. IJEE 2012: 1-16. [External Link]
14. Khandakar Md Habib Al Razi, Moritomi H, Kambara S. Exposure assessment of mercury and its compounds by dispersion modeling: A case study in the Sea of Japan coastal area. Air Soil and Water Research 2011; 4: 81–92. [External Link]
15. Sato K, Moritomi H. Study of Biomass Gasification Stirling Engine Power Generation. The thermal and nuclear power 2010; 61(9): 804-811． [External Link]
16. Kumabe K, Kambara S, Yamaguchi T, Yoshiie R, Moritomi H. Behavior of Mercury in Solid Particles Collected from a Very Cold Electrostatic Precipitator. Journal of the Japan Institute of Energy 2010; 89(9): 903-908． [External Link]
17. Hattori H, Moritomi H. Heat Exchanger Tube Corrosion in RDF Combustion Boiler. Journal of the Japan Society of Material Cycles and Waste Management 2009; 20(3): 180-188． [External Link]
18. Sato K, Ooiwa N, Ishikawa A, Nishiyama A, Mori S, Moritomi H. R&D of 55 kW power generation plant with biomass direct-injection combustion (in japanese)．Enerugi to shigen 2008; 29(5): 310． [External Link]
19. Yoshiie R, Yamamoto Y, Uemiya S, Kambara S, Moritomi H. Simple and rapid analysis of heavy metals in sub-micron particulates in flue gas. Powder Technol. 2008;180(1-2):135-9. [External Link]
20. Tsukada M, Abe K, Yonemochi Y, Ameyama A, Kamiya H, Kambara S, et al. Dry gas cleaning in coal gasification systems for fuel cells using composite sorbents. Powder Technol. 2008;180(1-2):232-8. [External Link]
21. Tanaka M, Ozaki H, Ando A, Kambara S, Moritomi H. Basic characteristics of food waste and food ash on steam gasification. Ind Eng Chem Res. 2008;47(7):2414-9. [External Link]
22. Osakabe T, Kambara S, Kuriyama R, Koyano A, Moritomi H. Characteristics of Hydrogen Oxidation by Atmospheric Non-Equilibrium Plasma. Journal of the Combustion Society of Japan 2008; 50(152): 136-44． [External Link]
23. Kimura T, Suzuki Y, Moritomi H. Kinetic Analysis of Devolatilization Reaction of Woody Biomass and Optimum Operation Condition for a Simple Carbonizer. Enerugi to shigen 2008; 29(3): 28-34． [External Link]
24. Yukimura K, Kawamura K, Hiramatsu T, Murakami H, Kambara S, Moritomi H, et al. Efficient decomposition of NO by ammonia radical-injection method using an intermittent dielectric barrier discharge. Thin Solid Films. 2007;515(9):4278-82. [External Link]
25. Tanaka M, Ozaki H, Moritomi H. Basic Study on Steam Gasification of Food Wastes. Waste Management Research 2007; 18(1): 49-57． [External Link]
26. Osakabe T, Moritomi H, Kambara S, Hibino S. Combustion Characteristics of Hydrogen in a Catalytic Fluidized Bed. Journal of the Japan Institute of Energy 2007; 86(10): 814-21． [External Link]
27. Nishiyama A, Shimojima H, Ishikawa A, Itaya Y, Kambara S, Moritomi H, et al. Fuel and emissions properties of Stirling engine operated with wood powder. Fuel. 2007;86(15):2333-42. [External Link]
28. Nishiyama A. Kambara S, Moritomi H. Feasibility Study for the Woody Biomass Co-combustion in Coal Fired Power Plant. The thermal and nuclear power 2007; 58(3): 219-28． [External Link]
29. Yukimura K, Hiramatsu T, Murakami H, Kambara S, Moritomi H, Yamashita T. Molar ratio and energy efficiency of DeNOx using an intermittent DBD ammonia radical injection system. IEEE Trans Plasma Sci. 2006; 34(2, Pt. 1): 235-41. [External Link]
30. Kuwabara T, Kambara S, Moritomi H. Study on Chemical Form of Boron in Coal by Solid-State Nuclear Magnetic Resonance Spectroscopy. Journal of the Japan Institute of Energy 2007; 86 (7): 455-61． [External Link]
31. Kimura T, Hotta T, Moritomi H. Improvement of Steam Gasification Rates of Woody Biomass Chars by Using Foul Dung. Energy and resources 2007; 28(5): 329-34． [External Link]
32. Tanaka M, Ozaki H, Moritomi H. Basic Study on Thermochemical Conversion for Food Wastes. Energy and resources 2006; 27(3): 58-63 [External Link]
33. Sakata T, Iwase T, Kambara S, Moritomi H. Prediction of the Effective Thermal Conductivity of the In-Gap Particle Layer of Heat Exchanger Tubes with Wastage Covers in a Pressurized Fluidized Bed. Kagaku Kogaku Ronbunshu 2006; 32(3): 246-52． [External Link]
34. Kuwabara T, Kambara S, Moritomi H. Study on Boron Distribution and Chemical Form in Coal. Shigen-to-Sozai 2006: 10_11: 497-503． [External Link]
35. Imai T, Kambara S, Moritomi H. Influence of MgO Content on Reactivity of Calcined Dolomite with Hydrogen Sulfide. J. of the Society of Inorganic Materials Japan 2006; 13: 90-97． [External Link]
36. Imai T, Kambara S, Moritomi H. Development of Desulfurization Reactivity Index for Quicklime from Eight Locations. J. of the Society of Inorganic Materials Japan 2006; 13: 16-23． [External Link]
37. Yu YZ, Moritomi H, Kambara S, Yoshiie R, Uemiya S. Trace Elements Behavior in Coal Gasification Based on Thermodynamics Equilibrium Calculation. Journal of the Japan Institute of Energy 2005; 84(5): 431-437． [External Link]
38. Yukimura K, Kawamura K, Kambara S, Moritomi H, Yamashita T. Correlation of energy efficiency of NO removal by intermittent DBD radical injection method. IEEE Trans Plasma Sci. 2005;33(2, Pt. 2):763-70. [External Link]
39. Yoshiie R, Kojima A, Uemiya S, Nishimura M, Kambara S, Moritomi H. Monitoring of volatile cadmium in flue gas from the waste incineration process using LIBS. J Chem Eng Jpn. 2005;38(7):528-34. [External Link]
40. Uemiya S, Uchida M, Moritomi H, Yoshiie R, Nishimura M. Ammonia decomposition catalyst with resistance to coexisting sulfur compounds. Mater Trans. 2005;46(12):2709-12. [External Link]
41. Suzuki Y, Hatano H., Moritomi H. NOx Emissions in Laboratory Scale Pressurized Fluidized Bed Combustor -The Role of NO Reduction by Char-. Journal of the Japan Institute of Energy 2005; 84(9): 773-9． [External Link]
42. Kumabe K, Moritomi H, Yoshida K, Yoshiie R, Kambara S. Characteristics of Hydrogen Production from Coal Tar with Subcritical Steam. Ind Eng Chem Res. 2005;44(6):1950-3. [External Link]
43. Kambara S, Kumano Y, Moritomi H, Nagao I, Yamamoto K, Yukimura K, et al. Optimum conditions for NO reduction using intermittent dielectric barrier discharge at atmospheric pressure. Jpn J Appl Phys, Part 1. 2005;44(3):1427-30. [External Link]
44. Yoshiie R, Hashimoto Y, Hoshiai M, Uemiya S, Nishimura M, Moritomi H. Cadmium Removal in Flue Gas from the Incineration of Scallop Waste Using Sorbent Particulate. Journal of the Japan Society of Waste Management Experts 2004; 15(3): 215-23． [External Link]
45. Yamamoto K, Yukimura K, Kambara S, Moritomi H, Yamashita T, Maruyama T. Effect of O2 on NO removal by ammonia radical injection using one-cycle sinusoidal power source. Thin Solid Films. 2004;457(1):39-43. [External Link]
46. Yamamoto K, Kawamura K, Yukimura K, Kambara S, Moritomi H, Yamashita T. Oxygen effect of high concentration NO removal using an intermittent DBD. Vacuum. 2004;73(3-4):583-8. [External Link]
47. Uemiya S, Mishima S, Miyazaki I, Yoshiie R, Moritomi H, Nishimura M. Fabrication of supported palladium membrane for membrane reformer. Trans Mater Res Soc Jpn. 2004;29(5):2109-12. [External Link]
48. Suzuki Y, Nojima T, Kakuta A, Moritomi H. Pressurized fluidized bed combustion of sewage sludge (energy recovering from sewage sludge by power generation system). JSME Int J, Ser B. 2004;47(2):186-92. [External Link]
49. Kumabe K, Moritomi H, Yoshiie R, Kambara S, Kuramoto K, Suzuki Y, et al. Gasification of Organic Waste with Subcritical Steam under the Presence of a Calcium-Based Carbon Dioxide Sorbent. Ind Eng Chem Res. 2004;43(22):6943-7. [External Link]
50. Kuramoto K, Furuya T, Suzuki Y, Hatano H, Kumabe K, Yoshiie R, et al. Coal gasification with a subcritical steam in the presence of a CO2 sorbent: products and conversion under transient heating. Fuel Process Technol. 2003;82(1):61-73. [External Link]
51. Ito K, Moritomi H, Yoshiie R, Uemiya S, Nishimura M. Tar capture effect of porous particles for biomass fuel under pyrolysis conditions. J Chem Eng Jpn. 2003;36(7):840-5. [External Link]
52. Yoshiie R, Nishimura M, Moritomi H. Influence of ash composition on heavy metal emissions in ash melting process. Fuel. 2002;81(10):1335-40. [External Link]
53. Yoshiie R, Goto S, Nishimura M, Moritomi H. Performance of sorbent particles for removal of cadmium in hot gas. JSME Int J, Ser B. 2002;45(3):512-7. [External Link]
54. Niksa S, Fujiwara N, Fujita Y, Tomura K, Moritomi H, Tuji T, et al. A mechanism for mercury oxidation in coal-derived exhausts. J Air Waste Manage Assoc. 2002;52(8):894-901. [External Link]
55. Iizuka M, Moritomi H, Yoshiie R. Performance of Kaolinite Minerals to Capture Cadmium Compounds at High Temperature Condition. kagaku Kogaku Ronbunshu 2002; 28( 5): 575-579． [External Link]
56. Fujiwara N, Fujita Y, Tomura K, Moritomi H, Tuji T, Takasu S, et al. Mercury transformations in the exhausts from lab-scale coal flames. Fuel. 2002;81(16):2045-52. [External Link]
57. Kondo H, Moritomi H, Yoshiie R, Nishimura M. Characteristics on HCl Absorption and Emission by Limestone. Kagaku Kogaku Ronbunshu 2001; 27(4): 624-632． [External Link]
58. Yoshiie R, Kawaguchi M, Nishimura M, Moritomi H. Experimental analysis of heavy metal emission in melting treatment of incineration ash. J Chem Eng Jpn. 2000;33(3):551-4. [External Link]
59. Suzuki Y, Moritomi H, Tanaka H. Reduction of N2O emissions from circulating fluidized bed combustors by injection of fuel gases and changing of coal feed point. Energy Convers Manage. 1996;37(6-8):1285-90. [External Link]
60. Suzuki Y, Moritomi H, Oomatsu Y, Suzuki Y. Effect of char particle in small circulating fluidized bed on production and decomposition of NOx (in Japanese). Journal of NIRE 1995; 4(6): 435-442． [External Link]
61. Moritomi H, Suzuki Y, Ikeda M. Elucidation of production behavior of N2O from fossil fuel in batch conbustion experiment (in Japanese). Journal of NIRE 1995; 4 (2): 129-139． [External Link]
62. Hirama T, Hosoda H, Sasaki M, Harada M, Suzuki Y, Moritomi H. An Experimental Study on the Effect of Nitrogen Functionality on N2O and NO Emissions in Fluidized Bed Combustion. Journal of the Japan Institute of Energy 1995; 74 (4): 213-20． [External Link]
63. Moritomi H, Suzuki Y, Ikeda M, Suzuki Y, Torikai K. N2O Formation Mechanisms on Coal Combustion. Kagaku Kogaku Ronbunshu 1994; 27(6): 835-840． [External Link]
64. Hirama T, Hosoda H, Moritomi H, Suzuki Y, Harada M, Shimizu T, Naruse I. Formation and Decomposition of Nitrous Oxide from a Circulating Fluidized-Bed Coal Combustor. Journal of the Japan Institute of Energy 1993; 72(4): 252-262． [External Link]
65. Suzuki Y, Moritomi H, Kido N, Li C，He J. Characterization of desulfurization of Chinese limestone (in Japanese). Shigen-to-sozai 1993; 109(9): 677-679． [External Link]
66. Suzuki Y, Moritomi H, Kido N. Production mechanism of N2O under condition of circulating fluidized bed combustion of coal (in japanese). Pollution control 1991; 26 (2): 105-116． [External Link]
67. Moritomi H, Suzuki Y, Ito H, Suzuki Y, Torikai K, Okazaki K. Estimation of temperature of coal particle in fluidized bed combustion. Pollution control 1991；26 (2)：117-26． [External Link]
68. Suzuki Y, Moritomi H. N2O Emission from Circulating Fluidized Bed Combustion of Coal．Journal of the Fuel Society of Japan 1990; 69(12): 1146-1151． [External Link]
69. Nagaishi H, Matsuo T, Nakahata T, Konishi H, Moritomi H, Sanada Y, Chiba T. Hydrogenation Characteristics of Akabira Coal Asphaltene. Journal of the Fuel Society of Japan 1990; 69(12): 1139-45． [External Link]
70. Kreischer BE, Moritomi H, Fan LS. Wake solids holdup characteristics behind a single bubble in a three-dimensional liquid-solid fluidized bed. Int J Multiphase Flow. 1990;16(2):187-200. [External Link]
71. Nagaishi H, Moritomi H, Sanada Y, Chiba T. Evaluation of coal reactivity for liquefaction based on kinetic characteristics. Energy Fuels. 1988;2(4):522-8. [External Link]
72. Moritomi H, Sanada Y, Chiba T. Analysis and Simulation of Coal Liquefaction Characteristics. Kagaku Kogaku Ronbunshu 1988; 14(2): 209-215． [External Link]
73. Moritomi H, Deng C, Nagaishi H, Shimomura S, Sanada Y, Chiba T. Mechanism of semicoke formation during coal liquefaction. Energy Fuels. 1988;2(4):529-34. [External Link]
74. Deng C, Moritomi H, Sanada Y, Chiba T. Change of Apparent Viscosity of Coal/Tetralin Slurry during Liquefaction Effects of Coal Nature. Journal of the Fuel Society of Japan 1987; 66(2): 114-120． [External Link]
75. Deng C, Moritomi H, Sanada Y, Chiba T. Change of Apparent Viscosity of Coal Slurry During Liquefaction Akabira Coal/Tetralin System. Journal of the Fuel Society of Japan 1986; 65(4): 265-272． [External Link]
76. Moritomi H, Yamagishi T, Chiba T. Prediction of complete mixing of liquid-fluidized binary solid particles. Chem Eng Sci. 1986;41(2):297-305. [External Link]
77. Nagaishi H, Moritomi H, Sanada Y, Chiba T. Catalytic Effects of Selenium and Selenium Dioxide on Coal Liquefaction. Journal of the Fuel Society of Japan 1984; 63(9): 763-767． [External Link]
78. Nagaishi H, Konishi H, Moritomi H, Sanada Y, Chiba T. Effects of Mineral Matter in Coal and Iron-Sulfur Catalysts on Coal Liquefaction. Journal of the Fuel Society of Japan 1984; 63(6): 380-386． [External Link]
79. Moritomi H, Kurouji A, Sanada Y, Chiba T. Comparison of coal liquefaction in batch and continuous reactors. Liq Fuels Technol. 1984;2(1):1-17. [External Link]
80. Moritomi H, Nagaishi H, Naruse M, Sanada Y, Chiba T. Hydrogen Transfer During Initial Stage of Coal Liquefaction. Journal of the Fuel Society of Japan 1983; 62(4): 254-262． [External Link]
81. Moritomi H, Kurouji A, Sanada Y, Chiba T. A Comparison of Coal Liquefaction Characteristics in a Continuous Stirred Tank Reactor with that in a Batch Micro-Atoclave. Journal of the Fuel Society of Japan 1983; 62(3): 199-203． [External Link]
82. Moritomi H, Iwase T, Chiba T. A comprehensive interpretation of solid layer inversion in liquid fluidized beds. Chem Eng Sci. 1982;37(12):1751-7. [External Link]
83. Uemaki O, Chiba T, Moritomi H, Kojima E, Kato K, Kuroda M, et al. Behavior of a 1 m Square Gas-Fluidized Bed -Jet and bubble characteristics-. Kagaku Kogaku Ronbunshu 1982; 8(4): 464-9． [External Link]
84. Moritomi H, Chiba T, Sanada Y. Coking Reactions Model of Heavy Oils. Journal of the Japan Petroleum Institute 1982; 25(1): 32-39． [External Link]
85. Moritomi H, Mori S, Araki K, Moriyama A. Periodic Pressure Fluctuation in a Gaseous Fluidized Bed. Kagaku Kogaku Ronbunshu 1980; 6(4): 392-396． [External Link]
86. Moritomi H, Mori S, Sakaguchi M, Araki K, Moriyama A. Heat Transfer Coefficient between Wall and Particles Bed in Rotating Cylinder. Tetsu-to Hagane 1978; 64(10): 1491-1498． [External Link]