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- 1 of 25 Rev. Jan 22, 2018 Michel Louge Sibley School of Mechanical and Aerospace Engineering 192 Rhodes Hall, Cornell University Ithaca, NY 14853 USA +1 607 255 4193 orcid.org/0000-0002-1155-9163 http://grainflowresearch.mae.cornell.edu/index.html EDUCATION Ph.D., January 1985. Mechanical Engineering, High Temperature Gasdynamics Labo- ratory, Stanford University. Thesis title: "Shock Tube Study of Cyanide Species Kinetics and Spectroscopy". Thesis advisor: Ronald K. Hanson. M.S., June 1979. Mechanical Engineering, Stanford University. Ingénieur, June 1978. École Centrale des Arts et Manufactures, Paris. PROFESSIONAL EXPERIENCE August 1985 - present: Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, New York 14853. Assistant Professor (1985-1991). Associate Professor (1991-1998). Professor (1998-present). Associate Director of Undergraduate Programs (2003-2005; 2009). Research The research group focuses on experimental and theoretical studies of gas-solid and granular flows, unsaturated porous media, and the design of advanced instrumentation for dense suspensions. Our facilities have included a two-story cold model to study scale-up, heat transfer and pressurization of circulating fluidized beds, a setup to measure impact properties of small colliding spheres, a granular chute facility, a laboratory where capacitance, optical and heat transfer instruments are created, and a flume in which to study erosion-driven suspension currents. In collaboration with the National Aeronautics and Space Administration (NASA), we designed microgravity experiments to study the segregation in collisional granular flows and the interactions between agitated grains and a viscous gas. The experiments were conducted in a race-track shear cell and in an axisymmetric Couette device. In this decade-long project, we developed theories for the corresponding flows, conducted numerical simulations, and ran physical experiments on NASA’s microgravity aircraft. In partnership with Capacitec, Inc., we designed instrumentation for recording the density and velocity of snow avalanches and for measuring the stratigraphy of snow packs. We

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Page 1: Michel Louge - Cornell Universitygrainflowresearch.mae.cornell.edu/data/Louge_MY_CVJan22... · 2018-01-22 · pressurization of circulating fluidized beds, a setup to measure impact

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Michel Louge Sibley School of Mechanical and Aerospace Engineering

192 Rhodes Hall, Cornell University Ithaca, NY 14853 USA

+1 607 255 4193

orcid.org/0000-0002-1155-9163 http://grainflowresearch.mae.cornell.edu/index.html

EDUCATION

Ph.D., January 1985. Mechanical Engineering, High Temperature Gasdynamics Labo-ratory, Stanford University. Thesis title: "Shock Tube Study of Cyanide Species Kinetics and Spectroscopy". Thesis advisor: Ronald K. Hanson.

M.S., June 1979. Mechanical Engineering, Stanford University.

Ingénieur, June 1978. École Centrale des Arts et Manufactures, Paris.

PROFESSIONAL EXPERIENCE

August 1985 - present: Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, New York 14853. Assistant Professor (1985-1991). Associate Professor (1991-1998). Professor (1998-present). Associate Director of Undergraduate Programs (2003-2005; 2009).

Research

The research group focuses on experimental and theoretical studies of gas-solid and granular flows, unsaturated porous media, and the design of advanced instrumentation for dense suspensions.

Our facilities have included a two-story cold model to study scale-up, heat transfer and pressurization of circulating fluidized beds, a setup to measure impact properties of small colliding spheres, a granular chute facility, a laboratory where capacitance, optical and heat transfer instruments are created, and a flume in which to study erosion-driven suspension currents.

In collaboration with the National Aeronautics and Space Administration (NASA), we designed microgravity experiments to study the segregation in collisional granular flows and the interactions between agitated grains and a viscous gas. The experiments were conducted in a race-track shear cell and in an axisymmetric Couette device. In this decade-long project, we developed theories for the corresponding flows, conducted numerical simulations, and ran physical experiments on NASA’s microgravity aircraft.

In partnership with Capacitec, Inc., we designed instrumentation for recording the density and velocity of snow avalanches and for measuring the stratigraphy of snow packs. We

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tested the instruments with the WSL-Institut für Schnee- und Lawinenforschung SLF (Davos, Switzerland), the University of Utah and the University of Montana. We also applied the technology to record sand density and moisture content in the Mauritanian Sahara and in the Qatar desert in collaboration with the Université of Rennes 1, the Faculté des Sciences de Nouakchott and Weill-Cornell Medicine in Qatar.

Our latest work focuses on unsaturated porous media and geophysics, including internal processes in desert sand dunes and powder snow avalanches.

To date, this work has led to 78 archival publications and refereed proceedings, two patents, a book chapter, 32 conference proceedings, 105 seminar invitations, and over 17 major reports. A list of publications is appended.

Past and Present Research Collaborators

Scientists: Haitao Xu (Tsinghua), Luc Oger, Daniel Bideau, Renaud Delannay, Alexandre Valance, and Patrick Richard (Université de Rennes 1), Pascal Dupont (INSA de Rennes), Nicolas Taberlet, (ENS Lyon), Barbara Turnbull (University of Nottingham), Nathalie Vriend (Cambridge), Anthony Hay, James Jenkins, Anthony Reeves, Donald Koch and Edwin (Todd) Cowen (Cornell), Ali Sultan, Renée Richer, Sara Abdul-Majid (Weill-Cornell Medical College, Qatar), Theis Solling (Maersk Oil Research and Technology Centre, Qatar), Fernando Porte-Agel (EPFL), Simon Salager (Université de Grenoble), Philippe Claudin (ESPCI), Ahmed ould el-Moctar (Université de Nantes), Jim McElwaine (Cambridge University), Leon Glicksman (MIT), Jimmie Dent (Montana State University), Rand Decker (Northern Arizona University), Mark Hopkins (US Army Cold Regions Research & Engineering Laboratory), Martin Schneebeli, Perry Bartelt, and Betty Sovilla (WSL-Institut für Schnee- und Lawinenforschung SLF), Gabriel Tardos (New York City College), Robert Behringer (Duke University), Toshitsugu Tanaka (Osaka University), Sankaran Sundaresan (Princeton), Paul Roth (Universität Duisburg).

Graduate students: Epaminondas Mastorakos (1989), Catherine Acree-Riley (1989), Michael Opie (1990), Hongder Chang (1991), Subramanyam Iyer (1991), Jamaludin Mohd. Yusof (1992), D. Jeffrey Lischer (1993), Samuel Foerster (1993), Stéphane Martin-Letellier, Mark Tuccio, Vincent Bricout (2000), Elizabeth Griffith (2000), Haitao Xu (2003), Xinglong Chen (2005), Cian Carroll (2011), Jin Xu (2015), Shilpa Sahoo.

Engineer: We employed Mr. Stephen Keast on research grants from 1994 to 2005 to help us design, build and run new experimental facilities. Mr. Keast constructed prototypes of the apparatus that NASA had planned to fly on the International Space Station.

Visitors and post-docs: Lili Gu (Tsinghua, 2015), Barbara Turnbull (2007-2008), Fréderic Beaud (Électricité de France, 1992), Khédidja Allia (Université d’Alger, 1991), Hongder Chang (1991-1992).

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Research Sponsors

Our activities have been supported by the National Science Foundation (NSF), the US Department of Energy (DOE), NASA, the Petroleum Research Fund, and the Qatar National Research Foundation, as well as by industrial funds from the International Fine Particle Research Institute (IFPRI) and Électricité de France (EdF).

The corresponding grants include: NSF-CASIS-NASA ($300k, with Olivier Desjardins, 2016); Qatar National Research Foundation ($1.1m, 2010; $1.1m, 2013; with Anthony Hay), ACS Petroleum Research Fund (2008-2011, $100k); NSF Travel Grant (2003, $30k); NASA (2002, $800k); NASA (2000, $1m, with J. Jenkins); NASA travel grant (2001, $18k); IFPRI (1999, $100k); IFPRI (1998, $5k); NASA (1998, $686k); NASA (1996, $780k, with J. Jenkins); IFPRI (1995, $100k); US DOE (1995, $400k, with L. Glicksman of MIT); US DOE (1993, $200k); EdF (1993, $68k); US DOE (1990, $700k, with J. Jenkins); US DOE (1988, $390k); US DOE (1988, $200k); NSF (1988, $69k); NSF (1987, $24k); various industrial donations of equipment.

Teaching, Advising and Mentoring

Graduate courses in Combustion and Heat Transfer since 1985. In 1986, I led three other faculty members in modernizing our Senior Laboratory course. There, I personally taught exercises in optics, electronics, fluid mechanics and fluidized beds.

In collaboration with Profs. van der Meulen, Taylor, and George, I reorganized our undergraduate course on Mechanical Design (M&AE 2250 “Mechanical Synthesis”) in 1996. Because of its emphasis on team projects, this Sophomore class has become one of the defining courses in the Sibley School. I have also taught this course with Professors Lipson and Warhaft, who have contributed further improvements.

“Thermodynamics”, Fall 2017, sophomore course taught with Haitao Xu at Tsinghua University, Beijing, China.

M&AE 4490 “Combustion Engines & Fuel Cells”, Spring 2007.

M&AE 3240 “Heat Transfer” summers 2008 – 2017; Spring 2018.

M&AE 5430 “Combustion Processes”1986 – 2004, 2010 – 2011, 2013-2016; 2018.

M&AE 6510 “Advanced Heat & Mass Transfer” 1988 – 1995.

M&AE 4900 “French in Engineering and Science,” a technical survey course on science and engineering taught in French, 2008, 2009, and 2010.

Director of several graduate student projects in digital electronics and computer vision. Member of the Fields of Mechanical, Aerospace and Electrical Engineering. Occasional instructor of a Freshman seminar course and regular co-instructor of Naval Ship Systems for Cornell’s Naval Science Department.

From 1997 to 2005, our NASA projects involved twenty Cornell undergraduate students in the laboratory and in flights of the KC-135 microgravity aircraft. This team won the 2001 Cornell Society of Engineers award for leadership in research.

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From 1999 to 2005, I served as advisor to the Odysseus Space team project, in which Cornell undergraduates conduct a unique ice melting experiment under partial vacuum in anticipation of a future mission to Europa. This project was a collaboration with the Jet Propulsion Laboratory. In 2001, the Odysseus team won second place in NASA’s MarsPort National competition and it ranked among six finalists in 2002. I was advisor of the Baja SAE student team in 2009-2012. I have also advised the Hyperloop and Mars Rover student projects in 2015-2016. I involved three undergraduate students in tests of capillarity plates at the ZARM microgravity drop tower in Bremen (Germany) in 2015; and three undergraduates in two field expeditions to the Qatar desert in 2016-17.

Advisor for over 150 Undergraduate and Master of Engineering design projects since 1985. Minor advisor for over 33 PhD candidates in other Fields. Advisor to over 20 undergraduate students each semester since 1985.

My family and I have served as “Faculty-in-Residence” in freshman dormitories from 2007 – 2011: Clara Dickson Hall and Multi-Cultural Learning Living Unit (2007-2009) and Townhouses apartments (2009 – 2011). Faculty Fellow for Balch Hall (2011–2012).

Administrative Responsibilities

Associate Director for Undergraduate Affairs in Mechanical and Aerospace Engineering (2003 to 2005 and 2009). Responsible for Academic Affairs in the School. Ex-officio member of the Academic, Teaching, Curriculum, Planning and ABET Committees in the School and of the Core Curriculum Governing Board of the College of Engineering. Lead role in the ABET re-accreditation of our Mechanical Engineering degree in 2004-2005.

Director of the Master of Engineering Program in Mechanical and Aerospace Engineering (1999 to 2003). The program more than doubled its enrollment under my direction to approximately 50 students in 2003.

Director of Graduate Research in Mechanical Engineering (1993 to 1996). During my tenure in that post, I assigned Teaching Assistantships and Fellowship resources of the School, carried out admissions, managed the School’s Graduate programs, trained a new Graduate Field Secretary, and implemented reforms to enhance School visibility, streamline operations and increase our success rate with US Graduate students.

Committees

• Cornell Presidential Commission on Undergraduate Education (1987 to 1989). • Chairman of the Reserve Officer Training Corps Relations Committee (1988 to 1991). • University Library Board Member (1989 to 1993). • University Traffic Advisory Board Member (1995 to 1997). • Faculty Advisor to the Cornell Rugby Club (1988 to 1991). • Committees of the Sibley School: Academic (1986-1989; 1999); Master of Engineering

(1989-1991); Colloquium (1990); Curriculum (1992-1993 and 1999-2001); Director Search (1993); Safety (1993-1997); Nominating (1992-1994); Teaching (1996-1999); Tenure (1998-1999); Aerospace Search (2000); Ph.D. Qualifying Exam (1988-present); Planning (2002 to 2005); Speaker of the Faculty (2006-2008); Undergraduate Programs Committee (2008-2016).

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• Chair, Engineering College Committee on International Relations (2003 to 2005; 2006 to 2008).

• University International Studies Advisory Council, 2003 to 2004. • Chair, Engineering College Master of Engineering Committee (2006 to 2008). • Cornell Faculty Senator (2006 – 2009 and 2015-present). • University Appeals Panel (2008 – 2013). • Member, self-study team, review of Cornell’s Program Houses (2008–2010). • Member, judicial University Hearing and Review Board (2010 – 2012). • Member, Cornell Council on Mental Health (2009 – 2015). • Other Cornell service includes visiting over 60 students on industrial coop assignment

in 30 companies.

Consulting

Consultant for several leading firms in the power generation, oil, chemical, and pharmaceutical industries. My clients have included Pall Corporation (2012), Merck (2001, 2016-present), Procter & Gamble (2001), Inhale Pharmaceuticals (2001), Huntsman Tioxide (2000), UOP (1999), the 3M Company and Los Alamos National Laboratory (1995), ABB Combustion Engineering (1988-1990), Amoco (1990), Cabot (1997), CANMET (1994), Dow Corning (1994 to 1999), Électricité de France (1992), Exxon (1995 to 1997), Norton (1996), Praxair (1997), Shell Oil (1991), Shell Laboratorium Amsterdam (1992), and the Swiss Institute for Avalanche Research (1996).

I serve as Powder Flow Consultant for the International Fine Particle Research Institute (2003 to 2009 and 2015-present). In that capacity, I chaired a Powder Flow workshop in Bremen (Germany) in 2003, a working group with NSF, academics and industrial IFPRI members in March 2005, and co-chaired another Powder Flow workshop at the Schiphol airport in January 2017.

My collaboration with Capacitec, Inc. has led to the development of a unique probe to record the stratigraphy of the snow pack in avalanche regions. I wrote two successful proposals to the Army Research Office to fund this effort (Small Business Innovation Research, Phase I and II, $350k). The latter project won a quality award from the Pentagon in August 2002.

Service to Other Institutions

Member of the American Society of Mechanical Engineers (ASME, 1985 – present) and the American Institute of Chemical Engineers (AIChE; 1985 – 2008). Member of the Fluidization Committee of the AIChE and chair of several sessions from 1990 to 2001. Author of over 400 reviews for funding agencies (National Science Foundation, Department of Energy, Petroleum Research Fund, Hong Kong University Grants Committee, Swiss National Science Foundation, Canada’s Fonds pour la Formation de Chercheurs et l'Aide à la Recherche) and scientific journals (J.of Fluid Mechanics, Phys. Fluids, Phys. Rev., Int. J. Multiphase Flow, AIChE J, Icarus, Nature, etc). Chair of the second Gordon Conference on Granular and Granular-Fluid Flow in Colby College, Maine, June 27 to July 2, 2004.

Editorships

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Associate Editor of Mechanics Research Communications, an Elsevier journal (2007 – present).

Associate Editor, Journal of Geophysical Research – Earth Surface (2014- present).

Guest Editor (with Alexandre Valance, Université de Rennes) on a Special Issue of Compte-Rendus Physique (journal of the French Academy of Sciences) on Granular Materials (2014).

External examiner for the Ph.D. theses of P. Cattieuw (U. de Provence, 1992), Richard Senior (U. British Columbia, 1992), Arnaud Boëlle (U. Paris VI, 1997), Irfan Khan (NY City College, 1997), Yacine Khidas (U. Rennes, 2001), Alexi Bouchet (Grenoble, 2003), Pierre Rognon (Paris, 2006), Katharina Platzer (Vienna, 2007).

Awards

• Distinguished Visiting Fellow of the UK Royal Academy of Engineering (2014). • Best Environmental Research of the Year, Qatar Foundation (2011). • Recipient of the Kendall S. Carpenter Memorial Advising Award, Cornell University (2011). • Cornell Society of Engineers 2001 project award to the “Gas Particle Interactions in Microgravity” team.

Outreach

I have instigated a program whereby our undergraduates teach Technology Education to eighth graders at Ithaca’s DeWitt Middle School. Since the Spring 2000, 50 Cornell Undergraduates have done so. This initiative enhances the School’s visibility in the local community and exposes our students to careers in education.

In February 2001, I led the US delegation to the Second International Conference on the Formation and Migration of Dunes in Nouakchott, Mauritania. The delegation, which was sponsored by NASA, discussed observations and models for Martian and terrestrial dunes, and held conversations with Mauritanian cabinet ministers on education and dune remediation techniques. In a similar context, I served as scientific liaison for the Séminaire International sur la “Recherche Scientifique et lutte contre l’Ensablement,” Institut des Régions Arides, Médenine (Tunisia) in April 1999.

To date, I have delivered 32 invited lectures at Symposia and 61 invited seminars at Universities. These talks are listed below. For conciseness, I have not listed invited lectures to Industry or Government, contributed presentations at Conferences, seminars at Cornell, and talks at Contractor Review Meetings. I have also given talks to Elementary School students on microgravity research and deep-ocean diving techniques.

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Other Professional Appointments

Fall 2017: Visiting Professor, Tsinghua University, Beijing, China.

Summer 2014: Distinguished Visiting Fellow of the Royal Academy of Engineering, collaboration with Dr. Barbara Turnbull, Department of Civil Engineering, University of Nottingham, UK.

August 2012-July 2013: Professor of the Ecole Centrale des Arts et Manufactures (now CentraleSupélec, Paris), “classe exceptionnelle”. Sabbatical year. Taught a first year Heat Transfer course, academic consultant for the school as visiting member of its Executive Committee, developed research collaborations with the “Laboratoire de Génie des Procédés et Matériaux.” Desert field research in Qatar.

January 2008: Visiting Professor, scientific review panel of the “Laboratoire de Génie des Procédés et Matériaux,” Ecole Centrale des Arts et Manufactures, Paris.

August 2005 – August 2006: Professor of Physics first class, Université de Rennes I, Physics Department, Condensed Matter and Materials Group.

Sabbatical year. Taught a combustion course in the Fall and a Fluid Mechanics course in the Spring. Field research in Nouakchott (Mauritania) to measure the surface density of barcan dunes; in Davos (Switzerland) and on the Vatnajökull glacier (Iceland) to evaluate capacitance measurements of snow dielectric properties.

June 2005: Kavli Institute for Theoretical Physics, SantaBarbara,CA.InvitedparticipanttothesemesteronPhysicsofGranularFlows.

Summers of 1998, 1999, 2000, 2002, 2003, 2004, 2008, 2009, 2010, 2011: Visiting Professor, Université de Rennes I, Physics Department, Condensed Matter and Materials Group. Research with the condensed matter physics team; studies of granular impacts and flows. Taught a course on “Methods of Modern Research in the summers 2007 and 2008.

August 1991 - August 1992: Visiting Research Scientist, Université de Provence, Faculté des Sciences, Institut Universitaire des Sciences Thermiques Industrielles (IUSTI), Marseilles.

Sabbatical year with a group studying the fluid dynamics of circulating fluidized beds. Research collaboration with the Chantiers Naval et Industriels de la Méditerranée and Électricité de France.

October 1984 - July 1985: Process Development Engineer, Shell International, The Hague, The Netherlands.

As a member of the Shell expatriate staff, I participated in the development of a process involving solids reactions and handling, assessed the feasibility of introducing circulating and dense fluidized beds in the process, and handled relations with engineering contractors.

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January 1981 - October 1984: Research Assistant and Ph.D. candidate, High Temperature Gasdynamics Laboratory, Stanford University, California.

As a member of a laboratory specializing in combustion research, I studied the kinetics of formation of nitrogen oxides from fuel-bound nitrogen in reacting flows, measured the kinetics of cyanogen oxidation using a shock tube technique, determined several elementary reaction rate constants in the mechanism of NO formation, developed new absorption diagnostics to measure the concentrations of the CO, CN and NCO molecules using infrared, ultraviolet and visible tunable lasers, and developed models for the spectroscopy and kinetics of these molecules.

Military Experience

In 1979, I was drafted as an officer in the French Navy for a compulsory 15-month tour of duty. At the end of the initial training period, I reported as navigator aboard the “TRITON,” a unique underwater support ship. My responsibilities at sea included naviga-tion, coordination of the 50-men crew, execution of operations involving saturation diving, manned and unmanned submersibles, recovery of objects from the sea floor, and sonar. I also served as flight control officer for helicopter operations. I logged over 600 hours as chief of the watch.

Following active duty, I served in the French Naval Reserve until my naturalization as a US Citizen in February 1999. I conducted short tours on the following ships: Saturation Diving Support Ship “TRITON” (1987 and 1991), Destroyer “COMMANDANT BOUAN” (1989), Nuclear Attack Submarine “ÉMERAUDE” - RED CREW (1992), Mine Hunter “L’AIGLE” (1992), Deep Diving Group “GISMER” (1992), and Tanker “LA MARNE” (1994). I helped draft NATO specifications (STANAG) on saturation diving in June 1992. In the event of hostilities, I would have served as a liaison officer for the French Military Mission to SACLANT in Norfolk, VA. I was promoted to the ranks of “Lieutenant de Vaisseau” (Lieutenant) in 1992 and “Capitaine de Corvette” (Lt-Commander) in 1998.

Other Skills and Activities

I maintain sailing skills by renting vessels for occasional cruises at sea. In 1980, I obtained a license from the French Merchant Marine to command motor yachts of any tonnage. At Stanford, I acquired basic proficiency in aviation, obtained a private pilot license for single-engine land, and flew Cessna 150, 152 and 172 aircrafts. I have held a NAUI scuba-diving certification since 1983. At Cornell, I have taught Sophomores engineers basic skills in lathes and milling machines.

I practice cross-country and downhill skiing, which proved convenient for the avalanche tests in Montana conducted with Prof. Dent’s team in 1996. I played rugby in high school and college. I have performed acoustic, electric and bass guitar in the 1970’s and 1980’s.

In the summer 1976, I worked shifts as a founder on a blast-furnace at a Normandy steel mill. That experience introduced me to the harsh conditions of traditional smokestack industries. In the same year, I trained as a coop student in the missile design department

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of MATRA Engins, a French arms manufacturer. In August 1975, I was an intern in the foreign exchange department of de Baecque, Beau and co, a private bank in Paris.

I speak and write English and French fluently, and I have basic proficiency in German.

I was a Fellow of the Rotary International Foundation in 1981, the French Ministry of Foreign Affairs in 1979, and the British Council in 1978. I received a special commendation from the French Secretary of the Navy in 1993.

In the Ithaca community, I helped coach women’s rugby at the Ithaca High School in the 1990’s.

PUBLICATIONS

Archival journals and refereed proceedings (78) Michel Y. Louge and Shilpa Sahoo: “Model of inertial spreading and imbibition of a

liquid drop on a capillary plate”, AIChE J. 63, 5474-5481 (2017), doi:10.1002/aic.15953.

(77) M. Y. Louge, "Statistical mechanics of the triple contact line", Phys. Rev. E 95, 032804 (2017), doi:10.1103/PhysRevE.95.032804.

(76) Laura Steub, Jonathan Kollmer, Derek Paxson, Achim Sack, Thorsten Poschel, John Bartlett, Douglas Berman, Yaateh Richardson, and Michel Y. Louge, “Microgravity spreading of water spheres on hydrophobic capillary plates”, Powders and Grains 2017, F. Radjai, ed. (2017), doi:10.1051/epjconf/201714016001.

(75) Abdul Majid S, Graw MF, Chatziefthimiou AD, Nguyen H, Richer R, Louge M, et al. (2016) Microbial Characterization of Qatari Barchan Sand Dunes. PLoS ONE 11(9): e0161836. doi:10.1371/journal.pone.0161836

(74) M. Y. Louge, Comment on “The reduction of friction in long-runout landslides as an emergent phenomenon” by Brandon C. Johnson, Charles S. Campbell, and H. Jay Melosh, J. Geophys. Res., 121, 1106–1107 (2016), doi:10.1002/2016JF003886

(73) J. Xu and M. Y. Louge, “Statistical mechanics of unsaturated porous media”, Phys.

Rev. E 92, 062405 (2015), doi:10.1103/PhysRevE.92.062405.

(72) M. Y. Louge, A. Valance, P. Lancelot, R. Delannay, and O. Artières, “Granular flows on a dissipative base”, Phys. Rev. E 92, 022204 (2015), doi:10.1103/PhysRevE.92.022204.

(71) B. Sovilla, J. N. McElwaine, and M. Y. Louge, “The structure of powder snow avalanches (Structure des avalanches en aerosol)”, Compte-Rendus de Physique 16, 97-104 (2015), doi:10.1016/j.crhy.2014.11.005.

(70) Valance, A. and M. Louge, “Granular physics (Physique des milieux granulaires)”,

Comptes Rendus Physique 16, doi:10.1016/j.crhy.2014.11.007 (2015).

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(69) M.Y. Louge: "The surprising relevance of a continuum description to granular clusters," J. Fluid Mech. 742, 1-4 (2014).

(68) Musa, R. A., S. Takarrouht, M. Y. Louge, J. Xu, and M. E. Berberich, “Pore

pressure in a wind-swept rippled bed below the suspension threshold”, J. Geophys. Res. Earth Surf. 119, doi:10.1002/2014JF003293 (2014).

(67) M. Y. Louge, A. Valance, A. Ould el-Moctar, J. Xu, A. G. Hay, and R. Richer,

“Temperature and humidity measurements within a mobile barchan sand dune, implications for microbial survival”, J. Geophys. Res. 118, 2392-2405 (2013).

(66) C. S. Carroll, M. Y. Louge, B. Turnbull, “Frontal dynamics of powder snow

avalanches”, J. of Geophys. Res.: Earth Surface 118, 913–924 (2013). (65) M. Y. Louge, B. Turnbull, and C. Carrol, “Volume growth of a powder snow avalanche,” Annals of Glaciology 53, 57-60 (2012) (64) Louge, M.Y., “Phonon conductivity along a column of spheres in contact,” Granular

Matter 14, 203-208, Special Issue in Memory of Isaac Goldhirsch, (2012).”” (63) C.S. Carroll, B. Turnbull, and M.Y. Louge, “Role of fluid density in shaping

suspension currents driven by frontal particle blow-out,” Phys. Fluids 24, 066603 (2012).

(62) Louge, M. Y., C. S. Carroll, and B. Turnbull, Reply to comment by P. A. Bartelt and

O. Buser on “Role of pore pressure gradients in sustaining frontal particle entrainment in eruption currents: The case of powder snow avalanches”, J. Geophys. Res. 117, F02016 (2012).

(61) Louge, M. Y., C.S. Carroll, and B. Turnbull, “Role of pore pressure gradients in

sustaining frontal particle entrainment in eruption currents -- the case of powder snow avalanches,” J. Geophys. Res. 116, F04030 (2011).

(60) J-F. Métayer, R. Delannay, P. Richard, A. Valance and M. Y. Louge: “Rheology of

confined granular flows: from gas to glass”, Powders & Grains 2009, M. Nakagawa, ed. (2009).

(59) M. Y. Louge, A. Valance, A. Ould el-Moctar, D. Ould Ahmedou, and P. Dupont:

“Model for surface packing and aeolian transport on sand ripples”, Powders & Grains 2009, M. Nakagawa, ed. (2009).

(58) C.M. Sorace, M.Y. Louge, M.D. Crozier, and V.H.C. Law: “High apparent

adhesion energy in the breakdown of normal restitution for binary impacts of small spheres at low speed”, Mechanics Research Communications 36, 364–368 (2009).

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(57) Louge, M.Y., A. Valance, H. M. Babah, J.-C. Moreau-Trouve, A. O. el-Moctar, P. Dupont, and D. O. Ahmedou: “Seepage-induced penetration of water vapor and dust beneath ripples and dunes”, J. Geophys. Res. 115, F02002, doi:10.1029/2009JF001385 (2010).

(56) Louge, M.Y., A. Valance, A. O. el-Moctar, and P. Dupont: “Packing variations on a

ripple of nearly monodisperse dry sand,” J. Geophys. Res. 115, F02001, doi:10.1029/2009JF001384 (2010).

(55) P. Richard, A. Valance, J-F. Métayer, P. Sanchez, J. Crassous, M. Louge and R.

Delannay: “Rheology of Confined Granular Flows: Scale Invariance, Glass Transition and Friction Weakening,” Phys. Rev. Lett. 101, 248002 (2008).

(54) X. Chen and M.Y. Louge: “Heat transfer enhancement in dense suspensions of

agitated solids. Part I: Theory”, International J. Heat Mass Transfer 51, 5108–5118 (2008)

(53) X. Chen and M.Y. Louge: “Heat transfer enhancement in dense suspensions of

agitated solids. Part II: Experiments in the exchange limit.”, International J. Heat Mass Transfer 51, 5119–5129 (2008)

(52) M.Y. Louge and X. Chen: “Heat transfer enhancement in dense suspensions of

agitated solids. Part III: Thermophoretic transport of nanoparticles in the diffusion limit.”, International J. Heat Mass Transfer 51, 5130–5143 (2008).

(51) R. Delannay, M. Louge, P. Richard, N. Taberlet, A. Valance: “Towards a theoretical

picture of dense granular flows down inclines,” Nature Materials 6, 99-108 (2007). (50) H. Xu, R. Verberg, D.L. Koch and M.Y. Louge: Dense, bounded shear flows of

agitated solid spheres in a gas at intermediate Stokes and finite Reynolds numbers, J. Fluid Mech. 618, 181–208 (2009).

(49) M. Louge, A. Valance, N. Taberlet, P. Richard et R. Delannay, “Volume fraction

profile in channeled granular flows down an erodible incline,” in Powders and Grains 2005, H.Herrmann, G. Gudehus, S. Luding, & K. Sommer (eds), A. Balkema, NY, pp. 885-889.

(48) N. Taberlet, P. Richard, R. Delannay and M. Louge, “How sidewalls influence

granular flows,” in Powders and Grains 2005, H.Herrmann, G. Gudehus, S. Luding, & K. Sommer (eds), A. Balkema, NY, pp. 873-876.

(47)M.LougeandH.Xu:“CollisionalGranularFlowswithandwithoutGasInteractionsinMicrogravity,”inMechanicsofthe21stCentury,W.GutkowskiandT.A.Kowalewski,eds.,Springer,Dortrecht,TheNetherlands(2005),pp.229-240.

(46) H. Xu, A. P. Reeves and M. Y. Louge, “Measurement Errors in the Mean and

Fluctuation Velocities of Spherical Grains from a Computer Analysis of Digital Images,” Rev. Sci. Instrum. 75, 811-819 (2004).

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(45) M Louge: “Scientific issues in the flow of gases with dispersed solids” Multiphase

Science and Technology, 15, 1-5 (2003). (44) H. Xu, M. Louge and A. Reeves: “Solutions of the Kinetic Theory for Bounded

Collisional Granular Flows,” Continuum Mechanics and Thermodynamics 15: 321–349 (2003).

(43) M. Louge: “Modelfordensegranularflowsdownbumpyinclines,”Phys.Rev.E67,061303(2003).

(42)V.BricoutandM.Louge:“Measurements of cyclone performance under conditions

analogous to pressurized circulating fluidization,” Chem. Eng. Sci. 59, 3059-70 (2004).

(41)V.BricoutandM.Louge:“A verification of Glicksman's reduced scaling in pressurized circulating fluidization,” Chem. Eng. Sci. 59, 2633-38 (2004).

(40) M.Y. Louge and M.E. Adams: “Anomalous behavior of normal kinematic restitution in the oblique impacts of a hard sphere on an elasto-plastic plate,” Phys. Rev. E 65 (2002).

(39) H. Xu, M. Louge and J. T. Jenkins, “Flow development of a sheared collisional granular flow,” in Powders and Grains 2001, Y. Kishino, ed., Swets & Zeitlinger, Lisse, pp. 359-362 (2001).

(38) M. Louge, H. Xu and J. T. Jenkins, “Studies of Gas-particle Interactions in a Microgravity Flow Cell,” in Powders and Grains 2001, Y. Kishino, ed., Swets & Zeitlinger, Lisse, pp. 557-560 (2001).

(37) M. Louge, J. Jenkins, H. Xu and B. Arnarson, “Granular segregation in collisional shearing flows,” in: Mechanics for a New Millennium, A. Aref and J.W. Phillips, eds., Kluver Academic Publishers (2001), pp. 239-252.

(36) M. Louge and S. Keast: “On Dense Granular Flows Down Flat Frictional Inclines,” Phys. Fluids 13, 1213-1233 (2001).

(35) A. Elizabeth Griffith, M.Y. Louge and Jamaludin Mohd. Yusof: “Simultaneous, Non-invasive Measurements of Convective Heat Transfer and Solid Volume Fraction at the Wall of an Entrained Gas-Solid Suspension,” Rev. Sci. Instrum. 71, 2922-2927 (2000).

(34) M.Y. Louge, J.T. Jenkins, A. Reeves and S. Keast: “Microgravity segregation in collisional granular shearing flows,” Proceedings of the IUTAM Symposium on Segregation in Granular Materials, A.D. Rosato and D.L. Blackmore, eds., Kluver Academic Publishers, Boston (2000), pp. 103-112.

(33) B.Ö. Arnarson, J.T. Jenkins and M.Y. Louge: “Particle Segregation in Collisional Shearing Flows,” Proceedings of the IUTAM Symposium on Segregation in Granular Materials, A.D. Rosato and D.L. Blackmore, eds., Kluver Academic Publishers, Boston (2000), pp. 223-229.

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(32) Louge M.Y., Bricout V. and Martin-Letellier S.: “On the dynamics of pressurized and atmospheric circulating fluidized bed risers,” Chem. Eng. Sci. 54, 1811-1824 (1999).

(31) Dent, J. D., Burrell, K. J., Schmidt, D. S., Louge, M. Y., Adams, E. E., and Jazbutis, T. G.: "Density, velocity and friction measurements in a dry-snow avalanche", Annals of Glaciology 26, 247-252 (1998).

(30) Louge M.Y., Foster R.L., Jensen N. and Patterson R.: “A Portable Capacitance Snow Sounding Instrument,” Cold Regions Science and Technology 28, 73-81 (1998).

(29) Elizabeth Griffith and M. Louge: “The Scaling of Cluster Velocity at the Wall of Circulating Fluidized Bed Risers,” Chem. Eng. Sci. 53 (1998).

(28) M. Louge and J. Jenkins: “Microgravity segregation in binary mixtures of inelastic spheres,” Powders and Grains 97, R. Behringer and J. Jenkins, eds, A.A. Balkema, Rotterdam (1997), pp. 539-542.

(27) Michel Y. Louge, Christopher Tuozzolo and Adam Lorenz: “On binary impacts of small liquid-filled shells,” Phys. Fluids 9(12), 3670-3677 (1997).

(26) A. Lorenz, C. Tuozzolo and M.Y. Louge: “Measurements of impact properties of small, nearly spherical particles,” Experimental Mechanics 37 (3), 292-298 (1997).

(25) James T. Jenkins and M. Louge: “On the flux of fluctuation energy in a collisional grain flow at a flat, frictional wall,” Phys. Fluids 9 (10), 2835-2840 (1997).

(24) Louge M.Y., Steiner R., Keast S.C., Decker R., Dent J. and Schneebeli M.: “Application of Capacitance Instrumentation to the Measurement of Density and Velocity of Flowing Snow,” Cold Regions Science and Technology 25, 47-63 (1997).

(23) Beaud F. and Louge M.Y.: “Similarity of radial profiles of solid volume fraction in a circulating fluidized bed”, in Fluidization VIII, (eds C. Laguérie and J.-F. Large), Engineering Foundation, NY (1996), pp. 245-253.

(22) M. Louge, M. Tuccio, E. Lander and P. Connors: “Capacitance Measurements of the Volume Fraction and Velocity of Dielectric Solids Near a Grounded Wall,” Rev. Sci. Instrum. 67 (5), 1899-77 (1996).

(21) Louge, M.Y.: “Computer simulations of rapid granular flows of Spheres interacting with a flat, frictional boundary”, Phys. Fluids 6 (7), 2253-2269 (1994).

(20) S.F. Foerster, M.Y. Louge, H. Chang, and K. Allia: “Measurements of the collision properties of Small Spheres,” Phys. Fluids 6(3), 1108-1115 (1994).

(19) M. Louge, J. Jenkins and M.A. Hopkins: “The relaxation of the second moments in rapid shear flows of smooth disks,” Mechanics of Materials, 16, 199-203 (1993).

(18) Hopkins M., Jenkins J. and Louge M.: “On the structure of 3D shear flows,” Mechanics of Materials 16, 179-187 (1993).

(17) Louge, M., Mohd. Yusof J. and Jenkins J.T.: “Heat Transfer in the Pneumatic Transport of Massive Particles,” Int. J. Heat & Mass Trans. 36 (2), 265-275 (1993).

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(16) Lischer, D.J. and Louge, M.: “Optical fiber measurements of particle concentration in dense suspensions: calibration and simulation,” Applied Optics 31, 5106-5113 (1992).

(15) Chang H. and Louge M.: “Fluid dynamic similarity of circulating fluidized beds,” Powder Tech. 70 no 3, 259-270 (1992).

(14) Louge, M.Y., Iyer, S.A., Giannelis, E.P., Lischer, D.J. and Chang, H.: “Optical Fiber Measurements of Particle Velocity using Laser-Induced-Phosphorescence,” Applied Optics 30, 1976-81 (1991).

(13) Louge, M.Y., Mastorakos, E. and Jenkins, J.T.: “The Role of Particle Collisions in Pneumatic Transport,” J. of Fluid Mech. 231, 345-359 (1991).

(12) Hopkins, M.A. and Louge M.: “Inelastic Microstructure in Rapid Granular Flows of Smooth Disks,” Phys. Fluids A 3(1), 47-57 (1991).

(11) Louge M., Jenkins J.T. and Hopkins M.: “Computer Simulations of Rapid Granular Shear Flows between Parallel Bumpy Boundaries,” Phys. Fluids A 2 (6), 1042-44 (1990). (10) Louge M., Lischer D.J. and Chang H.: “Measurements of Voidage near the Wall of a

Circulating Fluidized Bed Riser,” Powder Tech. 62, 269-76 (1990).

(9) Louge M. and Opie M.: “Measurements of the Effective Dielectric Permittivity of Suspensions,” Powder Tech. 62, 85-94 (1990).

(8) Louge M. and Chang H.: “Pressure and Voidage Gradients in Vertical Gas-Solid Risers,” Powder Tech. 60, 197-201 (1990).

(7) Acree Riley, C. and Louge, M.Y.: “Quantitative Capacitive Measurements of Voidage in Dense Gas-Solid Flows,” Particulate Science & Tech. 7 51:59 (1989).

(6) Louge, M.Y. and Hanson, R.K.: “Shock Tube Study of the High Temperature Absorption Spectroscopy of CH at 431 nm,” Shock Waves & Shock Tubes, Stanford Press, (1986) pp. 827-33.

(5) Roth, P., Louge, M.Y. and Hanson, R.K.: “O- and N-Atom Measurements in High Temperature C2N2 + O Kinetics,” Combustion and Flame 64, 167 (1986).

(4) Louge, M.Y. and Hanson, R.K.: “Shock Tube Study of Cyanogen Oxidation Kinetics,” Int. J. Chem. Kinet. 16, 231 (1984).

(3) Louge, M., Hanson, R., Rea, E., and Booman, R.: “Quantitative High Temperature Absorption Spectroscopy of NCO at 305 and 440 nm,” J. Quant. Spectr. Radiat. Transfer 32, 353 (1984).

(2) Louge, M.Y. and Hanson, R.K.: “High Temperature Kinetics of NCO,” Combustion and Flame 58, 291 (1984).

(1) Louge, M.Y. and Hanson, R.K.: “Shock Tube Study of NCO Kinetics,” Twentieth Symp. (Int.) on Combustion, The Combustion Institute (1984) pp. 665-672.

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Patents (2) M.Y. Louge: US patent 5,546,006 “Guarded capacitance probes for measuring

particle concentration and flow,” August 13, 1996.

(1) M.Y. Louge: US Patent 5,459,406 “Guarded Capacitance Probes for Measuring Particle Concentration and Flow,” October 17, 1995.

Book M. Louge: “Experimental Techniques,” ch. 9 in Circulating Fluidized Beds, J. Grace, T.

Knowlton and A. Avidan, eds, Blackie Academic & Professional (1997), pp. 312-368.

Conference Proceedings

(32) J. Xu, T. Solling, T. McKay, and M.Y. Louge, “Tension and tomographic measurements while draining water from a granular sample”, ICTAM 2016, Montréal, August 21-26 (2016). (31) P. Richard, A. Valance, J.F. Métayer, J. Crassous, M. Louge, R. Delannay,: « Rheology of confined granular flows », Joint IUTAM-ISIMM Symposium on Mathematical Modeling and Physical Instances of Granular Flows, Reggio Calabria, Italy, 14-18 September 2009. (30) R.A. Wilkinson, R.P. Behringer, J.T. Jenkins and M.Y. Louge, Granular materials and the risks they pose for success on the Moon and Mars, Space Technology and Applications International Forum 2005, American Institute of Physics (2005). (29) Treiman, A.H., Louge, M.Y. (2004) Martian Slope Streaks and Gullies: Origins as Dry Granular Flows. Lunar Planet. Sci. XXXIII. #1323. (28) M. Louge : « Role of Couple Stresses in Shallow Granular Flows down a Bumpy Incline, » 5th International Conference on Multiphase Flow, ICMF’04, Yokohama, Japan, May 30-June 4, 2004, Paper No.K13. (27) H. Xu, M. Louge and J. Jenkins: “Flow development of a gas-solid suspension in a microgravity Couette apparatus,” AIAA paper 2001-4992, session FP-3, KSC Conference on International Space Station Utilization, October 15-18, 2001. (26) A.E. Griffith and M. Louge: “Convective heat transfer scaling at the wall of circulating fluidized bed risers,” AIChE LA-2000 session T1b03 “Circulating Fluidized Beds.” (25) V. Bricout and M. Louge: “An experimental verification of Glicksman's reduced scaling,” AIChE LA-2000 session T1b03 “Circulating Fluidized Beds.” (24) M. Louge, J.T. Jenkins, and H. Xu: “Studies of Gas-Particle Interactions in a Microgravity Flow Cell,” STAIF-2000, Albuquerque, NM, February 1, 2000.

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(23) “On the Dynamics of Pressurized and Atmospheric Circulating Fluidized Bed Risers,” Michel Y. Louge, Vincent Bricout and Stéphane Martin-Letellier, AIChE meeting Proc., Nov 1998. (22) On the Dynamics of Pressurized and Atmospheric Circulating Fluidized Bed Risers, Michel Y. Louge, Vincent Bricout and Stéphane Martin-Letellier, session T3B03 paper #2, AIChE WAM, Miami Beach, November 15-20, 1998. (21) Studies of Gas-Particle Interactions in a Microgravity Flow Cell, M. Louge and J. Jenkins, Proceedings of the Fourth Microgravity Fluid Physics & Transport Phenomena Conference, August 12-14, 1998, NASA-Lewis Research Center, pp. 117-118. (20) Particle Segregation in Collisional Shearing Flows, J. Jenkins and M. Louge, Proceedings of the Fourth Microgravity Fluid Physics & Transport Phenomena Conference, August 12-14, 1998, NASA-Lewis Research Center, p. 75. (19) Louge M.Y., Foster R.L., Jensen N. and Patterson R.: “A Portable Capacitance Snow Sounding Instrument,” ISSW’98 web page and Proceedings, Sept 1998. (18) Dent J.D., Burrell K.J., Schmidt D.S., Louge M.Y., Adams E.E., Jazbutis T.G.: “Density, velocity and friction measurements in a dry snow avalanche,” Chamonix conference, May 1997. (17) Louge and Jenkins: “Microgravity segregation in binary mixtures of inelastic spheres driven by velocity fluctuation gradients,” 1997 Joint ASME/ASCE/SES summer meeting, June 29-July 2, Northwestern University. (16) Louge M.Y. and Keast S.: “Roll waves in granular flows down inclines,”

Fluidization and Fluid Particle Systems, Arastoopour, ed, AIChE (1996), pp.15-20.

(15) Jenkins J.T. and Louge M.Y. “Microgravity segregation in binary mixtures of inelastic spheres driven by velocity fluctuation gradients,” Proceedings of the NASA Third Microgravity Fluid Physics Conference (1996).

(14) Martin-Letellier S. and Louge M.: “The Hydrodynamic Behavior of Pressurized Circulating Fluidized Beds,” in Gas-Particle Flows, FED-Vol 228, ASME (1995), pp. 169-174.

(13) Martin-Letellier S. and Louge M.Y.: “The role of gas density on circulating fluidized bed risers,” Fluidization and Fluid Particle Systems, Arastoopour H., ed, AIChE (1995), pp. 122-127.

(12) Lorenz A. and Louge M.Y.: “Measurements of the collision properties of small spheres”, Proceedings of the First Meeting of the Particle Technology Forum, Denver, CO, August 1994.

(11) Jenkins J.T. and Louge M.Y.: “Boundary Conditions for Rapid Flows of Inelastic Frictional Spheres In Sliding Collisions with a Flat Frictional Wall”, Fluidization and Fluid-Particle Systems, Arastoopour H., ed, AIChE, NY (1994), pp. 7-13.

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(10) Louge M.Y.: “The Measurement of Particle Concentration with Optical Fiber Probes”, Fluidization and Fluid-Particle Systems, Arastoopour H., ed, AIChE, NY (1994), pp.271-280.

(9) Louge M.Y., Jenkins J.T. and Hopkins M.: “The relaxation of the second moments in rapid shear flows of smooth disks,” in Advances in Micromechanics of Granular Materials, H.H. Shen, et al, eds (1992), pp. 101-109.

(8) Hopkins M. Jenkins J.T. and Louge M.Y.: “On the structure of 3D shear flows,” in Advances in Micromechanics of Granular Materials, H.H. Shen, et al, eds (1992), pp. 271-279.

(7) Louge M.Y., Jenkins J.T. and Hopkins M., “Computer simulations of rapid granular flows interacting with a flat, frictional boundary,” Proceedings of the ASCE Engineering Mechanics Conference, Columbus, OH, May 1991.

(6) Chang H. and Louge M.Y.: “Hydrodynamic scale-up of circulating fluidized beds,” Eleventh International Conference on Fluidized Bed Combustion, ASME, Montréal (1991), pp. 1215-1218.

(5) Louge M. and Giannelis E.: “Development of Diagnostics for Pneumatic Transport,” Proceedings of the Joint DOE/NSF Workshop on Fluid-Solids Transport, S. Rogers, ed, Department of Energy, Pittsburgh Energy Technology Center (1989), pp. 40-52.

(4) Mastorakos, E., Louge M. and Jenkins J.T.: “The Role of Particle Collisions in Pneumatic Transport,” in Constitutive Relationships and Models in Continuum Theories of Multiphase Flows, R. Decker, ed, NASA Conference Publication 3047 (1989), pp.127-37.

(3) Louge, M., Mohd. Yusof J. and Jenkins J.: “A Model for Heat Transfer in the Pneumatic Transport of Large Particles,” Annual Meeting of the AIChE, San Francisco, CA, November 5-10, 1989.

(2) Louge, M.Y.: “Circulating Fluidization Research at Cornell: A Study of Hydrodynamic Scale-up Effects,” Proc. 9th International Conference on Fluidized Bed Combustion, ASME (1987), pp. 1193-1197.

(1) Hanson, R.K., Louge, M.Y., Rea, E.C., Seitzman, J.M. and Hiller, B.: “Recent Developments in Absorption and Fluorescence Laser Diagnostics for High Temperature Gases,” ICALEO 1984, Laser Diagnostics and Photochemistry Symp., Boston, Novem-ber 12-15, 1984.

Major Reports (17) M.Y. Louge, Anthony Hay and Ali Sultan, “Microbial stabilization of mobile dunes

for infrastructure protection and environmental preservation”, Final Report, Qatar National Research Foundation, grant NPRP 6-059-2-023, December 2017.

(16) M.Y. Louge and Anthony Hay, “Understanding the link between moisture dynamics

and microbial activity in mobile dunes”, Final Report, Qatar National Research Foundation, grant NPRP 09-546-2-206, January 2015.

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(15) Recommended research challenges in granular and granular-fluid flows to the National Science Foundation; sponsored by the International Fine Particle Research Institute (IFPRI). Powder Flow Working Group: Robert Behringer, Nikolaas de Jaeger, Thomas Halsey, James McElwaine, Karl Jacob, Michel Louge (chair), Robert Pfeffer, James Michaels, Paul Mort, Triantafillos Mountziaris (NSF), Roger Place, Joerg Schwedes, Sankaran Sundaresan, March 1, 2005. IFPRI Powder Flow Working Group final report, 40 pages.

(14) M.Y. Louge and R.L. Foster: “A Multi-Parameter Snow Sounding probe,” SBIR

Report to the Army Research Office, CAPACITEC, Inc., December 2001, 58 pages. (13) Louge, M.Y.: “Studies of the fundamental interactions between a gas and agitated

particles,” Annual report to the International Fine Particle Research Institute, FRR 30 - 07, Nov 29, 2001, 21 pages.

(12) M.Y. Louge and J.T. Jenkins: “Science Requirement Document for Studies of Gas-

Particle Interactions in a Microgravity Flow Cell,” NASA 5/2000, 99 pages. (11) Louge, M.Y.: “Studies of the fundamental interactions between a gas and agitated

particles,” Annual report to the International Fine Particle Research Institute, FRR 30 - 05, Nov 29, 1999, 11 pages.

(10) Louge, M.Y.: “Experimental Rapid Shear,” final report to the International Fine

Particle Research Institute, FRR 30 - 04, Nov 10, 1998, 45 pages. (9) J.T. Jenkins and M.Y. Louge: "Science Requirement Document for Microgravity

Segregation in Collisional Shearing Flows of Binary Mixtures of Inelastic Spheres," NASA 5/1998, 55 pages.

(8) Louge, M.Y.: “Experimental Rapid Shear,” Report ARR 30-01 to the International

Fine Particle Research Institute, November 1996, 26 pages.

(7) Louge, M.Y.: “A Review of Instrumentation for Dense Gas-Solid Flows,” Special ‘State-of-the-Art’ Report SAR 30-02, November 1996, 71 pages.

(6) Louge, M.Y.: “Application of Capacitance Instrumentation to the Measurement of Density and Velocity of Flowing Snow; A Report to the Swiss Federal Institute for Snow and Avalanche Research,” February 1996, 43 pages.

(5) Louge, M.Y. “Collaboration Électricité de France - Cornell, Lits Fluidisés Circulants, Rapport de Synthèse,” August 1994, 10 pages.

(4) Louge, M. “Design of an Optical System for Measuring OH in a Fluidized Bed Combustor,” report to CANMET, Canadian Department of Energy, Mines and Resources, March 1994, 14 pages.

(3) Louge, M.Y.: “Simultaneous Measurements of Convective Heat Transfer Rates and Particle Concentration at the Wall of a Circulating Fluidized Bed Riser,” report to Électricité de France, July 1993, 13 pages.

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(2) Louge, M. “Measuring Particle Concentration with Capacitance Probes,” User Manual prepared for CAPACITEC, July 1992, 11 pages.

(1) Confidential reports for various companies.

INVITED TALKS

University Colloquia

(70) Statistical mechanics of hysteretic capillary phenomena: predictions of contact angle on rough surfaces and liquid retention in unsaturated porous media, Tsinghua University, Beijing, China, September 21, 2017, invited speaker.

(69) “Flows down flat, frictional inclines”, IMP-CAS, Lanzhou, China, Saturday, September 2, 2017, invited speaker.

(68) “Statistical mechanics of hysteretic capillary phenomena: predictions of contact angle on rough surfaces and liquid retention in unsaturated porous media”, Université de Rennes 1, June 27, 2017, invited speaker.

(67) Merck, West Point, PA, Friday August 5, 2016. Invited seminar “Measurements of density and moisture in powders and grains”.

(66) Department of Applied Mathematics and Theoretical Physics, University of Cambridge, Statistical Mechanics of the Triple Contact Line, June 17, 2016, invited seminar.

(65) CentraleSupélec, Paris, Statistical Mechanics of the Triple Contact Line, June 9, 2016, invited seminar.

(64) Université de Rennes 1, Statistical Mechanics of the Triple Contact Line, June 3, 2016, invited seminar.

(63) Center for Combustion Energy, Department of Thermal Engineering, and School of Aerospace Engineering, Tsinghua University, Beijing, China. “Heat transfer enhancement in suspensions of agitated solids”, March 28, 2016.

(62) Laboratory of Soft Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing, China. “Statistical mechanics of unsaturated porous media”, March 24, 2016.

(61) Center for Nonlinear Studies, Los Alamos National Laboratory, “Challenges in unsaturated porous media”, December 7, 2015.

(60) Université de Grenoble, Laboratoire 3SR, “Statistical mechanics of unsaturated porous media”, May 18, 2015.

(59) Géosciences, Université de Rennes 1, “Statistical mechanics of unsaturated porous media”, May 12, 2015.

(58) Ecole Supérieure de Physique et Chimie de Paris, “Statistical mechanics of unsaturated porous media”, May 7, 2015.

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(57) Institut de Physique de Rennes, “Statistical mechanics of unsaturated porous media”, May 4, 2015.

(56) University of Warwick, UK, “Heat transfer enhancement in suspensions of agitated solids”, July 21, 2014.

(55) Soil & Water Lab, College of Agriculture and Life Science, Cornell University, “Temperature and Humidity within a Mobile Barchan Sand Dune”, September 30, 2013.

(54) Université Technologique de Compiègne, “Models of impact”, July 31, 2013.

(53) Ecole Centrale de Paris, “Role of pore pressure gradients in geophysical flows over permeable substrates”, July 11, 2013.

(52) Ecole Polytechnique Université de Nantes, invited seminar, “Temperature and humidity measurements within desert barchan sand dunes, relation to dune aeolian mobility and microbial growth”, June 28, 2013.

(51) ETH Zürich, “Temperature and humidity measurements within desert barchan sand dunes”, May 10, 2013.

(50) Institut de Physique du Globe, Paris, “Temperature and humidity measurements within desert barchan sand dunes, relation to dune aeolian mobility and microbial growth”, April 30, 2013.

(49) Laboratoire FAST, Orsay, “Frontal Dynamics of Powder Snow Avalanches”, February 21, 2013.

(48) Laboratoire EM2C, Ecole Centrale des Arts et Manufactures, Paris, “Diurnal heat and vapor transfer through the surface of mobile desert dunes”, October 25, 2012.

(47) Ecole Polytechnique fédérale de Lausanne, “Frontal Dynamics of Powder Snow Avalanches”, October 11, 2012.

(46) Université de Rennes 1, “Frontal Dynamics of Powder Snow Avalanches”, September 14, 2012.

(45) Laboratoire Génie des Procédés et matériaux, Ecole Centrale des Arts et Manufactures, Paris, “Diurnal heat and vapor transfer through the surface of mobile desert dunes”, September 13, 2012.

(44) “Diurnal heat and vapor transfer through the surface of desert dunes,” Institut de Physique, Faculté des Sciences, Rennes (France), June 6, 2011.

(43) Publicpresentationforparents’week-end,CornellUniversity,“Crescent-shapedsanddunes–Silenttravelersofthedesert”October23,2010.

(42) EnvironmentalLawSociety,CornellUniversity,“AreTechnologicalSolutionsanExcuseforInaction?”September20,2010.

(41) EdFChatou,Keynotespeech,GDRTransportSolideNaturel,“Mesuresponctuellesetsimultanéesdedensité,humiditéetvitesseparsondes

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capacitives:applicationsensuspensionsgaz-solides,solssableuxetavalanchesdeneige,”June2,2010.

(40) “Variations of Packing and Humidity on a Barchan Sand Dune; Seepage, Mass Transfer and Dust Filtration through Ripples,” Max Planck Institute, Götingen, July 6, 2009.

(39) “Heat transfer enhancement in suspensions of agitated solids: theory, experiments, and implications for nanofluids”, invited seminar, University of Bath, UK, May 6, 2008.

(38) “Dielectric measurements of density and humidity in weakly conductive media; application to sand and snow”, invited seminar, INSA de Rennes, France, May 22, 2008.

(37) “Heat transfer enhancement in suspensions of agitated solids: theory, experiments, and implications for nanofluids,” invited seminar, Georgia Tech. Physics, August 26, 2008.

(36) “Variations of Packing and Humidity on a Barchan Sand Dune; Seepage, Mass Transfer and Dust Filtration through Ripples,” invited seminar, Rochester Institute of Technology, Physics Dept., October 14, 2008.

(35) “Granular flows, and surface density on desert dunes”, invited seminar, New Jersey Institute of Technology, Mechanical Engineering Department, April 9, 2007.

(34) “Granular flows, and surface density on desert dunes”, invited seminar, University of Chicago, Franck Institute, October 9, 2006.

(33) “Ecoulements gravitaires sans parois latérales sur fond rugueux, “Université de Rennes 1, July 10, 2006, invited seminar.

(32) “Density invariance and fluctuation energy for granular flows on rigid, bumpy inclines, “invited seminar, ESPCI, Paris, April 7, 2006.

(31) “Les Physiciens ont un Grain,” Année Mondiale de la Physique 2005, invited talk Institut de Physique de Rennes, December 9, 2005.

(30)“ÉcoleCentraledesArtsetManufacturesetCornellUniversity-Unpartenariatstratégique,”invitedtalk,ForumdesElèvesdel’ECP,November23,2005,Chatenay-Malabry,France.

(29)“Candensegranularflowsdowninclinesbemodeledusingkinetictheory?”,invitedtalk,DepartmentofAppliedMathematics&TheoreticalPhysics,UniversityofCambridge,November21,2005.

(28) “On Dense Granular Flows down Bumpy Inclines,” invited talk, Purdue University, February 5, 2004.

(27) “Etudes de mileux Granulaires Agités,” Université de Rennes I, GMCM, invited seminar, June 27, 2003.

(26) “Engineering at Cornell University”, general presentation of the College of Engineering to the Ecole Centrale de Paris, June 13, 2003:

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(25) “Models of impact,” invited seminar, Department of Mathematics, New Jersey Institute of Technology, September 20, 2002.

(24) “On dense granular flows down bumpy inclines,” invited seminar, Mechanical Engineering Department, New Jersey Institute of Technology, September 18, 2002.

(23) “Granular flows with collisional and enduring contacts,” invited seminar, University of Kyoto, Japan, July 18, 2002.

(22) “Microgravity on a plane!” Kopernik Center, Vestal, NY, August 8, 2001.

(21) “Teaching Mechanical Synthesis to Cornell Sophomores,” New Jersey Institute of Technology, Mechanical Engineering Department, August 1, 2001.

(20) “Granular Flow Module,” invited talk to the Committee on Microgravity Research, Space Studies Board, National Research Council, April 18, 2001.

(19) “Granular and gas-solid flow research at Cornell,” Caltech, College of Engineering, February 27, 2001.

(18) “Granular segregation and gas-particle interactions in a microgravity flow cell,” Stevens Institute of Technology, Mechanical Engineering Department, December 6, 2000.

(17) “Granular segregation and gas-particle interactions in a microgravity flow cell,” Illinois Institute of Technology, Chemical Engineering Department, November 29, 2000.

(16) “Écoulement granulaires sur un plan incliné lisse,” Université de Rennes, July 13, 1999.

(15) “Roll Waves in Granular Flows Down Inclines,” Université de Rennes, July 9, 1997.

(14) “Measurements of the Impact Properties of Small Spheres,” Université de Rennes, July 10, 1997.

(13) “Granular Flow Research at Cornell,” Montana State University, Department of Civil Engineering, February 26, 1996.

(12) “Computer Simulations of Rapid Granular Flows,” New York City College, Department of Chemical Engineering, December 4, 1995.

(11) “Particulate Research at Cornell,” New Jersey Institute of Technology, Department of Mechanical Engineering, November 29, 1995.

(10) “Particulate Research at Cornell,” University of Minnesota, Department of Aerospace Engineering and Mechanics, May 5, 1995.

(9) “Particulate Research at Cornell,” University of Pittsburgh, Chemical and Petroleum Engineering Department, September 24, 1993.

(8) “Particulate Research at Cornell,” Clarkson University, Department of Civil Engineering, Potsdam, NY, December 8, 1992.

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(7) “Hydrodynamic Scale-up of Circulating Fluidized Beds,” Delft University of Technology, Delft, The Netherlands, Department of Chemical Engineering, February 17, 1992.

(6) “La Mécanique des Milieux Dispersés à Cornell,” Université de Provence, IUSTI, November 15, 1991.

(5) “The Role of Particle Collisions in Pneumatic Transport,” The Ohio State University, Department of Chemical Engineering, June 26, 1990.

(4) “Circulating Fluidization Research at Cornell,” University of Cincinnati, Department of Chemical Engineering, OH, April 28, 1989.

(3) “Shock Tube Study of Cyanide Species Kinetics and Spectroscopy,” Northwestern University, Department of Mechanical Engineering, May 1984.

(2) “Shock Tube Study of Cyanide Species Kinetics and Spectroscopy,” Louisiana State University, Department of Chemical Engineering, April 1984.

(1) “Combustion Kinetics Research in the High Temperature Gasdynamics Laboratory,” invited talk to the Thermosciences Affiliates Meeting, Stanford, CA, January 16, 1984.

Invited lectures at Symposia (35) Granular flows down inclines: how different bases produce widely different scaling

of mass flow rate with depth, Second International Granular Flow Workshop, Guiyang, China, Tuesday, August 22, 2017, sponsored by the Institute of Modern Physics (IMP) of the Chinese Academy of Sciences (CAS), keynote speaker.

(34) Statistical mechanics of hysteretic capillary phenomena: predictions of contact angle on rough surfaces and liquid retention in unsaturated porous media, InterPore 2017, Rotterdam, May 10, 2017, invited speaker.

(33) First International Granular Flow Workshop, Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou, Gansu, China, “Heat transfer enhancement in suspensions of agitated solids”, September 3, 2016.

(32) GdR n° 2799, Micropesanteur Fondamentale et Appliquée, CNRS & CNES, “Compétition entre étalement et pénétration d’une goutte posée à la surface d'un milieu poreux”, November 12, 2015 (with Patrick Perré).

(31) Grand Challenges in Geological Fluid Mechanics, “Statistical mechanics of unsaturated porous media”, Santa Fe, NM, September 4, 2015, invited speaker.

(30) Robert Pfeffer Lecture, Annual Meeting of the International Fine Particle Research Institute, “Statistical mechanics of unsaturated porous media”, June 24, 2015, keynote speaker.

(29) Symposium on Granular and Particle-Laden Flows, University of Nottingham, keynote address, July 28, 2014.

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(28) Kavli Institute for Theoretical Physics, Santa Barbara, “Role of pore pressure gradients in geophysical flows over permeable substrates”, December 18, 2013.

(27) Newton Institute Cambridge, 2nd IMA Conference on Dense Granular Flows, “Dense granular flows down inclines”, keynote address, July 1, 2013.

(26) ICACM, US--France Workshop 2013, Aussois, keynote talk, “Role of pore pressure gradients in geophysical flows over permeable substrates”, May 24, 2013.

(25) UN Conference of the Parties (CoP-18) on Climate Change, Doha, Qatar, Qatar National Research Foundation, “The link between moisture dynamics and microbial activity in mobile dunes”, November 29, 2012.

(24) GDR Transport Solides, Tours (France), keynote lecture: “Frontal Dynamics of Powder Snow Avalanches”, October 18, 2012.

(23) DOE Conference on Multiphase Flow Science, Morgantown, May 22, 2012, keynote speech “Heat Transfer Enhancement in Dense Suspensions of Agitated Solids”.

(22) Brazil:aPathwayintotheFuture,speakeratthepanel“Energy:FromOiltoBiofuels–AProspectiveOutlook,”JohnsonGraduateSchoolofManagement,CornellUniversity,March4,2011.

(21)“Microbiologicalstabilizationofdesertsands,andotherreflectionsongranularmedia,”DARPAworkshop,February17,2010.

(20)Gordon Research Conference on Granular & Granular-Fluid Flow, Oxford, July 23-27, 2006. Discussion leader, session on chute flow. “Granular Flows down Inclines, Discussion”, invited review, July 24, 2006.

(19)“Density invariance and fluctuation energy for granular flows on rigid, bumpy inclines, “Eid. Schnee u-Lawinen Forschung, invited talk, Davos, March 15, 2006.

(18)"ThesignificanceofgranularflowstoLunarandMartianexploration",GordonResearchConferenceonEngineeringSciencesforSpaceExploration,August22,2005,LesDiablerets,Switzerland,invitedkeynotetalk.

(17)KavliInstituteforTheoreticalPhysics,UCSantaBarbara:invitedtalkonJune20,2005“Granularflowsdowninclineswithandwithoutsidewalls.”

(16)Workshop on Granular Materials in Lunar and Martian Exploration: Kennedy Space Center, “Granular Flow Challenges in Lunar and Martian Exploration,” February 2, 2005, invited talk.

(15)“CollisionalGranularFlowswithandwithoutGasInteractionsinMicrogravity,”Mini-SymposiumInvitedlectureatICTAM2004,Warsaw,Polandinthemini-symposiumon“MicrogravityFlowPhenomena”,21stInternationalCongressofTheoreticalandAppliedMechanics,Warsaw,Poland August16,2004.

(14) GDR Midi, Carry-le-Rouet, France “Lerôledumomentangulairedanslesécoulementsgravitaires,”invitedtalk, June 8, 2004.

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(13) « Role of Couple Stresses in Shallow Granular Flows down a Bumpy Incline, » 5th International Conference on Multiphase Flow, ICMF’04, Yokohama, Japan, keynote speech, Wednesday, June 2, 2004, paper K-13.

(12) “Granular Segregation in Collisional Shearing Flows,” invited talk, Newton Institute, Cambridge, UK, September 23, 2003.

(11) “Interactions between a gas and dispersed solids at moderate Stokes numbers,” keynote speech, Engineering Foundation Conference on Fluid-Particle Interactions VI, Barga, Italy August 29, 2002.

(10) “Granular flows in open and closed channels,” invited lecture, Gordon Research Conference on Granular and Granular-Fluid Flow, Plymouth, NH, July 4, 2002.

(9) “Boundary conditions, friction and particle interactions,” invited presentation, Disperse Flow Study Group, Workshop on Scientific Issues in Multiphase Flows, U. Illinois at Urbana-Champaign, May 7, 2002.

(8) “Granular Flow Module,” AUI/ISSI NorthEastern Regional Meeting, November 1, 2001.

(7) “Microgravity segregation in collisional granular shearing flows”, Mechanics for a New Millennium, ICTAM-2000, Chicago, August 29, 2000.

(6) “A Review of Selected Measurement Techniques for Dense Gas-Solid Suspensions,” Winter Annual Meeting of the AIChE, Dallas, November 3, 1999.

(5) “Advances in Experimental Methods,” Engineering Foundation Conference on Fluid-Particle Interactions V, Santa Fe, NM, May 12, 1999.

(4) “A Review of Instrumentation for Dense Gas-Solid Flows,” Engineering Foundation Conference on Computational Fluid Dynamics in Chemical Reaction Engineering, San Diego, October 15, 1996.

(3) “Hydrodynamic Behavior of Circulating Fluidized Beds,” ASME/JSME conference, Hilton Head, SC, August 16, 1995.

(2) “Circulating Fluidization Research at Cornell,” Annual Meeting of the International Fine Particle Research Institute, University of Illinois at Urbana-Champaign, June 12, 1995.

(1) “Boundary Conditions for Rapid Flows of Inelastic Frictional Spheres In Sliding Collisions with a Flat Frictional Wall”, invited lecture at the memorial session for Leopoldo Massimilla, AIChE Meeting, San Francisco, November 14, 1994.

-- Over 200 additional contributed lectures are omitted for brevity --