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Received August 23, 2023
Accepted August 23, 2023
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Development of A Microchannel Catalytic Reactor System
Department of Applied Chemistry, Kyushu University, Fukuoka 812-8581, Japan 1Department of Inorganic Materials, National Institute of Advanced Industrial Science and Technology, Kyushu, Tosu 841-0052, Japan
Korean Journal of Chemical Engineering, May 2001, 18(3), 271-276(6), 10.1007/BF02699164
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Abstract
The purpose of this article is to demonstrate the applicability of microreactors for use in catalytic reactions at elevated temperatures. Microchannels were fabricated on both sides of a silicon wafer by wet chemical etching after pattern transfer using a negative photoresist. The walls of the reactor channel were coated with a platinum layer, for use as a sample catalyst, by sputtering. A heating element was installed in the channel on the opposite surface of the reactor channel. The reactor channel was sealed gas-tight with a glass plate by using an anodic bonding technique. A small-scale palladium membrane was also prepared on the surface of a 50-mm thick copper film. In the membrane preparation, a negative photoresist was spin-coated and solidified to serve as a protective film. A palladium layer was then electrodeposited on the other uncovered surface. After the protective film was removed, the resist was again spin-coated on the copper surface, and a pattern of microslits was transferred by photolithography. After development, the microslits were electrolitically etched away, resulting in the formation of a palladium membrane as an assemblage of thin layers formed in the microslits. The integration of the microreactor and the membrane is currently under way.
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References
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Chambers RD, Spink RCH, Chem. Commun., 883 (1999)
Cui T, Fang J, Zheng A, Jones F, Reppond A, Sens. Actuators B-Chem., 71, 228 (2000)
Ehrfeld W, "Microreaction Technology, Industrial Prospects," Springer, Berlin, Germany (2000)
Ehrfeld W, Hessel V, Lowe H, "Microreactors," Wiley-VCH, Weinheim Germany (2000)
Fletcher P, Haswell S, Chem. Britain, 35, 38 (1999)
Franz AJ, Ajmera SA, Firebaugh SL, Jensen KF, Schmidt MA, "Expnsion of Microeactor Capabilities through Improved Thermal Mangement and Catalyst Deposition," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 197 (2000)
Freemantle M, Chem. Eng. News, 77(8), 27 (1999)
Greenway GM, Haswell SJ, Morgan DO, Skelton V, Styring P, Sens. Actuators B-Chem., 63, 153 (2000)
Hessel V, Ehrfeld W, Golbig K, Hofmann C, Jungwirth S, Lowe H, Richter T, Storz M, Wolf A, Worz O, Breysse J, "High Temperature HCN Generation in an Integrated Microreaction System," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 151 (2000)
Haswell SJ, Skelton V, Trends in Anal. Chem., 19, 389 (2000)
Hsing IM, Srinivasan R, Harold MP, Jensen KF, Schmidt MA, Chem. Eng. Sci., 55(1), 3 (2000)
Jahnisch K, Baerns M, Hessel V, Ehrfeld W, Haverkamp V, Lowe H, Wille C, Guber A, J. Fluor. Chem., 105, 117 (2000)
Janicke MT, Kestenbaum H, Hagendorf U, Schuth F, Fichtner M, Schubert K, J. Catal., 191(2), 282 (2000)
Jensen KF, Chem. Eng. Sci., 56(2), 293 (2001)
Kestenbaum H, de Oliveria AL, Schmidt W, Schuth F, Ehrfeld W, Gebauer K, Lowe H, Richter T, "Synthesis of Ethylene Oxide in Microreaction System," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 207 (2000)
Kursawe A, Dietzsch E, Kah S, Honicke D, Fichtner M, Schubert K, WieBmeier G, "Selective Reactions in Microchannel Reactors," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 213 (2000)
Kusakabe K, Miyagawa D, Gu Y, Maeda H, Morooka S, J. Chem. Eng. Jpn., 34(3), 441 (2001)
Kusakabe K, J. Chem. Eng. Jpn., in press (2001)
Lee A, Tonkovich Y, Fitzgerald SP, Zilka JL, LaMont MJ, Wang Y, Vander Wiel DP, Wegeng RS, "Microchannel Chemical Reactors for Fuel Processing Applications. II. Compact Fuel Vaporization," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 364 (2000)
Lerou JJ, Ng KM, Chem. Eng. Sci., 51(10), 1595 (1996)
Liauw MA, Baerns M, Broucek R, Buyevskaya OV, Commenge JM, Corriou JP, Falk L, Gebauer K, Hefter HJ, Langer OU, Lowe H, Matlosz M, Renken A, Rouge A, Schenk R, Steinfeldt N, Walter S, "Periodic Operation in Microchannel Reactors," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 224 (2000)
Losey MW, Schmidt MA, Jensen KF, "A Micro Packed-Bed Reactor for Chemical Synthesis," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 277 (2000)
Lowe H, Ehrfeld W, Electrochim. Acta, 44(21-22), 3679 (1999)
Martin PM, Matson DW, Bennett WD, Chem. Eng. Commun., 173, 245 (1999)
Mayer J, Fichtner M, Wolf D, Schubert K, "A Microstructured Reactor for the Catalytic Partial Oxidation of Methane to Syngas," Microreaction Technology, Industrial, Ed. W. Ehrfeld, Springer, Berlin, 187 (2000)
Mex L, Muller J, "Miniaturised Direct Methanol Fuel Cell with a Plasma Polymerised Electrolyte Membrane," Microreaction Technology, Industrial Prospects, Ed. W. Ehrfeld, Springer, Berlin, 402 (2000)
Morooka S, Yan SC, Yokoyama S, Kusakabe K, Sep. Sci. Technol., 30(14), 2877 (1995)
Quiram DJ, Hsing IM, Franz AJ, Jensen KF, Schmidt MA, Chem. Eng. Sci., 55(16), 3065 (2000)
Sadykov VA, Pavlova SN, Saputina NF, Zolotarskii IA, Pakhomov NA, Moroz EM, Kuzmin VA, Kalinkin AV, Catal. Today, 61(1-4), 93 (2000)
Srinivasan R, Hsing IM, Berger PE, Jensen KF, Firebaugh SL, Schmidt MA, Harold MP, Lerou JJ, Ryley JF, AIChE J., 43(11), 3059 (1997)
Stepanek F, Kubicek M, Marek M, Adler PM, Chem. Eng. Sci., 54(10), 1493 (1999)
Tsubota T, Miyagawa D, Kusakabe K, Morooka S, Kag. Kog. Ronbunshu, 26, 895 (2000)
Wilson NG, McCreedy T, Chem. Commun., 733 (2000)
Worz O, Jackel KP, Richter T, Wolf A, Chem. Eng. Sci., 56(3), 1029 (2001)
Yan SC, Maeda H, Kusakabe K, Morooka S, Ind. Eng. Chem. Res., 33(3), 616 (1994)