Homeの中の学会・論文の中の国際会議

国際会議

  1. Hydrogen production system from ammonia with zeolite filled plasma membrane reactor,Y. Hayakawa,S. Wakazono, A. Sakai, S. Kambara, T. Miura, The 7th East Asia Joint Symposium on Plasma and Electrostatics Technologies for Environmental Applications (EAPETEA-7), Naha (2019).
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  2. Hydrogen production from superheated steam decomposition by plasma reactor,Md Hadi Iskandar,H. Kanayama, K. Tokunaga, W. Inukai, Y. Hayakawa, S. Kambara, S. Takitani, T. Kodera, T. Miura, The 7th East Asia Joint Symposium on Plasma and Electrostatics Technologies for Environmental Applications (EAPETEA-7), Naha (2019).
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  3. Characterization of combustibility for flame-retardant plastics, T. Ando, Y. Hayakawa, S. Kambara, S. Wakazono, Y. Hayakawa, S. Kambara, T. Miura, The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo (Japan) 2019.
  4. The effect of zeolite filling into the plasma membrane reactor on hydrogen separation performance, Y. Hayakawa, S. Wakazono, S. Kambara, T. Miura, The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo (Japan) 2019.
  5. Plasma flow reactor with a flow channel for hydrogen production from ammonia, R. Sakai, Y. Hayakawa, S. Kambara, T. Miura, The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo (Japan) 2019.
  6. Hydrogen production by packed bed plasma reactor with hydrogen separator, A. Sakai, Y. Hayakawa, S. Kambara, T. Miura, The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo (Japan) 2019.
  7. Development of plate-type plasma membrane reactor, H. Sato, Y. Hayakawa, S. Kambara, T. Miura, The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE 2019), Sapporo (Japan) 2019.
  8. Investigation of Additive Blending Ratio for Controlling Boron and Fluorine from Coal Fly Ash, E. R. Desfitri, F. F. Hanum, U. M. Sutopo, Y. Hayakawa, S. Kambara, 12Th Asia-Pacific Conference on Combustion, ASPACC2019-1356, Fukuoka (Japan) 2019.
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  9. Calcium and Arsenic Interaction during Leaching Process of Coal Fly Ash: Analysis by FactSage, U. M. Sutopo, E. R. Desfitri, F. F. Hanum, Y. Hayakawa, S. Kambara, 12Th Asia-Pacific Conference on Combustion, ASPACC2019-1265, Fukuoka (Japan) 2019.
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  10. Prediction of chlorine behavior in coal gasifier by process simulation,S. Kang, Y. Hayakawa, S. Kambara, 12Th Asia-Pacific Conference on Combustion, ASPACC2019-1250, Fukuoka (Japan) 2019.
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  11. Characterization of zeolite particles as internals of packed bed plasma reactor, A. Sakai, Y. Hayakawa, S. Kambara, T. Miura, Proc. Int. Workshop on Environmental Engineering 2019, pp.166−167, E316, Nago (Japan), 2019.
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  12. Hydrogen permeation characteristics of plate-type plasma membrane reactor, H. Sato, Y. Hayakawa, S. Kambara, T. Miura, Proc. Int. Workshop on Environmental Engineering 2019, pp.148−149, PE309, Nago (Japan), 2019.
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  13. Hydrogen production from steam using plasma membrane reactor with a flow channel, H. Kanayama, Y. Hayakawa, S. Kambara, T. Miura, Proc. Int. Workshop on Environmental Engineering 2019, pp.146−147, PE308, Nago (Japan), 2019.
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  14. Hydrogen purification characteristics from ammonia decomposition gas with a plasma membrane reactor, Y. Hayakawa, S. Wakazono, T. Miura, S. Kambara, Proc. Int. Workshop on Environmental Engineering 2019, pp.144−145, PE307, Nago (Japan), 2019.
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  15. Development of Plate Type Plasma Reactor with a Flow Channel, Y. Hayakawa, 28th Annual Meeting of MRS-Japan 2018, C3-I19-013, Kitakyusyu (Japan), 2018.
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  16. Development of Plasma Membrane Reactor for Hydrogen Production from Ammonia, S. Kambara, Y. Hayakawa, T. Miura, 28th Annual Meeting of MRS-Japan 2018, C3-I19-013, Kitakyusyu (Japan), 2018.
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  17. Calcium Performance in Paper Sludge Ash as Suppressing Material, Erda Rahmilaila Desfitria, Farrah Fadhillah Hanum, Yukio Hayakawa, Shinji Kambara, Int. Symp. Indonesian Chemical Engineering 2018, Padang (Indonesia), 2018.
  18. The Role of Calcium Compound on Fluorine Leaching Mechanisms, Farrah Fadhillah Hanum, Erda Rahmilaila Desfitri, Yukio Hayakawa, Shinji Kambara, Int. Symp. Indonesian Chemical Engineering 2018, Padang (Indonesia), 2018.
  19. Thermodynamic estimation of ash melting behavior and viscosity for coal gasifier, Y. Kato, S. Kambara, The 13th Conference on Sustainable Development of Energy, Water and Environment Systems, SDEWES2018.0597, pp.1−4, Palermo (Italy), 2018.
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  20. Reaction mechanism on deNOx by vacuum ultra violet irradiation, S. Ebata, S. Kambara, Y. Hayakawa, The 13th Conference on Sustainable Development of Energy, Water and Environment Systems, SDEWES2018.0586, pp.1−7, Palermo (Italy), 2018.
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  21. Hydrogen production system using plasma membrane reactor, Y. Hayakawa,S. Kambara, The 9th International Conference on Hydrogen Production, Zagreb (CROATIA), 2018.
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  22. Hydrogen Separation by Plasma Membrane Reactor, S. Wakazono, Y. Hayakawa,S. Kambara, The 9th International Conference on Hydrogen Production, Zagreb (CROATIA), 2018.
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  23. Ammonia Decomposition by Plasma Reactor with Flow Channels, R. Sakai, Y. Hayakawa,S. Kambara, The 9th International Conference on Hydrogen Production, Zagreb (CROATIA), 2018.
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  24. Reaction Mechanism of NO Removal by 172 nm irradiation, S. Ebata, S. Kambara, Proc. 23th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.59, Clearwater (USA), 2017.
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  25. Characteristics of NO Oxidation by 172 nm VUV irradiation, S. Kambara, T. Wakazono, Proc. 23th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.58, Clearwater (USA), 2017.
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  26. Reaction Mechanism of Ammonia Decomposition by Atmospheric Plasma, Y. Goto, Y. Hayakawa, S. Kambara, The 9th JSME-KSME Thermal and Fluids Engineering Conference, TFEC9-1449 (4 pages), Okinawa (JAPAN), 2017.
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  27. Hydrogen Production Characteristics from Ammonia by Plasma Membrane Reactor, Y. Hayakawa, S. Kambara, Tomonori Miura, The 9th JSME-KSME Thermal and Fluids Engineering Conference, TFEC9-1498 (5 pages), Okinawa (JAPAN), 2017.
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  28. Performance investigation of hydrogen production from ammonia by plasma membrane reactor, S. Kambara, Y. Hayakawa, T. Miura, The 7th World Hydrogen Technology Convention, ESN-HP-P024, pp. 143, Prague (Czech), 2017.
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  29. Development of hydrogen production device from ammonia using pulsed plasma technique, Y. Goto, S. Kambara, Y. Hayakawa, T. Miura, The 7th World Hydrogen Technology Convention, ESN-HP-P016, pp. 138-139, Prague (Czech), 2017.
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  30. Hydrogen production from ammonia by plasma membrane reactor, Y. Hayakawa, D. Matsunami, T. Miura, S. Kambara, International Symposium on Electrohydrodynamics 2017, No. EHD-4 (1 page), Ottawa, Canada, 2017.
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  31. A role of calcium on leaching of trace elements from coal fly ash, Farrah Fadhillah Hanum, Akihiro Takeyama, Shinji Kambara, The 5th Asian Conference on Innovative Energy and Environmental Chemical Engineering, P-074(6 pages), Yokohama (Japan), 2016.
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  32. Proposal of original hydrogen carrier system using NOx-HNO3-NH3 conversion, Tomohito Wakazono, Shinji Kambara, Tomonori Miura, and Nobuyuki Hishinuma, The 5th Asian Conference on Innovative Energy and Environmental Chemical Engineering, P-057 (4 pages), Yokohama (Japan), 2016.
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  33. Optimum Conditions of Low Temperature SNCR by Hydrogen Injection, Yohei Tsuji, Toko Kawaoka, Shinji Kambara, and Megumi Masui, The 5th Asian Conference on Innovative Energy and Environmental Chemical Engineering, P-069 (4 pages), Yokohama (Japan), 2016.
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  34. Characteristics of hydrogen generation from ammonia by plasma membrane reactor, Daiki Matsunami, Yukio Hayakawa, Shinji Kambara, and Tomonori Miura, The 5th Asian Conference on Innovative Energy and Environmental Chemical Engineering, S5-9 (4 pages), Yokohama (Japan), 2016.
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  35. Ammonia production from nitric acid for hydrogen carrier system, Ayumi Mabuchi, Shinji Kambara, and Tomonori Miura, The 5th Asian Conference on Innovative Energy and Environmental Chemical Engineering, P-056 (6 pages), Yokohama (Japan), 2016.
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  36. Innovative Hydrogen Production, Storage, and Utilization System, Shinji Kambara, The 3rd Engineering Science And Technology International Conference, ESTIC 2016, Padang (Indonesia), 2016
  37. A Role Of Calcium On Leaching Of Trace Elements From Coal Fly Ash, Farrah FadhillahHanum, Akihiro Takeyama, Shinji Kambara, The 3rd Engineering Science And Technology International Conference, ESTIC 2016, Padang (Indonesia), 2016
  38. Ammonia Production by HNO3 Generated from NOx, A. Mabuchi, S. Kambara, The 11th Conference on Sustainable Development of Energy, Water and Environment Systems, SDEWES2016.0578, 1−8, Lisbon (Portugal), 2016.
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  39. NOx Removal by 172 nm VUV Irradiation at Room Temperature, S. Kambara, T. Kawaoka, M. Watanabe, The 11th Conference on Sustainable Development of Energy, Water and Environment Systems, SDEWES2016.0589, 1−7, Lisbon (Portugal), 2016.
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  40. Hydrogen permeation from ammonia by pulsed plasma membrane reactor, D. Matsunami, Y. Hayakawa, S. Kambara, T. Miura, The 10th Conference of Aseanian Membrane Society, PO1-024, Nara(Japan), 2016.
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  41. Characteristics of hydrogen permeation by pulsed plasma membrane reactor, Y. Hayakawa, D. Matsunami, S. Kambara, T. Miura and H. Tsutsumi, The 10th Conference of Aseanian Membrane Society, PO1-006, Nara(Japan), 2016.
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  42. Hydrogen production from ammonia by DBD pulsed plasma with hydrogen permeable membrane, S. Kambara, Symp. Plasma & Electrostatics Tech. for Environmental Applications, USB-OP-25 (4 pages), Kyoto (Japan), 2015.
    [PDF][Poster]
  43. Ammonia Decomposition Rate in Catalyst and Plasma, S. Igami, T. Kawaoka, D. Matsunami, Y. Hayakawa, S. Kambara, Symp. Plasma & Electrostatics Tech. for Environmental Applications, Kyoto (Japan), 2015.
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  44. Optimum Conditions of Selective Non-Catalytic Reduction by activated ammonia generated by DBD pulsed plasma, M. Masui, Y. Tsuji, S. Kambara, Symp. Plasma & Electrostatics Tech. for Environmental Applications, Kyoto (Japan), 2015.
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  45. Hydrogen production from ammonia as energy carrier by pulsed plasma, Y. Hayakawa, S. Kambara, T. Miura, World Engineering Conf. and Convention, Kyoto (Japan), 2015.
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  46. Reaction mechanism of hydrogen generation from ammonia by DBD pulsed plasma, Toko Kawaoka, Yu Inoue, Shinji Kambara, Proceedings of the 68th Gaseous Electronics Conference, CD-ROM No.SF1.00002, 2 pages, Honolulu (U.S.A), 2015.
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  47. NH3 reforming by DBD using a H2 permeable membrane, Yukio Hayakawa, Shinji Kambara, Tomonori Miura, Proceedings of the 68th Gaseous Electronics Conference, CD-ROM No.KW1.00003, 2 pages, Honolulu (U.S.A), 2015.
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  48. Hydrogen energy storage system originated from nitrogen oxides in flue gas, Momoko Watanabe, Shinji Kambara, Proceedings of the 10th Conference on Sustainable Development of Energy, Water and Environment Systems, SDEWES2015.1054, 1-6, Dubrobnik (Croatia), 2015.
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  49. Removal of NOx at Low Temperatures by Photochemical Reaction without Catalysis and Ammonia, Int. Workshop Env. & Eng. 2014, CD-ROM No.307, Yukio HAYAKAWA, Syunsuke NOMURA, Toko KAWAOKA, Akihiro TAKEYAMA, Shinji KAMBARA, 2014.
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  50. The Leaching Characteristics of Trace Elements in Coal Fly Ash, A. Takeyama, Shinji KAMBARA, Sri Hartuti, Farrah F. Hanum, Int. Workshop Env. & Eng. 2014, CD-ROM No.215, 2014.
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  51. Arsenic Leachability and Speciation in Fly Ashes from Coal Fired Power Plants, Int. Workshop Env. & Eng. 2014, CD-ROM No.214, Sri Hartuti, Akihiro TAKEYAMA, Shinji KAMBARA, 2014.
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  52. Hydrogen production at room temperature by ammonia decomposition using pulsed plasma, S. Kambara, Y. Inoue, T. Miura, Proceedings of 9th Conf. Sustainable Dev. Energy, Water & Env. Sys., 2014.
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  53. Reaction mechanisms in DeNOx by activated ammonia generated by DBD, Int. Symp. Electro., Session 4 (USB), Yukio Hayakawa, Yu Inoue, Akihiro Takeyama, Shinji Kambara, 2014.
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  54. Low temperature SNCR tests by injection of activated ammonia generated by DBD, Int. Symp. Electro., P19 (USB), Megumi Masui, Yukio Hayakawa, Akihiro Takeyama, Tomonori Miura, Shinji Kambara, 2014.
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  55. Hydrogen production by ammonia decomposition using pulsed plasma, Int. Symp. Electro., Session 2 (USB), Y. Inoue, Y. Hayakawa, A. Takeyama, T. Miura, S. Kambara, 2014.
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  56. Non-catalytic Hydrogen Production From Ammonia Using Pulsed Plasma, S. Kambara, A. Takeyama, Proc. 19th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.58, San Diego(USA), 2013.
  57. Reduction of CO2 emission LRC power plant by LRC drying and simulation by coal quality evaluation system (C-QUENS), S. Kambara, Proc. Indonesia-China Coal Summit, Bali(Indonesia), 2013.
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  58. Hydrogen production from ammonia by vacuum ultra violet, S. Kambara, M. Kogai, A. Takeyama, N. Hishinuma, K. Kumabe, H. Moritomi, Proc. 18th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.141, Jacksonville(USA), 2012.
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  59. Reaction mechanisms of DeNOx in radical injection system using DBD, S. Kambara, Proc. 18th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.14, Jacksonville(USA), 2012.
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  60. Low temperature SNCR by photochemical activation of ammonia, S. Kambara, M. Kondo, N. Hishinuma, M. Masui, K. Kumabe, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2011, USB-P2-02, 4 pages, Oviedo(Spain), 2011.
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  61. Arsenic leachability and speciation in fly ashes from coal fired power plants, S. Kambara, M. Endo, S. Takata, K. Kumabe, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2011, USB-P2-01, 4 pages, Oviedo(Spain), 2011.
    [PDF][Poster]
  62. Mercury emission control by wet scrubber with super static mixer, S. Kambara, E. Makino, H. Kojima, H. Moritomi, Proc. 28th Annual Int. Conf. Pittsburgh Coal Conf., CD-ROM-A8 2 pages, Pittsburgh(USA), 2011.
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  63. Simultaneous NOx/SO2 removal by ammonia gas excited by atmospheric plasma, S. Kambara, Y. Hayakawa, M. Masui, K. Kumabe, H. Moritomi, Proc. 28th Annual Int. Conf. Pittsburgh Coal Conf, , CD-ROM-A94, 3 pages, Pittsburgh(USA), 2011.
    [PDF][Poster]
  64. Progress in radical injection techniques for environmental control, S. Kambara, 16th Int. Conf. Advanced Oxidation Technologies for Treatment of Water, Air, and Soil, p.60, San Diego(USA), 2010.
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  65. Using low CV coal in Asian power plants: A Japanese case study, S. Kambara, Proc.15th Coaltrans ASIA, S-6A, Bali(Indonesia), 2009.
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  66. Characteristics of hydrogen combustion assisted by an intermittent dielectric barrier discharge, S. Kambara, T. Osakabe, R. Kuriyama, H. Moritomi, Proc. 28th Int. Conf. Phenomena in Ionized Gas, pp.1392-1394, Prague(Czech Republic), 2007.
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  67. The partitioning behavior of boron in a coal fired power plant, S. Kambara, H. Moritomi, Proc. 233rd ACS National Meeting & Exposition, CD-ROM-FUEL-036, Chicago(USA), 2007.
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  68. Improvement of energy efficiency by dynamic flow of NO and radicals in ammonia radical injection using an intermittent DBD DeNOx system, K. Yukimura, S. Kambara, Y. Kumano, S. Toramoto, H. Moritomi, Proc. IEEE Int. Conf. on Plasma Science, p.253, Traverse City(USA), 2006.
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  69. Modeling of De-NOx Reaction by ammonia radicals generated from atmospheric plasma, S. Kambara, CDAJ Users Meeting Keynote lecture A-3, Yokohama(Japan), 2005.
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  70. Development of sorbents for heavy metal removal under high temperature condition, H. Usuda, S. Kambara, H. Moritomi, Advanced Gas Cleaning Technology, 6, pp.623-630, 2005.
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  71. Simple and rapid analysis of heavy metal in sub-micron particulates in flue gas, Y. Yamamoto, R. Yoshiie, S. Uemiya, S. Kambara, H. Moritomi, Advanced Gas Cleaning Technology, 6, pp.585-591, 2005.
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  72. Retention of alkali and heavy metal elements with multiple sorbents, M. Mizutani, S. Kambara, H. Moritomi, K. Abe, Y. Yonemochi, M. Tsukada, H. Kamiya, Advanced Gas Cleaning Technology, 6, pp.504-507, 2005.
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  73. Dry gas cleaning in coal gasification system for fuel cells, M. Tsukada, K. Abe, Y. Yonemochi, A. Ameyama, H. Kamiya, S. Kambara, H. Moritomi, T. Uehara, Advanced Gas Cleaning Technology, 6, pp.448-454, 2005.
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  74. High temperature flue gas control system with getter particles and ceramic filter, H. Moritomi, S. Aito, A. Torii, M. Fujine, S. Kambara, T. Imai, M. Yamamoto, K. Takeshita, Y. Tsutsumi, Advanced Gas Cleaning Technology, 6, pp.20-29, 2005.
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  75. Investigations on trace elements distribution in PM from a pulverized coal combustion process, T. Yamagichi, S. Kambara, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2005, CD-ROM-3P-05, Okinawa(Japan), 2005.
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  76. Cost simulation study for the biomass co-combustion system in large scale power plant, A. Nishiyama, Y. Harigane, S. Kambara, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2005, CD-ROM-2E-10, Okinawa(Japan), 2005.
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  77. Coal quality impacts on partitioning of boron in coal fired power plants, S. Kambara, A. Yoshida, T. Yamagichi, T. Kuwabara, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2005, CD-ROM-2A-05, Okinawa(Japan), 2005.
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  78. Study on boron behavior in pulverized coal fired process, T. Kuwabara, S. Kambara, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2005, CD-ROM-2A-04, Okinawa(Japan), 2005.
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  79. Heat-transfer model of heat exchanger tube immersed in pressurized fluidized bed boiler,T. Sakata, T. Iwase, S. Kambara, H. Moritomi, Proc. Int. Conf. Coal Science & Technology 2005, CD-ROM-1D-10, Okinawa(Japan), 2005.
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  80. Molar ratio dependence of DeNOx by ammonia radical injection using intermittent dielectric barrier discharge, K. Yukimura, T. Hiramatsu, S. Kambara, H. Moritomi, T. Yamashita, IEEE Int. Conf. Plasma Science, p.340, Monterey(USA), 2005.
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  81. High efficiency NO reduction by ammonia radicals generated from dielectric barrier discharge, Y. Kumano, S. Kambara, H. Moritomi, K. Yukimura, K. Kawamura, T. Yamashita, Proc. APCChE Congress, 10, CD-ROM-1P-06-001, Kitakyushu(Japan), 2004.
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  82. Behavior of trace metals in coal gasification with high pressure steam, K. Kumabe, M. Taniguchi, A. Ichihashi, R. Yoshiie, S. Kambara, H. Moritomi, Proc. APCChE Congress, 10, CD-ROM-1P-02-028, Kitakyushu(Japan), 2004.
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  83. Mercury behavior in flue gas control system with sorbent, H. Moritomi, S. Kambara, N. Fujiwara, Y. Fujita, K. Tomura, Proc. Annual Int. Pittsburgh Coal Conf., 21, CD-ROM-29-2, Osaka(Japan), 2004.
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  84. Effects of coal types on trace elements emission in pulverized coal fired process, T. Kuwabara, S. Kambara, H. Moritomi, Proc. Annual Int. Pittsburgh Coal Conf., 21, CD-ROM-11-3, Osaka(Japan), 2004.
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  85. Reduction of nitrogen oxide using ammonia radicals prepared by intermittent dielectric barrier discharge, K. Kawamura, K. Yukimura, S. Kambara, H. Moritomi, T. Yamashita, IEEE Int. Conf. Plasma Science, p.211, Baltimore(USA), 2004.
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  86. Relationship between chlorine and trace elements in coal combustion process, Y. Y. Zhueng, R. Yoshiie, S. Uemiya, S. Kambara, H. Moritomi, FLUIDIZATION, 8, pp.344-351, 2003.
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  87. Subcritical steam gasification of organic waste under the presence of Ca-based CO2 Sorbents, K. Kumabe, R. Yoshiie, S. Kambara, H. Moritomi, K. Kuramoto, Y. Suzuki, H. Hatano, S-Y. Lin, FLUIDIZATION, 8, pp.293-298, 2003.
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  88. Characteristic of hydrogen production from coal tar with high temperature and high pressure water, K. Yoshida, K. Kumabe, R. Yoshiie, S. Uemiya, S. Kambara, H. Moritomi, FLUIDIZATION, 8, pp.287-292, 2003.
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  89. Oxygen effect of high concentration NO removal using an intermittent DBD generation, K. Yamamoto, K. Kawamura, K. Yukimura, S. Kambara, H. Moritomi, T. Yamashita, Advances in Applied Plasma Science, 4, pp.411-414, 2003.
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  90. Effect of gap length of DBD for NO reduction using ammonia radical injection method, K. Kawamura, K. Yamamoto, K. Yukimura, S. Kambara, H. Moritomi, T. Yamashita, Advances in Applied Plasma Science, 4, pp.407-410, 2003.
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  91. Laser-Raman microscope investigation for coal and char characterization, S. Kambara, D. Kamihashira, Proc. 8th Japan-China Symposium on Coal and C1 Chemistry, S5-p.22, Kitakyushu(Japan), 2003.
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  92. Optimum conditions for de-NOx by ammonia radical injection generated by an intermittent dielectric barrier discharge, K. Yukimura, I. Nagao, K. Yamamoto, S. Kambara, T. Maruyama, Proc. 8th Int. Conf. Adv. Oxidation Tech. for Water and Air Remediation, p.69, Toronto(Canada), 2002.
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  93. Effect of oxygen and gas temperature for ammonia radical injection De-NOx using one-cycle sinusoidal dielectric barrier discharge, K. Yukimura, I. Nagao, K. Yamamoto, S. Kambara, T. Maruyama, Proc. 8th Int. Conf. Adv. Oxidation Tech. for Water and Air Remediation, p.63, Toronto(Canada), 2002.
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  94. Development of radical injection De-NOx process for coal-fired boilers, S. Kambara, K. Yukimura, Proc. 8th Int. Conf. Adv. Oxidation Tech. for Water and Air Remediation, p.25, Toronto(Canada), 2002.
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  95. The fate of boron in pulverized coal power station, S. Kambara, T. Yamaura, T. Teramae, M. Sindo, Y. Ikoma, K. Taniguchi, M. Nagano, Proc. 4th UK Meeting on Coal Research and Its Applications, S1-p.7, London(England), 2002.
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  96. Development of radical injection De-NOx system by intermittent dielectric barrier discharge, S. Kambara, I. Nagao, K. Yukimura, T. Maruyama, N. Meguri, Proc. 29th Int. Symp. on Combustion, p.22, Sapporo, Japan, 2002.
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  97. Reduction of nitrogen oxide using ammonia radical prepared by intermittent dielectric barrier discharge, I. Nagao, K. Yukimura, S. Kambara, T. Maruyama, Proc. 29th IEEE Int. Conf. on Plasma Science, p.256, Banff(Canada), 2002.
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  98. Optimum conditions for De-NOx by dielectric barrier discharge, I. Nagao, K. Yamamoto, K. Yukimura, S. Kambara, T. Maruyama, Proc. Technical Meeting on Plasma Science and Technology and Pulsed Power Technology, pp.157-161, Hawaii(USA), 2002.
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  99. Application of microwave induced plasma-mass spectrometer (MIP-MS) for routine analysis of trace elements in coals, A. Sharma, A. Tomita, S. Kambara, T. Teramae, Proc. Int. Conf. Coal Science, 11, CD ROM-No.421, San Francisco(USA), 2001.
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  100. Laser-Raman microscope studies on coal characterization and char burnout, S. Kambara, K. Taniguchi, M. Harada, Proc. Int. Conf. Coal Science, 11, CD ROM-No.242, San Francisco(USA), 2001.
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  101. NOx removal using nitrogen gas excited by dielectric barrier discharge at atmospheric pressure, I. Nagao, M. Nishida, K. Yukimura, S. Kambara, T. Maruyama, Advances in Applied Plasma Science, 3, pp.209-214, 2001.
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  102. NOx removal using ammonia radicals prepared by intermittent dielectric barrier discharge in atmospheric pressure, M. Nishida, K. Yukimura, S. Kambara, T. Maruyama,, Proc. Int. Conf. High-Power Particle Beams, 13, pp.486-489 , Nagoya(Japan), 2001.
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  103. Laser Raman microscope and XPS investigations on char reactivities, S. Kambara, Y. Fusegawa, T. Yamada, M. Harada, S. Shinozaki, Proc. Int. Conf. Coal Science, 9, Part 2, pp.1241-1244, Essen(Germany), 1997
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  104. XPS investigation to determine nitrogen functional forms in coals, Y. Sawada, T. Ninomiya, A. Sato, S. Kambara, Proc. Int. Conf. Coal Science, 9, Part 1, pp.433-436, Essen(Germany), 1997.
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  105. A comprehensive evaluation system of coal quality impacts on pulverized coal combustion boilers, S. Kambara, T. Yamada, The Effects of Coal Quality on Power Plants, 5, pp.15-29, 1997.
  106. Three-dimensional simulation of coal burn-off under air-staged conditions, M. Sato, H. Tominaga, S. Kambara, T. Yamada, Proc. Thermal Eng., 5, pp.233-238, Reno(USA), 1991.
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  107. The effect of coal quality on nitrogen oxides formation during pulverized coal combustion, T. Yamada, S. Kambara, H. Tominaga, H. Matsuoka, Proc. Int. Conf. Coal Science, 5, Part 1, pp.273-276, Tokyo(Japan), 1989.
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  108. The effect of internals on the elutriation of particles from fluidized bed, K. Kato, S. Kambara, T. Tajima, H. Shibazaki, K. Ozawa, T. Hanzawa, Proc. World Congr. III Chem. Eng., 3, pp.532-535, Nagoya(Japan), 1986.
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