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Christopher M. Boyce's Education and Positions Held, Study notes of Fluid Mechanics

Columbia CollegeFluid Mechanics

Information about Christopher M. Boyce's education and positions held since his Bachelor's degree was conferred. He specializes in Chemical Engineering and his research specialization is Multiphase Flows and Granular Flows. The document also lists the honors, prizes, and fellowships he has received, as well as the grants and contracts he has been awarded. The document ends with a reference to a paper he co-authored titled 'Regimes of Jetting'.

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Last updated: March 22nd, 2022
Christopher M. Boyce
Columbia University
The Fu Foundation School of Engineering and Applied Science
Department of Chemical Engineering
A. Field of Specialization
Academic Specialization: Chemical Engineering
Research Specialization: Multiphase Flows, Granular Flows
B. Education
B.S., Massachusetts Institute of Technology, Chemical Engineering and Physics, 2011
Ph.D., University of Cambridge, Chemical Engineering, 2015
Dissertation: “Fundamental Studies of the Physics of Gas-Solid Fluidization”
Sponsor: Dr. John Dennis
C. Positions Held Since Bachelor’s Degree was Conferred
Assistant Professor of Chemical Engineering, Columbia University. (Jan. 2018-Present)
Postdoctoral Researcher, ETH Zurich. (Jan. 2017-Dec. 2017)
Postdoctoral Researcher, Princeton University. (Jan. 2015-Dec. 2016)
Graduate Research Assistant, University of Cambridge. (Sept. 2011-Dec. 2014)
D. Honors, Prizes and Fellowships
NSF CAREER Award, 2022
Invited to Present a Paper in “Futures” Issue of AIChE Journal for future leaders in
Chemical Engineering, 2022
Article Selected as Cover Article for Industrial and Engineering Chemistry Research, 2021
Article Selected as Cover Article for Chemical Engineering Science, 2021
Provost’s Grants Program Award for Junior Faculty Who Contribute to the Diversity Goals
of the University, Columbia University, 2021
Janette and Armen Avanessians Diversity Award, Columbia University SEAS, 2021
Sabic Young Professional Award from the AIChE Particle Technology Forum for
Outstanding Contributions to Particle Technology from an Individual Under 40, 2019
Article Selected as Cover Article for Chemical Engineering Science, 2019
Forbes 30 Under 30 in Science, 2019
Invited to Present a Paper in “Futures” Issue of AIChE Journal for future leaders in
Chemical Engineering, 2018
Invited to Present a Paper based on a Best Presentation in Session at the World Congress
on Particle Technology 8, 2018
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Last updated: March 22nd, 2022 Christopher M. Boyce Columbia University The Fu Foundation School of Engineering and Applied Science Department of Chemical Engineering A. Field of Specialization Academic Specialization: Chemical Engineering Research Specialization: Multiphase Flows, Granular Flows B. Education  B.S., Massachusetts Institute of Technology, Chemical Engineering and Physics, 2011  Ph.D., University of Cambridge, Chemical Engineering, 2015 Dissertation: “Fundamental Studies of the Physics of Gas-Solid Fluidization” Sponsor: Dr. John Dennis C. Positions Held Since Bachelor’s Degree was Conferred  Assistant Professor of Chemical Engineering, Columbia University. (Jan. 2018-Present)  Postdoctoral Researcher, ETH Zurich. (Jan. 2017-Dec. 2017)  Postdoctoral Researcher, Princeton University. (Jan. 2015-Dec. 2016)  Graduate Research Assistant, University of Cambridge. (Sept. 2011-Dec. 2014) D. Honors, Prizes and Fellowships  NSF CAREER Award, 2022  Invited to Present a Paper in “Futures” Issue of AIChE Journal for future leaders in Chemical Engineering, 2022  Article Selected as Cover Article for Industrial and Engineering Chemistry Research, 2021  Article Selected as Cover Article for Chemical Engineering Science, 2021  Provost’s Grants Program Award for Junior Faculty Who Contribute to the Diversity Goals of the University, Columbia University, 2021  Janette and Armen Avanessians Diversity Award, Columbia University SEAS, 2021  Sabic Young Professional Award from the AIChE Particle Technology Forum for Outstanding Contributions to Particle Technology from an Individual Under 40, 2019  Article Selected as Cover Article for Chemical Engineering Science, 2019  Forbes 30 Under 30 in Science, 2019  Invited to Present a Paper in “Futures” Issue of AIChE Journal for future leaders in Chemical Engineering, 2018  Invited to Present a Paper based on a Best Presentation in Session at the World Congress on Particle Technology 8, 2018

 Danckwerts-Pergamon Prize for the best PhD thesis related to chemical engineering, University of Cambridge, 2015  Gates Cambridge Scholar, 2011- 2014  2 nd^ Prize, third year presentation, Department of Chemical Engineering and Biotechnology, University of Cambridge, 2014  1 st^ Prize, second year poster presentation, Department of Chemical Engineering and Biotechnology, University of Cambridge, 2013  Phi Beta Kappa Academic Honor Society, MIT, 2011  Sigma Pi Sigma Physics Honor Society, MIT, 2011  Tau Beta Pi Engineering Honor Society, MIT, 2010 E. Grants and Contracts Title: CAREER: Magnetic Resonance Imaging of Periodically Structured Bubbling Phenomena in Dense Suspensions and Fluidized Granular Materials Lead PI: Chris Boyce Source: National Science Foundation Period of Performance: 7/2022-6/ Title: Magnetic Resonance Imaging of Filtration Lead PI: Chris Boyce Co-PI: Jia Guo Source: Pall Corporation Period of Performance: 01/202 2 - 12/ Title: Particle segregation and forces on internal pipes in model particle-liquid-gas multiphase reactors Lead PI: Chris Boyce Source: Office of Naval Research Period of Performance: 1/2022-12/ Title: Collaboration between Tuskegee University and Columbia University Lead PIs: Chris Boyce, Mandar Kathe Source: Sloan Foundation Period of Performance: 12/2021-11/ Title: Sustainable Mining via Novel Separation of Granular Particles Lead PIs: Chris Boyce, D.R. Nagaraj, Ray Farinato Source: Columbia University Period of Performance: 09/2021-08/ Title: Summer Research Experience in Chemical Engineering at Columbia University for Underrepresented Minority Undergraduates from Tuskegee University: Multiphase Flows Lead PI: Chris Boyce Source: Columbia University Period of Performance: 05/2021-08/

Title

  1. Metzger, J. P.; McLaren, C. P.; Pinzello, S.; Conzelmann, N. A.; Boyce, C. M.; Müller, C. R.* Sinking Dynamics and Splitting of a Granular Droplet. Phys. Rev. Fluids 2022 , 7 (1), 014309. IF = 2.5 Link
  2. Padash, A.;^ Chen, B.;^ Boyce, C. M. *^ Characterizing Alternating Bubbles Emerging from Two Interacting Vertical Gas Jets in a Liquid. Chem. Eng. Sci. 2022 , 117199. IF = 4. Link
  3. Guo, Q.; Zhang, Y.; Padash, A.; Xi, K.; Kovar, T. M.; Boyce, C. M.* Dynamically Structured Bubbling in Vibrated Gas-Fluidized Granular Materials. Proc. Natl. Acad. Sci. 2021 , 118 (35). IF = 11.2 Link (Featured in Scientific American )
  4. Guo, Q.; Bordbar, A.; Ma, L.; Yu, Y.; Xu, S.; Boyce, C. M. ; Ye, M. A CFD-DEM Study of the Solid-like and Fluid-like States in the Homogeneous Fluidization Regime of Geldart A Particles. AIChE J. 2021 , e17420. IF = 4.0 Link
  5. Xi, K.; Guo, Q.; Boyce, C. M. ; Lu, Y.* Contact-Based Method to Evaluate Mixing in Multicomponent Experiments and Simulations. Ind. Eng. Chem. Res. 2021 , 60 (44), 16126 – 16142. IF = 3.7 Link
  6. Xi, K.; Guo, Q.; Boyce, C. M. * Comparison of CFD-DEM and TFM Simulations of Single Bubble Injection in 3D Gas-Fluidized Beds with MRI Results. Chem. Eng. Sci. 2021 , 243 , 116738. IF = 4.3 Link
  7. Xi, K.; Kovar, T.; Fullmer, W. D.; Penn, A.; Musser, J.; Boyce, C. M. * CFD-DEM Study of Bubble Properties in a Cylindrical Fluidized Bed of Geldart Group D Particles and Comparison with Prior MRI Data. Powder Technol. 2021 , 389 , 75–84. IF = 5.1 Link
  8. Xi, K.; Guo, Q.; Boyce, C. M. * Comparison of Two-Fluid Model Simulations of Freely Bubbling Three-Dimensional Gas-Fluidized Beds with Magnetic Resonance Imaging Results. Ind. Eng. Chem. Res. 2021 , 60 (19), 7429–7442. IF = 3.7 Link (Journal Cover Image)
  9. McLaren, C. P.; Metzger, J. P.; Boyce, C. M. ; Müller, C. R. Reduction in Minimum Fluidization Velocity and Minimum Bubbling Velocity in Gas-Solid Fluidized Beds Due to Vibration. Powder Technol. 2021 , 382 , 566–572. IF = 5.1 Link
  10. Guo, Q.; Padash, A.; Boyce, C. M. * A Two Fluid Modeling Study of Bubble Collapse Due to Bubble Interaction in a Fluidized Bed. Chem. Eng. Sci. 2021 , 232 , 116377. IF = 4.3 Link (Journal Cover Image)
  11. Lev, E.*; Boyce, C. M. * Opportunities for Characterizing Geological Flows Using Magnetic Resonance Imaging. iScience 2020 , 23 (9). Link
  12. Penn, A.; Padash, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R.*; Boyce, C. M. * Asynchronous Bubble Pinch-off Pattern Arising in Fluidized Beds Due to Jet Interaction: A Magnetic Resonance Imaging and Computational Modeling Study. Phys. Rev. Fluids 2020 , 5 (9), 094303. IF = 2.5 Link
  13. Padash, A.; Boyce, C. M. * Collapse of a Bubble Injected Side-by-Side with Another Bubble into an Incipiently Fluidized Bed: A CFD-DEM Study. Phys. Rev. Fluids 2020 , 5 (3), 034304. IF = 2.5 Link
  1. Penn, A.*; Boyce, C. M. ; Pruessmann, K. P.; Müller, C. R. Regimes of Jetting and Bubbling in a Fluidized Bed Studied Using Real-Time Magnetic Resonance Imaging. Chem. Eng. J. 2020 , 123185. IF = 13.3 Link
  2. McLaren, C. P.; Kovar, T. M.; Penn, A.; Müller, C. R.*; Boyce, C. M. * Gravitational Instabilities in Binary Granular Materials. Proc. Natl. Acad. Sci. 2019 , 201820820. IF = 11.2 Link (Featured in Gizmodo and Popular Mechanics )
  3. Boyce, C. M. *; Penn, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R. Characteristics of a Single Jet Injected into an Incipiently Fluidized Bed: A Magnetic Resonance Imaging Study. Adv. Powder Technol. 2019. IF = 4.8 Link
  4. Boyce, C.M. *; Penn, A.; Lehnert, M.; Pruessmann, K.P.; Müller, C. R. Magnetic Resonance Imaging of Interaction and Coalescence of Two Bubbles Injected Consecutively into an Incipiently Fluidized Bed. Chem. Eng. Sci. 2019 , 115152. IF = 4. Link
  5. Boyce, C. M. *; Penn, A.; Padash, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R. Anomalous Collapse of Interacting Bubbles in a Fluidized Bed: A Magnetic Resonance Imaging Study. Phys. Rev. Fluids 2019 , 4 , 034303. IF = 2.5 Link
  6. Boyce, C. M. *; Penn, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R. Magnetic Resonance Imaging of Single Bubbles Injected into Incipiently Fluidized Beds. Chem. Eng. Sci. 2019 , 200 , 147–166. IF = 4.3 Link
  7. Boyce, C. M. *; Penn, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R. Wake Volume of Injected Bubbles in Fluidized Beds: A Magnetic Resonance Imaging Velocimetry Study. Powder Technol. 2019. (Invited). IF = 5.1 Link
  8. Penn, A.;^ Boyce, C. M. ; Conzelmann, N.; Bezinge, G.; Pruessmann, K. P.; Müller, C. R. Real-Time Magnetic Resonance Imaging of Fluidized Beds with Internals. Chem. Eng. Sci. 2019 , 198 , 117–123. IF = 4.3 Link (Journal Cover Image)
  9. Boyce, C. M. *; Penn, A.; Lehnert, M.; Pruessmann, K. P.; Müller, C. R. Effect of Liquid Bridging on Bubbles Injected into a Fluidized Bed: A Magnetic Resonance Imaging Study. Powder Technol. 2019 , 343 , 813–820. IF = 5.1 Link
  10. Boyce, C. M. * Gas-Solid Fluidization with Liquid Bridging: A Review from a Modeling Perspective. Powder Technol. 2018 , 336 , 12–29. IF = 5.1 Link
  11. Penn, A.*; Boyce, C. M. *; Kovar, T.; Tsuji, T.; Pruessmann, K. P.; Müller, C. R. * Real- Time Magnetic Resonance Imaging of Bubble Behavior and Particle Velocity in Fluidized Beds. Ind. Eng. Chem. Res. 2018 , 57 (29), 9674–9682 (Invited). Link
  12. Boyce, C. M. *; Penn, A.; Pruessmann, K. P.; Müller, C. R. Magnetic Resonance Imaging of Gas–Solid Fluidization with Liquid Bridging. AIChE J. 2018 , 64 (8), 2958– 2971 (Invited). IF = 4.0 Link
  13. Penn, A.; Tsuji, T.; Brunner, D. O.; Boyce, C. M. ; Pruessmann, K. P.; Müller, C. R. * Real-Time Probing of Granular Dynamics with Magnetic Resonance. Science Advances 2017 , 3 (9), e1701879. IF = 14.1 Link
  1. Boyce, C. M. *; Davidson, J. F.; Holland, D. J.; Scott, S. A.; Dennis, J. S. The Origin of Pressure Oscillations in Slugging Fluidized Beds: Comparison of Experimental Results from Magnetic Resonance Imaging with a Discrete Element Model. Chem. Eng. Sci. 2014 , 116 , 611. IF = 4.3 Link
  2. Boyce, C. M. *; Holland, D. J.; Scott, S. A.; Dennis, J. S. Novel Fluid Grid and Voidage Calculation Techniques for a Discrete Element Model of a 3D Cylindrical Fluidized Bed. Comput. Chem. Eng. 2014 , 65 , 18. IF = 3.8 Link
  3. Harper, R. N.;^ Boyce, C. M. ; Scott, S. A.*^ Oxygen Carrier Dispersion in Inert Packed Beds to Improve Performance in Chemical Looping Combustion. Chem. Eng. J. 2013 , 234 , 464. IF = 13.3 Link
  4. Boyce, C. M. *; Holland, D. J.; Scott, S. A.; Dennis, J. S. Adapting Data Processing To Compare Model and Experiment Accurately: A Discrete Element Model and Magnetic Resonance Measurements of a 3D Cylindrical Fluidized Bed. Ind. Eng. Chem. Res. 2013 , 52 (50), 18085. IF = 3.7 Link
  5. Taylor, R. E.; Boyce, C. M. ; Boyce, M. C.; Pruitt, B. L.* Planar Patterned Stretchable Electrode Arrays Based on Flexible Printed Circuits. J. Micromechanics Microengineering 2013 , 23 (10), 105004. IF = 1.9 Link
  6. Barr, M. C.; Rowehl, J. A.; Lunt, R. R.; Xu, J.; Wang, A.;^ Boyce, C. M. ; Im, S. G.; Bulović, V.; Gleason, K. K. Direct Monolithic Integration of Organic Photovoltaic Circuits on Unmodified Paper. Adv. Mater. 2011 , 23 (31), 3500. IF = 30.9 Link G. Patents

Title

  1. Boyce, C.M. , Socrate, S., Greviskes, B.P., Boyce, M.C. “Structured materials with tailored isotropic and anisotropic poisson’s ratios including zero and negative poisson’s ratios” (Application 2011, full patent not pursued)
  2. Taylor, R.E., Pruitt, B.L., Boyce, M.C., Boyce, C.M. , “In-plane-strain-actuated out-of- plane actuator”, U.S. Utility Patent 10150665 (Application 2014, Granted 2018).
  3. Boyce, M.C., Socrate, S., Boyce, C.M. and Greviskes, B., “Structured material substrates for flexible, stretchable electronics”, U.S. Utility Patent 8,883,287 (Application 2010, Granted 2014). H. Teaching Experience Courses Taught CHEN E3110, Transport Phenomena I. (2018-Present) CHEN E4150, Computational Fluid Dynamics in Chemical Engineering. (2018-Present) CHEN E9000, Chemical Engineering Colloquium. (2020-2021) CHEN E9500, Doctoral Research. (2018-Present) CHEN E9400, Masters Research. (2018-Present) CHEN E3900, Undergraduate Research Project. (2018-Present)

Experience as a Thesis Sponsor and Committee Member for Student Research Doctoral Students (Sponsored):

  1. Azin Padash (Sept. 2018-Nov. 2021; defended thesis Nov. 2021) Thesis Title: Bubble Rise Dynamics in Complex Fluids Publications: 8 total; 4 first-author
  2. Jagan Mohan Sanghishetty (Sept. 2019-Present) Thesis Area: Granular Separations for Sustainable Mining using Vibrated Gas-Fluidized Beds
  3. Alireza Bordbar (Jan. 2020-Present) Thesis Area: Magnetic Resonance Imaging of the Flow of Granular Suspensions
  4. Christopher Spitler (Jan. 2022-Present) Thesis Area: Controlling Wetted Granular Flows for Aluminum-Water Reactors
  5. Javad Omidi (Jan. 2022-Present) Thesis Area: Characterizing Periodically Repeating Bubble Patterns in Complex Fluids Doctoral Students (Reader and Committee Member):
  6. Chen Yong, ETH Zurich, Mechanical and Process Engineering, 2017
  7. Jonathan Davis, Columbia University, Chemical Engineering, 2019
  8. Richa Batra, Columbia University, Mechanical Engineering, 2019 Undergraduate Students (Sponsored Senior Thesis):
  9. Carolina Vazquez (2021)
  10. Yuxuan Zhang (2022)
  11. Shawn Chiu (2022) Postdoctoral Researchers Advised:
  12. Qiang Guo (Dec. 2019-Present)
  13. Wasif Zia (Jul. 2020-Present) I. Invited Talks
  1. Boyce, C.M. (2022) “Fluid or Not? Structured Instabilities in Excited Granular Materials” Invited Seminar at the City College of New York.
  2. Boyce, C.M. (2021) “Structured Bubbly Flows in Particle-Laden Complex Fluids” Invited Seminar at Rutgers University.
  3. Boyce, C.M. (2021) “Characterizing and Structuring Multiphase Granular Flows” Invited Seminar at the University of Cambridge.
  4. Boyce, C.M. (2021) “Characterizing and Structuring Multiphase Granular Flows” Invited Seminar at The Ohio State University.
  5. Boyce, C.M. (2021) “Characterizing and Structuring Multiphase Granular Flows” Invited Seminar at New York University.
  6. Boyce, C.M. (2021) “Characterizing and Structuring Multiphase Granular Flows” Invited Seminar at UC Davis.
  7. Boyce, C.M. (2020) “Characterizing and Structuring Multiphase Granular Flows” Invited Seminar at Stevens Institute of Technology.

Grant Proposal Reviewer : National Science Foundation, Army Research Office  Young Professional Editorial Board, Particuology , 2021-Present  Editorial Advisory Board, ACS Engineering Au , 2021-Present  Session Co-Chair, AIChE Annual Meeting, Powder Technology Forum, 2021-Present  Session Chair, Fluidization XVI Conference, 2019 Conferences and Workshops Organized  Organized a new seminar series, “Fluids@Columbia”, for fluid mechanics research across schools and departments, 2021-Present Outreach  Hosted lab tours for NYC middle school students through Columbia’s Inside Engineering Program, 2019-Present  Hosted 6 total high school students for summer laboratory research through Columbia’s Engineering the Next Generation Program, 2019-Present  Created research videos published online with thousands of views and conducted subsequent interviews for media outlets, including features in Scientific American , Gizmodo and Popular Mechanics , 2019-Present Diversity, Equity and Inclusion (DEI)  Hosted 6 underrepresented minority (URM) high school students for summer laboratory research, 2019 - Present  Service in the formation of the Amazon-SURE summer research program for undergraduate URM students, 2020-Present  Hosted two URM female students from Tuskegee University for summer research, 202 1  Organizing a Collaboration with Tuskegee University (TU), 2020-Present  Organizing a National Science Foundation Research Experiences for Undergraduates (REU) Site at Columbia Chemical Engineering, 2022-Present  Service on Chemical Engineering DEI Committee, 2022-Present