Relevant bibliographies by topics / Chemical Reaction Engineering

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Chemical Reaction Engineering'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Chemical Reaction Engineering"

1

Levenspiel, Octave. "Chemical Reaction Engineering." Industrial & Engineering Chemistry Research 38, no. 11 (1999): 4140–43. http://dx.doi.org/10.1021/ie990488g.

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Hinrichsen, Kai-Olaf, and Elias Klemm. "Chemical Reaction Engineering." Chemical Engineering & Technology 39, no. 11 (2016): 1992. http://dx.doi.org/10.1002/ceat.201690063.

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Carpenter, K. J. "Chemical reaction engineering aspects of fine chemicals manufacture." Chemical Engineering Science 56, no. 2 (2001): 305–22. http://dx.doi.org/10.1016/s0009-2509(00)00231-1.

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Scott Fogler, H. "Elements of chemical reaction engineering." Chemical Engineering Science 42, no. 10 (1987): 2493. http://dx.doi.org/10.1016/0009-2509(87)80130-6.

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Turner, J. C. R. "Frontiers in chemical reaction engineering." Chemical Engineering Science 40, no. 6 (1985): 1031. http://dx.doi.org/10.1016/0009-2509(85)85019-3.

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Gygax, R. "Chemical reaction engineering for safety." Chemical Engineering Science 43, no. 8 (1988): 1759–71. http://dx.doi.org/10.1016/0009-2509(88)87040-4.

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Brooks, B. W. "Frontiers in chemical reaction engineering." Chemical Engineering Journal 32, no. 1 (1986): 63–64. http://dx.doi.org/10.1016/0300-9467(86)85008-0.

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Holmes, Thomas D., Rachael H. Rothman, and William B. Zimmerman. "Graph Theory Applied to Plasma Chemical Reaction Engineering." Plasma Chemistry and Plasma Processing 41, no. 2 (2021): 531–57. http://dx.doi.org/10.1007/s11090-021-10152-z.

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AbstractThis work explores the following applications of graph theory to plasma chemical reaction engineering: assembly of a weighted directional graph with the key addition of reaction nodes, from a published set of reaction data for air; graph visualisation for probing the reaction network for potentially useful or problematic reaction pathways; running Dijkstra’s algorithm between all species nodes; further analysis of the graph for useful engineering information such as which conditions, reactions, or species could be enhanced or supressed to favour particular outcomes, e.g. targeted chemi
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SHIRAFUJI, Tatsuru. "Chemical Reaction Engineering of Plasma CVD." Journal of High Temperature Society 37, no. 6 (2011): 281–88. http://dx.doi.org/10.7791/jhts.37.281.

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吕, 椰子. "Future Development of Chemical Reaction Engineering." Hans Journal of Chemical Engineering and Technology 01, no. 01 (2011): 1–3. http://dx.doi.org/10.12677/hjcet.2011.11001.

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Dissertations / Theses on the topic "Chemical Reaction Engineering"

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Galagali, Nikhil. "Bayesian inference of chemical reaction networks." Thesis, Massachusetts Institute of Technology, 2016. http://hdl.handle.net/1721.1/104253.

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Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (pages 189-198).<br>The development of chemical reaction models aids system design and optimization, along with fundamental understanding, in areas including combustion, catalysis, electrochemistry, and biology. A systematic approach to building reaction network models uses available data not only to estimate unknown parameters, but to also learn the model structure. Bayesian inference provides a natural approach for
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Rowe, Stephen Michael. "The use of reaction inhibition techniques for control of runaway polymerisation reactions." Thesis, London South Bank University, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.336802.

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Keskin-Schneider, Aliye. "Engineering reaction kinetics in sulfite and sulfite-anthraquinone pulping." Thesis, McGill University, 1991. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=70207.

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In this study, engineering reaction kinetics of sulfite and sulfite-anthraquinone pulping of black spruce wood are investigated. The considered sulfite processes are neutral-sulfite (NS), neutral sulfite-anthraquinone (NS-AQ), neutral sulfite semichemical (NSSC) and neutral sulfite semichemical anthraquinone (NSSC-AQ).<br>In preliminary studies, an experimental design was tested and optimum kinetic conditions were found so that penetration and diffusion would not be the rate-controlling steps and the amount of anthraquinone would not be reaction limiting.<br>Delignification and carbohydrate de
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Gao, Connie W. (Connie Wu). "Automatic reaction mechanism generation :." Thesis, Massachusetts Institute of Technology, 2016. http://hdl.handle.net/1721.1/104205.

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Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2016.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references.<br>Growing awareness of climate change and the risks associated with our society's dependence on fossil fuels has motivated global initiatives to develop economically viable, renewable energy sources. However, the transportation sector remains a major hurdle. Although electric vehicles are becoming more mainstream, the transportation sector is expected to continue relying heavily on combustion engines, particularly in
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Akintoye, Ayodele. "Continuous chromatographic biochemical reaction-separation." Thesis, Aston University, 1989. http://publications.aston.ac.uk/9739/.

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Combined bioreaction separation studies have been carried out for the first time on a moving port semi-continuous counter-current chromatographic reactor-separator (SCCR-S1) consisting of twelve 5.4cm id x 75cm long columns packed with calcium charged cross-linked polystyrene resin (KORELA V07C). The inversion of sucrose to glucose and fructose in the presence of the enzyme invertase and the biochemIcal synthesis of dextran and fructose from sucrose in the presence of the enzyme dextransucrase were investigated. A dilute stream of the appropriate enzyme in deionised water was used as the eluen
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Knight, Daniel William. "Reactor behavior and its relation to chemical reaction network structure." The Ohio State University, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=osu1438274630.

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Serbetcioglu, Serpil. "Mass transfer and catalytic reaction in a three-phase monolith reactor." Thesis, University of Bath, 1993. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.332665.

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Lekakou, Constantina. "Simulation of flow, reaction and heat transfer in reaction injection moulding." Thesis, Imperial College London, 1987. http://hdl.handle.net/10044/1/47048.

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Mamtani, Kuldeep. "Carbon-based Materials for Oxygen Reduction Reaction (ORR) and Oxygen Evolution Reaction (OER) in Acidic Media." The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu149376896628355.

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Nadeau, Patrice. "Study of the mixing with chemical reaction in a cross flow impinging jet aerosol reactor." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape3/PQDD_0029/NQ64625.pdf.

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Books on the topic "Chemical Reaction Engineering"

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Chemical reaction engineering. 3rd ed. Wiley, 1999.

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Jyri-Pekka, Mikkola, and Warna P, eds. Chemical reaction engineering and reactor technology. Taylor & Francis, 2009.

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Tapio, Salmi, Mikkola Jyri-Pekka, and Wärnå Johan. Chemical Reaction Engineering and Reactor Technology. Chapman and Hall/CRC, 2019. http://dx.doi.org/10.1201/9781315200118.

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Fogler, H. Scott. Elements of chemical reaction engineering. 3rd ed. Prentice Hall PTR, 1999.

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Fogler, H. Scott. Elements of chemical reaction engineering. 2nd ed. Prentice-Hall, 1992.

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Elements of chemical reaction engineering. 4th ed. Prentice Hall PTR, 2006.

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Holland, Charles Donald. Fundamentals of chemical reaction engineering. 2nd ed. Prentice-Hall, 1989.

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Fogler, H. Scott. Elements of chemical reaction engineering. Prentice-Hall, 1986.

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Fogler, H. Scott. Elements of chemical reaction engineering. 2nd ed. Prentice-Hall, 1992.

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Shah, Yatish T. Cavitation reaction engineering. Kluwer Academic/Plenum Publishers, 1999.

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Book chapters on the topic "Chemical Reaction Engineering"

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Tapio, Salmi, Mikkola Jyri-Pekka, and Wärnå Johan. "Chemical Reaction Engineering." In Chemical Reaction Engineering and Reactor Technology. Chapman and Hall/CRC, 2019. http://dx.doi.org/10.1201/9781315200118-11.

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Yeo, Yeong Koo. "Chemical Reaction Engineering." In Chemical Engineering Computation with MATLAB®. CRC Press, 2020. http://dx.doi.org/10.1201/9781003090601-06.

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Jakobsen, Hugo A. "Chemical Reaction Engineering." In Chemical Reactor Modeling. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-05092-8_6.

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Himadri, Roy Giratali. "Chemical Kinetics." In Reaction Engineering Principles. CRC Press, 2018. http://dx.doi.org/10.1201/9781315367781-3.

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Tassios, Dimitrios P. "Chemical Reaction Equilibrium." In Applied Chemical Engineering Thermodynamics. Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-662-01645-9_15.

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Tapio, Salmi, Mikkola Jyri-Pekka, and Wärnå Johan. "Optimization Aspects in Chemical Reaction Engineering." In Chemical Reaction Engineering and Reactor Technology. Chapman and Hall/CRC, 2019. http://dx.doi.org/10.1201/9781315200118-10.

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Wincek, John C. "Chemical Reaction Safety." In Handbook of Loss Prevention Engineering. Wiley-VCH Verlag GmbH & Co. KGaA, 2013. http://dx.doi.org/10.1002/9783527650644.ch24.

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Himadri, Roy Giratali. "Thermodynamics of Chemical Reaction." In Reaction Engineering Principles. CRC Press, 2018. http://dx.doi.org/10.1201/9781315367781-4.

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Tapio, Salmi, Mikkola Jyri-Pekka, and Wärnå Johan. "Toward New Reactor and Reaction Engineering." In Chemical Reaction Engineering and Reactor Technology. Chapman and Hall/CRC, 2019. http://dx.doi.org/10.1201/9781315200118-9.

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Vedrine, Rapporteur J. C. "Session Five, Chemical Kinetics and Chemical Engineering." In Elementary Reaction Steps in Heterogeneous Catalysis. Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-1693-0_29.

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Conference papers on the topic "Chemical Reaction Engineering"

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Freidin, Alexander B. "Chemical Affinity Tensor and Stress-Assist Chemical Reactions Front Propagation in Solids." In ASME 2013 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/imece2013-64957.

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We consider a stress-assist chemical reaction front propagation in a deformable solid undergoing a localized chemical reaction between solid and gas constituents. The reaction is sustained by the diffusion of the gas constituent through the transformed solid material. We introduce a chemical transformations strain tensor that relates two reference configurations of solid constituents. Then mass, momentum and energy balances are written down for the open system considered and the expression of the entropy production due to the reaction front propagation in a solid with arbitrary constitutive eq
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Kamel, John K., and Samuel Paolucci. "Numerical Simulation of a Chemical Vapor Deposition/Infiltration Reactor." In ASME 2006 International Mechanical Engineering Congress and Exposition. ASMEDC, 2006. http://dx.doi.org/10.1115/imece2006-16039.

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A chemical vapor deposition/infiltration reactor used to manufacture carbon aircraft brakes has been simulated numerically. This simulation accounts for a homogeneous gas reaction mechanism as well as a heterogeneous surface reaction mechanism. Non-Boussinesq equations are used to predict fluid flow, heat transfer, and species concentrations inside the reactor and porous brakes. A time-splitting algorithm is used to overcome stiffness associated with the reactions. A commercial code is used to solve for the convection/diffusion step while an implicit time-integration algorithm is used to solve
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Asano, Yukako, Shigenori Togashi, and Yoshishige Endo. "Optimization of Chemical Reaction Processes in Microreactors Using Reaction Rate Analyses." In ASME-JSME-KSME 2011 Joint Fluids Engineering Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/ajk2011-36013.

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We applied microreactors to the three following reactions: a consecutive bromination reaction, the two-step Sandmeyer reaction, and an acetylation reaction including solvent effects. We obtained the reaction rate constants from few experimental data or quantum chemical calculations and optimized the reaction conditions such as the reaction times and temperature. We then experimentally validated them by microreactors. A consecutive bromination reaction, where the objective reaction was followed by the side reaction, was one of the processes. The reaction temperature played an important role in
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Muhaimin, Muhaimin, Bayu Wiyantoko, Rahma Novia Putri, and Rika Rusitasari. "Determination of order reaction on hydrolysis reaction of pineapple leaf." In 2ND INTERNATIONAL CONFERENCE ON CHEMISTRY, CHEMICAL PROCESS AND ENGINEERING (IC3PE). Author(s), 2018. http://dx.doi.org/10.1063/1.5065010.

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Choi, Siusan, Alok A. Rege, and Brian H. Dennis. "Simulation Platform for Rapid Testing of Methods to Control Exothermic Chemical Reactions." In ASME 2015 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/imece2015-52134.

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In many applications involving chemical reactions, the efficiency of the process is dependent on the ability to control the temperature of the system. In case of an exothermic chemical reaction, maintaining the desired temperature of the system becomes difficult when the reaction heat is released rapidly once an activation temperature is reached. In this study, a multi-platform coupled simulation using ANSYS-FLUENT and MATLAB/Simulink was established to simulate the chemically reacting flows coupled with different control algorithms. To demonstrate this system, a simple test case was created.
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Willis, Mark J., and Sam Barker. "Towards the Automated Discovery of Chemical Reaction Networks." In Annual International Conference on Chemistry, Chemical Engineering and Chemical Process ( CCECP 2016 ). Global Science & Technology Forum ( GSTF ), 2016. http://dx.doi.org/10.5176/2301-3761_ccecp16.4.

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J. K. Hii, Charles, and Mark J. Willis. "Using a Multi-Objective Genetic Algorithm to Discover Chemical Reaction Networks." In Annual International Conference on Chemistry, Chemical Engineering and Chemical Process. Global Science & Technology Forum (GSTF), 2015. http://dx.doi.org/10.5176/2301-3761_ccecp15.18.

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Sharma, Poonam, and Rakesh Kumar Sharma. "Comparative study of Pt loaded carbon support catalysis in hydrogenation reaction." In Annual International Conference on Chemistry, Chemical Engineering and Chemical Process. Global Science & Technology Forum (GSTF), 2015. http://dx.doi.org/10.5176/2301-3761_ccecp15.65.

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Durandal, C., T. Lemenand, D. Della Valle, and H. Peerhossaini. "A Chemical Probe for Characterising Turbulent Micromixing." In ASME 2006 2nd Joint U.S.-European Fluids Engineering Summer Meeting Collocated With the 14th International Conference on Nuclear Engineering. ASMEDC, 2006. http://dx.doi.org/10.1115/fedsm2006-98146.

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Micromixing strongly affects the molecular-scale contact of chemical species in numerous chemical reactions. Understanding the mechanisms governing micromixing lets us explain the relationships between the turbulence structure and the selectivity of the reaction. The micromixing models in the literature for large Schmidt numbers (Sc∼1000) are of two sorts: stochastic models (principally the Curl model) and deterministic models (such as IEM and the “engulfment” model). These models are essentially based on phenomenological considerations and on the properties of small-scale eddies related to th
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Yang, Katerina, and Sin-Moh Cheah. "Active Learning in Chemical Reaction Engineering: Experience from Singapore Polytechnic." In 14th Asia Pacific Confederation of Chemical Engineering Congress. Research Publishing Services, 2012. http://dx.doi.org/10.3850/978-981-07-1445-1_564.

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Reports on the topic "Chemical Reaction Engineering"

1

Fort, J. A. Reaction Engineering International and Pacific Northwest Laboratory staff exchange: Addressing computational fluid dynamics needs of the chemical process industry. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/104431.

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