His work on Paleontology as part of general Series (stratigraphy) research is often related to Thermodynamics, thus linking different fields of science. Paleontology connects with themes related to Series (stratigraphy) in his study. His study connects Capillary action and Thermodynamics. He applies the principles of Flow (mathematics) and Bubble in his work under Mechanics. He combines topics linked to Mechanics with his work on Flow (mathematics). JC Jaap Schouten integrates Organic chemistry and Combinatorial chemistry in his research. He brings together Combinatorial chemistry and Organic chemistry to produce work in his papers. His research combines Characterization (materials science) and Nanotechnology. JC Jaap Schouten regularly ties together related areas like Nanotechnology in his Characterization (materials science) studies.
In his research, JC Jaap Schouten performs multidisciplinary study on Organic chemistry and Inorganic chemistry. JC Jaap Schouten performs multidisciplinary study on Inorganic chemistry and Organic chemistry in his works. His multidisciplinary approach integrates Catalysis and Microreactor in his work. His research brings together the fields of Flow (mathematics) and Mechanics. He performs multidisciplinary study on Thermodynamics and Mechanics in his works. His work often combines Adsorption and Catalysis studies.
His study on Composite material is interrelated to topics such as Capillary action, Range (aeronautics) and Coating. As part of his studies on Range (aeronautics), JC Jaap Schouten often connects relevant subjects like Composite material. JC Jaap Schouten undertakes interdisciplinary study in the fields of Coating and Catalysis through his works. JC Jaap Schouten conducted interdisciplinary study in his works that combined Catalysis and In situ. His Organic chemistry study frequently draws connections between related disciplines such as Micromixing. In his study, he carries out multidisciplinary Chemical engineering and Mechanical engineering research. JC Jaap Schouten combines Mechanical engineering and Chemical engineering in his research. His multidisciplinary approach integrates Hydrogen peroxide and Peroxide in his work. In his articles, he combines various disciplines, including Peroxide and Hydrogen peroxide.
Catalysis and Propene are two areas of study in which JC Jaap Schouten engages in interdisciplinary work. He brings together Organic chemistry and Photochemistry to produce work in his papers. He applies his multidisciplinary studies on Photochemistry and Photocatalysis in his research. His studies link Eosin Y with Photocatalysis. His study deals with a combination of Hydrogen peroxide and Oxygen. JC Jaap Schouten conducted interdisciplinary study in his works that combined Oxygen and Inorganic chemistry. JC Jaap Schouten incorporates Inorganic chemistry and Organic chemistry in his studies. He integrates Hydrogen and Palladium in his research. As part of his studies on Nanotechnology, he frequently links adjacent subjects like Microchannel.
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Comparative analysis of CFD models of dense gas–solid systems
van Bgm Berend Wachem;JC Jaap Schouten;van den Cm Bleek;R Krishna.
Aiche Journal (2001)
Characterization of fluidization regimes by time-series analysis of pressure fluctuations
F Johnsson;RC Zijerveld;JC Jaap Schouten;CM van den Bleek.
International Journal of Multiphase Flow (2000)
Micro process engineering : a comprehensive handbook
Volker Hessel;Albert Renken;Jaap C. Schouten;Jun-Ichi Yoshida.
MAXIMUM-LIKELIHOOD-ESTIMATION OF THE ENTROPY OF AN ATTRACTOR
J.C. Schouten;F. Takens;C.M. van den Bleek.
Physical Review E (1994)
Dissolved gas and ultrasonic cavitation--a review.
J Joost Rooze;EV Evgeny Rebrov;JC Jaap Schouten;Jtf Jos Keurentjes.
Ultrasonics Sonochemistry (2013)
Characterization of regimes and regime transitions in bubble columns by chaos analysis of pressure signals
HM Letzel;HM Letzel;JC Jaap Schouten;R Krishna;CM van den Bleek.
Chemical Engineering Science (1997)
Gas holdup and mass transfer in bubble column reactors operated at elevated pressure.
H.M. Letzel;H.M. Letzel;J.C. Schouten;R. Krishna;C.M. van den Bleek.
Chemical Engineering Science (1999)
Non-intrusive determination of bubble and slug length scales in fluidized beds by decomposition of the power spectral density of pressure time series
van der J John Schaaf;van der J John Schaaf;JC Jaap Schouten;F Johnsson;van den Cm Bleek.
International Journal of Multiphase Flow (2002)
The effect of solvent addition on fructose dehydration to 5-hydroxymethylfurfural in biphasic system over zeolites
V.V. Ordomsky;J. van der Schaaf;J.C. Schouten;T.A. Nijhuis.
Journal of Catalysis (2012)
Modeling and analysis of autothermal reforming of methane to hydrogen in a fixed bed reformer
M.H. Halabi;M.H.J.M. de Croon;J. van der Schaaf;P.D. Cobden.
Chemical Engineering Journal (2008)
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