学会・論文
Jounals
◆Kinetic Study of Subcritical Steam Gasification of Coal Using Calcium Based Carbon Dioxide Sorbent, K. Kumabe,Y. Nishimura, S. Kambara, H. Moritomi, Ind. Eng. Chem. Res., 53, pp.2183-2188, 2014.
◆大気圧非平衡プラズマによる水素酸化におけるNOx生成特性, 神原信志, 古谷野文香, 武山彰宏, 刑部友敬, 隈部和弘, 守富 寛, 日本燃焼学会誌, in 55(173), pp.278-284, 2013.
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◆真空紫外線で励起したアンモニアによる無触媒脱硝, 武山彰宏, 神原信志, 近藤光浩, 菱沼宣是, 増井 芽, 村田 豊, 守富 寛, 日本機械学会論文集B編, 79(801), pp.64-68, 2013.
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◆Material balances of major and trace elements in hydrogen production process from coal with CO2 recovery, K. Kumabe, H. Moritomi, W. Ito, S. Kambara, T. Minowa, K. Sakanishi, Fuel, 107, pp.40-46, 2013.
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◆Direct quantitative analysis of arsenic in coal fly ash,
S. Hartuti, S. Kambara, A. Takeyama, K. Kumabe, H. Moritomi, J. Analytical Methods in Chemistry, Vol. 2012, 6 pages, 2012.
◆大気圧プラズマで励起したアンモニアの化学組成と脱硝特性の関係,
神原信志, 早川幸男, 増井 芽, 三浦友規, 隈部和弘, 守富 寛, 日本機械学会論文集B編, 78(789), pp.1038-1042, 2012.
◆大気圧非平衡プラズマによるN2O分解特性,
神原信志, 奥田智紀, 岩田豊広, 佐々木統一郎, 隈部 和弘, 守富 寛, 日本機械学会論文集B編, 78(789), pp.1034-1037, 2012.
◆Removal of nitric oxide by activated ammonia generated by vacuum ultraviolet radiation,
S. Kambara, Y. Hayakawa, M. Masui, N. Hishinuma, K. Kumabe, H. Moritomi, Fuel, 94, pp.274-279, 2012.
◆Atmospheric mercury dispersion modeling from two nearest hypothetical point sources in the sea of Japan west coastal area near Ise bay,
Khandakar Habib Al Razi, H. Moritomi, S. Kambara, Int. J Energy Environment, 3(2), pp.181-194, 2012.
◆Exposure assessment of mercury and its compounds by dispersion modeling: A case study in the sea of Japan coastal area,
Khandakar Habib Al Razi, H. Moritomi, S. Kambara, Air Soil and Water Research, 4, pp.81-92, 2011.
◆Behavior of mercury in solid particles collected from a very cols electrostatic precipitator,
K. Kumabe, S. Kambara, T. Yamaguch, R. Yoshiie, H. Moritomi, J. Jpn. Inst. Energy, 89(9), pp.903-908, 2010.
◆DeNOx characteristics using two staged radical injection techniques,
S. Kambara, Y. Kumano, K. Yukimura, IEEE Trans. Dielect. Elect. Ins., 16(3), pp.778-784, 2009.
◆Hydrogen oxidation in H2/O2/N2 gas mixture by pulsed DBD at atmospheric pressure,
S. Kambara, R. Kuriyama, T. Osakabe, K. Yukimura, Int. J. Hydrogen Energy, 33(22), pp.6792-6799, 2008.
◆大気圧非平衡プラズマによる水素の酸化特性,
刑部友敬, 神原信志, 栗山諒二, 古谷野文香, 行村 建, 守富 寛, 日本燃焼学会誌, 50(152), pp.136-144, 2008.
◆Basic characteristics of food waste and food ash on steam gasification,
M. Tanaka, H. Ozaki, A. Ando, S. Kambara, H. Moritomi, Ind. Eng. Chem. Res., 47(7), pp.2414-2419, 2008.
◆Dry gas cleaning in coal gasification systems for fuel cells using composites sorbents,
M. Tsukada, K. Abe, Y. Yonemochi, A. Ameyama, H. Kamiya, S. Kambara, H. Moritomi, T. Uehara, Powder Tech., 180(1-2), pp.232-238, 2008.
◆Simple and rapid analysis of heavy metals in sub-micron particulates in flue gas,
R. Yoshiie, Y. Yamamoto, S. Uemiya, S. Kambara, H. Moritomi, Powder Tech., 180(1-2), pp.135-139, 2008.
◆Combustion characteristics of hydrogen in a catalytic fluidized bed,
T. Osakabe, H. Moritomi, S. Kambara, S. Hibino, J. Jpn. Inst. Energy, 86(10), pp.814-821, 2007.
◆Fuel and emission properties of stirling engine operated with wood powder,
A. Nishiyama, H. Shimojima, A. Ishikawa, Y. Itaya, S. Kambara, H. Moritomi, S. Mori, Fuel, 86(15), pp.2333-2342, 2007.
◆Study on chemical form of boron in coal by solid-state nuclear magnetic resonance spectroscopy,
T. Kuwabara, S. Kambara, H. Moritomi, J. Jpn. Inst. Energy, 86(7), pp.455-461, 2007.
◆石炭火力での木質バイオマス混焼の可能性評価,
西山昭雄, 神原信志, 守富 寛, Thermal and Nuclear Power, 58(3), pp.219-228, 2007.
◆Efficient decomposition of NO by ammonia radical-injection method using an intermittent dielectric barrier discharge,
K. Yukimura, K. Kawamura, T. Hiramatsu, H. Murakami, S. Kambara, H. Moritomi, T. Yamashita, Thin Solid Film, 515(9), pp.4278-4282, 2007.
◆石炭中ホウ素の分布と化学形態に関する研究,
桑原 隆, 神原信志, 守富 寛, 資源と素材, 122(10-11), pp.497-503, 2006.
◆Molar ratio and energy efficiency of DeNOx using an intermittent DBD ammonia radical injection system,
K. Yukimura, T. Hiramatsu, H. Murakami, S. Kambara, H. Moritomi, T. Yamashita, IEEE Trans. Plasma Sci., 34(2), pp.235-241, 2006.
◆加圧流動層内における摩耗防止カバー付伝熱管のギャップ内粒子層有効熱伝導度の予測,
坂田太郎, 岩瀬徹哉, 神原信志, 守富 寛, 化学工学論文集, 32(3), pp.246-252, 2006.
◆焼成ドロマイトと硫化水素との反応性に及ぼすMgO含有量の影響,
今井 勉, 神原信志, 守富 寛, J. Soc. Inorganic Materials Jpn, 13(321), pp.90-97, 2006.
◆産地別石灰石から得られた生石灰の脱硫反応性評価指標の開発,
今井 勉, 神原信志, 守富 寛, J. Soc. Inorganic Materials Jpn., 13(320), pp.16-23, 2006.
◆Monitoring of volatile cadmium in flue gas from the waste incineration process using LIBS,
R. Yoshiie, A. Koijma, S. Uemiya, M. Nishimura, S. Kambara, H. Moritomi, J. Chem. Eng. Jpn,38(7), pp.528-534, 2005.
◆Characteristics of hydrogen production from coal tar with subcritical steam,
K. Kumabe, H. Moritomi, K. Yoshida, R. Yoshiie, S. Kambara, Ind. Eng. Chem. Res., 44(6), pp.1950-1953, 2005.
◆Trace elements behavior in coal gasification based on thermodynamics equilibrium calculation,
Y. Y. Zhueng, H. Moritomi, S. Kambara, R. Yoshiie, S. Uemiya, J. Jpn. Inst. Energy, 84(5), pp.431-437, 2005.
◆Correlation of energy efficiency of NO removal by intermittent DBD radical,
K. Yukimura, K. Kawamura, S. Kambara, H. Moritomi, T. Yamashita, IEEE Trans. Plasma Sci., 33(2), pp.763-770, 2005.
◆Optimum conditions for NO Reduction using intermittent dielectric barrier discharge at atmospheric pressure,
S. Kambara, Y. Kumano, H. Moritomi, I. Nagao, K. Yamamoto, K. Yukimura, T. Maruyama, Jpn. J. Appl. Phys., 44(3), Part I, pp.1427-1430, 2005.
◆Leaching characteristics of boron and selenium for various coal fly ashes,
A. Iwashita, Y. Sakaguchi, T. Nakajima, H. Takanashi, A. Ohki, S. Kambara, Fuel, 84(5), pp.479-485, 2005.
◆Gasification of organic waste with subcritical steam under the presence of a calcium-based carbon dioxide sorbent,
K. Kumabe, H. Moritomi, R. Yoshiie, S. Kambara, K. Kuramoto, Y. Suzuki, H. Hatano, S-Y Lin, M. Harada, Ind. Eng. Chem. Res., 43(22), pp.6943-6947, 2004.
◆Effect of O2 on NO removal by ammonia radical injection using one-cycle sinusoidal power source,
K. Yamamoto, K. Yukimura, S. Kambara, H. Moritomi, T. Yamashita, T. Maruyama, Thin Solid Film, 457(1), pp.39-43, 2004.
◆Oxygen effect of high concentration NO removal using an intermittent DBD,
K. Yamamoto, K. Kawamura, K. Yukimura, S. Kambara, H. Moritomi, T. Yamashita, T. Maruyama, Vacuum,73(3-4), pp.583-588, 2004.
◆NOx removal using nitrogen gas activated by dielectric barrier discharge at atmospheric pressure,
I. Nagao, M. Nishida, K. Yukimura, S. Kambara, T. Maruyama, Vacuum,65(3-4), pp.481-487, 2002.
◆Reduction of nitrogen oxide in N2 by NH3 using intermittent dielectric barrier discharge,
M. Nishida, K. Yukimura, S. Kambara, T. Maruyama, J. Appl. Phys., 90(6), pp.2672-2677, 2001.
◆NOx removal using ammonia radicals prepared by intermittent dielectric barrier discharge at atmospheric pressure,
M. Nishida, K. Yukimura, S. Kambara, T. Maruyama, Jpn. J. Appl. Phys., 40(2B), Part I, pp.1114-1117, 2001.
◆顕微レーザーラマン分光法を用いた石炭炭素質の分析と燃焼性評価,
神原信志, 環境と測定技術, 25(4), pp.68-71, 1998.
◆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.
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◆微粉炭燃焼における炭質評価技術の進歩-NOx発生量の評価-,
神原信志, ボイラ研究, 275, pp.25-29, 1996.
◆石炭燃焼におけるNOx生成機構の解明,
神原信志, 環境研究, 103, pp.26-31, 1996.
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◆Relation between functional forms of coal nitrogen and NOx emissions from pulverized coal combustion,
S. Kambara, T. Takarada, M. Toyoshima, K. Kato, Fuel, 74(9), pp.1247-1253, 1995.
◆A proposal of more practical coal quality evaluation procedures for pulverized coal combustion,
T. Yamada, S. Kambara, The Effects of Coal Quality on Power Plants, 4, pp.51-65, 1994.
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◆Relation between functional forms of coal nitrogen and formation of NOx precursors during rapid pyrolysis,
S. Kambara, T. Takarada, Y. Yamamoto, K. Kato, Energy Fuels, 7(6), 1013-1020, 1993.
◆微粉炭燃焼初期段階でのNOx生成に及ぼす炭種の影響,
神原信志, 宝田恭之, 中川紳好, 加藤邦夫, 化学工学論文集, 19(3), pp.496-504, 1993.
◆急速熱分解における石炭中窒素の挙動と石炭燃焼におけるNOx生成の関係,
神原信志, 宝田恭之, 中川紳好, 加藤邦夫, 化学工学論文集, 18(6), pp.920-927, 1992.
◆石炭チャーの水蒸気ガス化およびCO2ガス化における反応速度の推算,
宝田恭之, 井田直幸, 日置明夫, 神原信志, 山本美奈子, 加藤邦夫, 燃料協会誌, 67(12), pp.1061-1069, 1988.
◆Effect of particle size on elutriation rate constant for a fluidized bed,
K. Kato, S. Kanbara, T. Tajima, H. Shibazaki, K. Ozawa, T. Takarada, J. Chem. Eng. Japan, 20(5), pp.498-504, 1987.
◆流動層からの粒子の飛び出し速度に及ぼす垂直管群内挿物の影響,
加藤邦夫, 神原信志, 柴崎秀樹, 小沢賢二, 半沢 保, 化学工学論文集, 12(5), pp.615-619, 1986.