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Journal articles on the topic 'Microreactors – Design and construction'

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Published: 4 June 2021
Last updated: 1 February 2022

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1

Bojang, Adama A., and Ho-Shing Wu. "Design, Fundamental Principles of Fabrication and Applications of Microreactors." Processes 8, no. 8 (2020): 891. http://dx.doi.org/10.3390/pr8080891.

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This study highlights the development of small-scale reactors, in the form of microstructures with microchannel networking. Microreactors have achieved an impressive reputation, regarding chemical synthesis ability and their applications in the engineering, pharmaceutical, and biological fields. This review elaborates on the fabrication, construction, and schematic fundamentals in the design of the microreactors and microchannels. The materials used in the fabrication or construction of the microreactors include silicon, polymer, and glass. A general review of the application of microreactors
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2

Creer, J. Graham, Peter Jackson, Gordon Pandy, Gordon G. Percival, and Duncan Seddon. "The design and construction of a multichannel microreactor for catalyst evaluation." Applied Catalysis 22, no. 1 (1986): 85–95. http://dx.doi.org/10.1016/s0166-9834(00)82596-8.

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3

Rahman, Ahmad, Kano, and Mustafa. "Model Development and Exergy Analysis of a Microreactor for the Steam Methane Reforming Process in a CFD Environment." Entropy 21, no. 4 (2019): 399. http://dx.doi.org/10.3390/e21040399.

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Steam methane reforming (SMR) is a dominant technology for hydrogen production. For the highly energy-efficient operation, robust energy analysis is crucial. In particular, exergy analysis has received the attention of researchers due to its advantage over the conventional energy analysis. In this work, an exergy analysis based on the computational fluid dynamics (CFD)-based method was applied to a monolith microreactor of SMR. Initially, a CFD model of SMR was developed using literature data. Then, the design and operating conditions of the microreactor were optimized based on the developed C
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4

Malecha, Karol, Elżbieta Remiszewska, and Dorota G. Pijanowska. "Technology and application of the LTCC-based microfluidic module for urea determination." Microelectronics International 32, no. 3 (2015): 126–32. http://dx.doi.org/10.1108/mi-01-2015-0010.

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Purpose – The purpose of this paper is to focus on the technology and performance of the miniature microfluidic module for urea determination. The presented module was made using low-temperature co-fired ceramics (LTCC). It shows the possibility for the integration of the bioreceptor layers with structures that have been fabricated using modern microelectronic technology. Design/methodology/approach – The presented microfluidic module was fabricated using LTCC technology. The possibility for the fabrication of an enzymatic microreactor in a multilayer ceramic substrate, made of CeramTec glass
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5

Buaki-Sogo, Mireia, Hermenegildo Garcia, and Carmela Aprile. "Imidazolium-based silica microreactors for the efficient conversion of carbon dioxide." Catalysis Science & Technology 5, no. 2 (2015): 1222–30. http://dx.doi.org/10.1039/c4cy01258e.

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Imidazolium-based silica microreactors were synthesized through self-organization/polymerization of the amphipathic organic salts that behave as templates for the construction of silica architecture and as catalytic active sites. The organic–inorganic hybrid microreactors displayed excellent catalytic performance in the conversion of CO<sub>2</sub>.
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6

Sturm, Guido S. J., Martin D. Verweij, Andrzej I. Stankiewicz, and Georgios D. Stefanidis. "Microwaves and microreactors: Design challenges and remedies." Chemical Engineering Journal 243 (May 2014): 147–58. http://dx.doi.org/10.1016/j.cej.2013.12.088.

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7

Trantidou, T., M. S. Friddin, A. Salehi-Reyhani, O. Ces, and Y. Elani. "Droplet microfluidics for the construction of compartmentalised model membranes." Lab on a Chip 18, no. 17 (2018): 2488–509. http://dx.doi.org/10.1039/c8lc00028j.

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This tutorial review explores the use of droplet microfluidics to generate compartmentalised model membrane constructs that have potential applications as microreactors, as artificial cells in synthetic biology, as simplified cell models and as drug delivery vehicles.
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8

Naveira-Cotta, Carolina Palma, Christopher P. Tostado, Jose Martim Costa, and Jeziel S. Nunes. "MICROREACTORS FOR BIODIESEL SYNTHESIS: DESIGN, FABRICATION, AND CHARACTERIZATION." Heat Pipe Science and Technology, An International Journal 6, no. 3-4 (2015): 135–53. http://dx.doi.org/10.1615/heatpipescietech.v6.i3-4.30.

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9

Kolfschoten, Ruben C., Jan W. Swarts, Anja E. M. Janssen, and Remko M. Boom. "Guidelines for optimal design of coflow enzyme microreactors." Chemical Engineering Journal 172, no. 2-3 (2011): 1072–77. http://dx.doi.org/10.1016/j.cej.2011.06.063.

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10

Wörz, O., K. P. Jäckel, Th Richter, and A. Wolf. "Microreactors, a new efficient tool for optimum reactor design." Chemical Engineering Science 56, no. 3 (2001): 1029–33. http://dx.doi.org/10.1016/s0009-2509(00)00318-3.

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11

Renault, C., J. Roche, M. R. Ciumag, et al. "Design and optimization of electrochemical microreactors for continuous electrosynthesis." Journal of Applied Electrochemistry 42, no. 9 (2012): 667–77. http://dx.doi.org/10.1007/s10800-012-0445-x.

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12

Rosinha Grundtvig, Inês P., Anders E. Daugaard, John M. Woodley, Krist V. Gernaey, and Ulrich Krühne. "Shape optimization as a tool to design biocatalytic microreactors." Chemical Engineering Journal 322 (August 2017): 215–23. http://dx.doi.org/10.1016/j.cej.2017.03.045.

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13

Herr, Christiane M. "Design Is Construction, Construction Is Design." She Ji: The Journal of Design, Economics, and Innovation 5, no. 4 (2019): 367–69. http://dx.doi.org/10.1016/j.sheji.2019.11.007.

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14

Saksena, Pulkit, Srinivas Tadigadapa, and Richard A. Yetter. "Design, fabrication and analysis of stagnation flow microreactors used to study hypergolic reactions." Lab on a Chip 15, no. 10 (2015): 2248–57. http://dx.doi.org/10.1039/c5lc00306g.

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15

Löwe, Holger, Volker Hessel, and A. Mueller. "Microreactors. Prospects already achieved and possible misuse." Pure and Applied Chemistry 74, no. 12 (2002): 2271–76. http://dx.doi.org/10.1351/pac200274122271.

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Microreactors as a no el concept in chemical technology enable the introduction of new reaction procedures in chemistry, pharmaceutical industry, and molecular biology. Miniaturized reaction systems offer many exceptional technical advantages for a large number of applications. The large surface-to-volume ratio of miniaturized fluid components allows for significantly enhanced process control and heat management. Moreover, the unique possibilities of microchemical systems pave the way to a distributed point-of-use and on-demand production of extremely harmful and toxic substances.On the other
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16

Wan, Yu Shan Susanna, Joseph Lik Hang Chau, Asterios Gavriilidis, and King Lun Yeung. "Design and fabrication of zeolite-based microreactors and membrane microseparators." Microporous and Mesoporous Materials 42, no. 2-3 (2001): 157–75. http://dx.doi.org/10.1016/s1387-1811(00)00332-2.

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17

Lozano-Parada, Jaime H., and William B. Zimmerman. "The role of kinetics in the design of plasma microreactors." Chemical Engineering Science 65, no. 17 (2010): 4925–30. http://dx.doi.org/10.1016/j.ces.2010.03.056.

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18

Martínez-Cisneros, Cynthia S., Sara Gómez-de Pedro, Mar Puyol, Joan García-García, and Julián Alonso-Chamarro. "Design, fabrication and characterization of microreactors for high temperature syntheses." Chemical Engineering Journal 211-212 (November 2012): 432–41. http://dx.doi.org/10.1016/j.cej.2012.09.101.

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19

Aoki, Nobuaki, Shinji Hasebe, and Kazuhiro Mae. "Geometric design of fluid segments in microreactors using dimensionless numbers." AIChE Journal 52, no. 4 (2006): 1502–15. http://dx.doi.org/10.1002/aic.10727.

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20

Li, Tong, Jiawei Li, Qian Pang, Lie Ma, Weijun Tong, and Changyou Gao. "Construction of Microreactors for Cascade Reaction and Their Potential Applications as Antibacterial Agents." ACS Applied Materials & Interfaces 11, no. 7 (2019): 6789–95. http://dx.doi.org/10.1021/acsami.8b20069.

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21

Aoki, Nobuaki, and Kazuhiro Mae. "Nonisothermal design of fluid segments for precise temperature control in microreactors." Chemical Engineering Science 63, no. 20 (2008): 5035–41. http://dx.doi.org/10.1016/j.ces.2008.01.003.

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22

Suryawanshi, Prashant L., Sarang P. Gumfekar, Bharat A. Bhanvase, Shirish H. Sonawane, and Makarand S. Pimplapure. "A review on microreactors: Reactor fabrication, design, and cutting-edge applications." Chemical Engineering Science 189 (November 2018): 431–48. http://dx.doi.org/10.1016/j.ces.2018.03.026.

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23

Rossi, Olivia, and Arvind Chandrasekaran. "Microreactors: ‘micro’managing our macro energy demands." International Journal of Energy Sector Management 13, no. 3 (2019): 590–96. http://dx.doi.org/10.1108/ijesm-10-2018-0009.

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Purpose The purpose of this paper is to answer this question by discussing the practicality of implementing microreactor technology towards large-scale renewable energy generation, as well as provide an incentive for future researchers to utilize microreactors as a useful alternative tool for green energy production. However, can microreactors present a viable solution for the generation of renewable energy to tackle the on-going global energy crisis? Design/methodology/approach In this paper, the practicality of implementing microreactor technology toward large-scale renewable energy generati
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24

Hakke, Vikas, Shirish Sonawane, Sambandam Anandan, Shriram Sonawane, and Muthupandian Ashokkumar. "Process Intensification Approach Using Microreactors for Synthesizing Nanomaterials—A Critical Review." Nanomaterials 11, no. 1 (2021): 98. http://dx.doi.org/10.3390/nano11010098.

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Nanomaterials have found many applications due to their unique properties such as high surface-to-volume ratio, density, strength, and many more. This review focuses on the recent developments on the synthesis of nanomaterials using process intensification. The review covers the designing of microreactors, design principles, and fundamental mechanisms involved in process intensification using microreactors for synthesizing nanomaterials. The microfluidics technology operates in continuous mode as well as the segmented flow of gas–liquid combinations. Various examples from the literature are di
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25

Schwolow, Sebastian, Benedikt Mutsch, Norbert Kockmann, and Thorsten Röder. "Model-based scale-up and reactor design for solvent-free synthesis of an ionic liquid in a millistructured flow reactor." Reaction Chemistry & Engineering 4, no. 3 (2019): 523–36. http://dx.doi.org/10.1039/c8re00148k.

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Based on kinetic investigations in microreactors, a millistructured plate reactor for a solvent-free ionic liquid synthesis was designed by combining several scale-up concepts to maintain thermal stability.
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26

Veeramani, Mohanasundaram Sulur, Karuppiah Prakash Shyam, Noel Prashant Ratchagar, Anju Chadha, and Enakshi Bhattacharya. "Miniaturised silicon biosensors for the detection of triglyceride in blood serum." Anal. Methods 6, no. 6 (2014): 1728–35. http://dx.doi.org/10.1039/c3ay42274g.

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This paper reports on the design and fabrication of electrolyte insulator semiconductor capacitor (EISCAP) devices to detect triglycerides in the form of microreactors fabricated by bulk micromachining of silicon.
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27

Lewinsohn, C., M. Wilson, J. Fellows, and H. Anderson. "Multiscale, Ceramic Microsystems for Heat and Mass Transfer." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2011, CICMT (2011): 000001–7. http://dx.doi.org/10.4071/cicmt-2011-keynote1.

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Structures with several dimensional length-scales can be integrated with ceramic microsystems by using ceramic processing methods that produce components with novel functions. For example, structures optimized for heat transfer can be incorporated with structures designed for gas separation to produce microreactors in low cost, compact packages. Examples of incorporating multiple forming methods with, and without, one-step densification approaches will be described. This presentation will describe several examples of components incorporating multiscale structures. Typical applications are powe
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28

Westermann, Thomas, and Leslaw Mleczko. "Heat Management in Microreactors for Fast Exothermic Organic Syntheses—First Design Principles." Organic Process Research & Development 20, no. 2 (2015): 487–94. http://dx.doi.org/10.1021/acs.oprd.5b00205.

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29

Marre, Samuel, Andrea Adamo, Soubir Basak, Cyril Aymonier, and Klavs F. Jensen. "Design and Packaging of Microreactors for High Pressure and High Temperature Applications." Industrial & Engineering Chemistry Research 49, no. 22 (2010): 11310–20. http://dx.doi.org/10.1021/ie101346u.

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30

McNally, Dylan, Marika Agnello, Brigitte Pastore, James R. Applegate, Eric Westphal, and Smitesh D. Bakrania. "A Study of Fuel and Reactor Design for Platinum Nanoparticle Catalyzed Microreactors." Journal of Nanomaterials 2015 (2015): 1–8. http://dx.doi.org/10.1155/2015/538752.

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Typical microcombustion-based power devices entail the use of catalyst to sustain combustion in less than millimeter scale channels. This work explores the use of several other candidate fuels for ~8 nm diameter Pt particle catalyzed combustion within 800 μm channel width cordierite substrates. The results demonstrate while commercial hydrocarbon fuels such as methane, propane, butane, and ethanol can be used to sustain catalytic combustion, room temperature ignition was only observed using methanol-air mixtures. Fuels, other than methanol, required preheating at temperatures &gt;200°C, yet re
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31

Jain, Kartavya, Carl Wu, Sundar V. Atre, et al. "Synthesis of Nanoparticles in High Temperature Ceramic Microreactors: Design, Fabrication and Testing." International Journal of Applied Ceramic Technology 6, no. 3 (2009): 410–19. http://dx.doi.org/10.1111/j.1744-7402.2008.02285.x.

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32

Bodla, V. K., R. Seerup, U. Krühne, J. M. Woodley, and K. V. Gernaey. "Microreactors and CFD as Tools for Biocatalysis Reactor Design: A case study." Chemical Engineering & Technology 36, no. 6 (2013): 1017–26. http://dx.doi.org/10.1002/ceat.201200667.

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33

Hoang, Duong A., Cees Haringa, Luis M. Portela, Michiel T. Kreutzer, Chris R. Kleijn, and Volkert van Steijn. "Design and characterization of bubble-splitting distributor for scaled-out multiphase microreactors." Chemical Engineering Journal 236 (January 2014): 545–54. http://dx.doi.org/10.1016/j.cej.2013.08.066.

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34

Haven, Joris J., Evelien Baeten, Jonathan Claes, Joke Vandenbergh, and Tanja Junkers. "High-throughput polymer screening in microreactors: boosting the Passerini three component reaction." Polymer Chemistry 8, no. 19 (2017): 2972–78. http://dx.doi.org/10.1039/c7py00360a.

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The Passerini three-component reaction (Passerini-3CR) has been studied via on-line microreactor/electrospray ionisation mass spectrometry (MRT/ESI-MS) reaction monitoring to demonstrate the high-throughput screening potential of microreactors for macromolecular design.
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35

Tonomura, Osamu, Satoshi Taniguchi, Kazuki Nishi, et al. "Blockage Detection and Diagnosis of Externally Parallelized Monolithic Microreactors." Catalysts 9, no. 4 (2019): 308. http://dx.doi.org/10.3390/catal9040308.

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To realize stable operation of a microchemical system, it is necessary to develop a process monitoring method that can detect and diagnose blocked microreactors. In this study, a system composed of five monolithic microreactors and a split-and-recombine-type flow distributor (SRFD) was developed for Suzuki–Miyaura coupling. Firstly, the effects of operating conditions on the yield was examined by using a single microreactor. After that, an optimal design problem was formulated to maximize the blockage detection performance by adjusting the channel resistances of the SRFD and the sensor locatio
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36

CRIGHTON, G. S., A. R. BIGGART, and E. H. NORIE. "TUNNEL DESIGN AND CONSTRUCTION." Proceedings of the Institution of Civil Engineers - Civil Engineering 92, no. 5 (1992): 18–42. http://dx.doi.org/10.1680/icien.1992.21680.

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37

Elaine, McColl. "Questionnaire design and construction." Nurse Researcher 1, no. 2 (1994): 16–25. http://dx.doi.org/10.7748/nr.1.2.16.s3.

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38

Mccoll, Elaine. "Questionnaire design and construction." Nurse Researcher 1, no. 2 (1994): 16–23. http://dx.doi.org/10.7748/nr1994.01.1.2.16.c6288.

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39

YAMAMOTO, Hikaru, Takayuki SHIMODAIRA, and Takeshi TAKAHASHI. "Construction Equipment, Crane (Design)." JOURNAL OF THE JAPAN WELDING SOCIETY 81, no. 2 (2012): 112–17. http://dx.doi.org/10.2207/jjws.81.112.

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40

Hassanein, A., and J. Melin. "Construction crew design processes." International Journal of Project Management 15, no. 2 (1997): 85–91. http://dx.doi.org/10.1016/s0263-7863(96)00042-7.

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41

Campbell, Brian, and Mandy Gries. "Facility Design & Construction." Oncology Issues 10, no. 6 (1995): 23–25. http://dx.doi.org/10.1080/10463356.1995.11904577.

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42

Cennamo, Katherine S. "Design as Knowledge Construction." Computers in the Schools 20, no. 4 (2003): 13–35. http://dx.doi.org/10.1300/j025v20n04_03.

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43

van den Boom, Holger. "Design as Semiotic Construction." Design Issues 31, no. 1 (2015): 83–93. http://dx.doi.org/10.1162/desi_a_00312.

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44

Waltham, Chris. "Harp design and construction." Journal of the Acoustical Society of America 117, no. 4 (2005): 2590. http://dx.doi.org/10.1121/1.4777279.

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45

Quale, John. "Design in Modular Construction." Journal of Architectural Education 71, no. 1 (2017): 119–20. http://dx.doi.org/10.1080/10464883.2017.1260969.

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46

Mines, Richard O. "Planning, design, and construction." Water Environment Research 66, no. 4 (1994): 303–5. http://dx.doi.org/10.1002/j.1554-7531.1994.tb00095.x.

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47

Kunz, John, and Martin Fischer. "Virtual design and construction." Construction Management and Economics 38, no. 4 (2020): 355–63. http://dx.doi.org/10.1080/01446193.2020.1714068.

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48

Borovinskaya, Ekaterina, Eva Ritter, and Wladimir Reschetilowski. "Optimization of Base Catalyzed Ethanolysis of Vegetable Oils in Microreactors Using Design of Experiments." Applied Sciences 10, no. 5 (2020): 1624. http://dx.doi.org/10.3390/app10051624.

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The base-catalyzed ethanolysis of soybean oil and waste cooking oil (WCO) was investigated in two types of continuous reactors (microreactor and T-mixer) and in a batch reactor. Flow rate, ethanol/oil ratio and concentration of catalyst were varied according to the design of experiments in continuous reaction systems. Regression analysis was carried out concerning the obtained product yields. Based on this analysis optimal conditions in different reactors types with soybean oil, fresh and WCO were determined. While the increased flow rate was unfavorable in the MX-mixer, it contributed to a gr
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49

Pileni, M. P., T. Gulik-Krzywicki, J. Tanori, A. Filankembo, and J. C. Dedieu. "Template Design of Microreactors with Colloidal Assemblies: Control the Growth of Copper Metal Rods." Langmuir 14, no. 26 (1998): 7359–63. http://dx.doi.org/10.1021/la980461m.

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50

Borovinskaya, Ekaterina S. "EXPERIMENTAL INVESTIGATION OF ETHANOLYSIS REACTION FOR BIODIESEL PRODUCTION IN MICROREACTORS USING DESIGN OF EXPERIMENTS." Bulletin of the Saint Petersburg State Institute of Technology (Technical University) 32, no. 58 (2015): 90–94. http://dx.doi.org/10.15217/issn1998984-9.2015.32.90.

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