Event has passed
Pre-APS-DFD Satellite Meeting
on
Environmental and Biological Fluid Dynamics
16-17 November, 2023
University of Pennsylvania
To launch our new working group about Environmental and Biological Fluids Dynamic at the University of Pennsylvania, we will be organizing a symposium just before the APS DFD meeting. We hope to welcome people from many different backgrounds and career stages from around the world. Our symposium will take place on Thursday and Friday in Philadelphia, which is about 2 hours away from Washington DC where the DFD will start on Sunday morning. We hope that many of you will stop by to join our meeting!
Times: 9am – 6pm (Eastern)
Location: Singh Center for Nanotechnology, 3205 Walnut St, Philadelphia, PA 19104
Registration fee: None. Refreshments will be provided, but please arrange for your own travel, accommodation and meals
Applications: We have a limited room capacity, so please apply below to attend
Talks/posters: Please submit your abstract for a talk or poster using the same link. We encourage contributions from early-career scientists
Contact: Please email upenn.eb.fluid.dynamics@gmail.com for any questions
Confirmed invited speakers:
- Michelle DiBenedetto (Univeristy of Washington)
- Eric Lauga (University of Cambridge, UK)
- Corinna Maass (University of Twente, The Netherlands)
- Alexander Morozov (University of Edinburgh, UK)
- Michael Shelley (NYU / Flatiron Institute)
- Kathleen Stebe (University of Pennsylvania)
- Bruce Sutherland (University of Alberta, Canada)
- Petia Vlahovska (Northwestern University)
- Christian Wagner (University of Saarland, Germany)
Organizing committee:
Participant list:
| Muhammad | Abdullah |
University of Pennsylvania, Department of Mechanical Engineering
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| Paulo | Arratia | University of Pennsylvania, MEAM | |
| Wesley | Baker | University of Pennsylvania, Department of Neurology | |
| Felipe | Barros | University of Concepcion, Department of Physics | Hydrodynamic stirring driven by active carpets at fluid interfaces |
| Parvin | Bayati | Penn State University, Department of Chemistry | |
| Raphael | Benamran | Brown University, Department of Physics | A physics-based explanation for the existence of Stokes drift |
| Ryan | Black | University of Pennsylvania, MEAM | |
| Aidan | Blaser | Scripps Institution of Oceanography, UCSD | The Lagrangian mean flow of broadband wave fields |
| Makyla | Boyd |
University of Pennsylvania, Department of mechanical engineering and applied mechanics
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| Christopher | Browne | University of Pennsylvania, Department of Chemical and Biomolecular Engineering | Accelerating mixing and reaction kinetics in porous media using an elastic instability |
| Ianto | Cannon | Okinawa Institute of Science and Technology, Japan | Intermittency in turbulent elastoviscoplastic fluids |
| Rahul | Chacko | University of Pennsylvania, Department of Physics | Modelling and simulation of shear jamming in dense suspensions |
| Rahul | Chajwa | Stanford University, Department of Bioengineering | Hidden Viscoelastic Degree of Freedom in Marine Snow |
| Panteleimon | Charalampopoulos |
University of Pennsylvania, School of Engineering and Applied Science, Mechanical Engineering and Applied Mechanics department
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| Purba | Chatterjee | University of Pennsylvania | |
| Emily | Chen | Princeton University, Department of Chemical & Biological Engineering | Influence of geometric ordering on viscoelastic flow instabilities in 3D porous media |
| Chieh-Ying (Cindy) | Chen |
University of Illinois at Urbana-Champaign, Department of Civil and Environmental Engineering
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| Wanting | Cheng | Southern University of Science and Technology, | The Effect of Gravity on Copepods: Experimental Investigation of Swimming Behavior |
| Aditi | Chintapalli | University of Pennsylvania, Department of Mechanical Engineering and Applied Mechanics | Numerical Modeling of Aerodynamics Assisted Kirigami Fog Collectors |
| Justin | Cooke | University of Pennsylvania, MEAM Dept. | Mesoscale structure of the atmospheric boundary layer across a natural step-change in roughness |
| Yutong | Cui | ESPCI, PMMH | |
| Linda | Cummings |
New Jersey Institute of Technology, Department of Mathematical Sciences
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| David | Cúñez | University of Rochester, Earth and Environmental Sciences | From romance to breakdown: how salmon’s epic love story erodes riverbeds |
| Sujit | Datta | Princeton, Chemical and Biological Engineering | |
| Marco | De Paoli | University of Twente | Convection-driven porous media flows: Implications for carbon dioxide sequestration |
| Paheli | Desai-Chowdhry |
University of Pennsylvania, Department of Physics and Astronomy
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| Michelle | DiBenedetto | University of Washington | |
| Claire | Doré |
University of Pennsylvania, Department of Chemical and bimolecular engineering
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| Gwynn | Elfring | University of British Columbia | Densitaxis: Active particle motion in density gradients |
| Gustavo | Estay | University of Pennsylvania, EES | |
| Guillermo | Fadic | Universidad de Chile | Characterization of bioconvection patterns formed by magnetotactic bacteria under a uniform magnetic field |
| Lei | Fang | University of Pittsburgh, CEE | Biologically Generated Mixing and the Direction of Energy Cascade |
| Kee Onn | Fong | University of Washington Applied Physics Laboratory | How the oceans breathe: Bubble-mediated air-sea gas exchange in the oceans |
| Francois | Gallaire | EPFL | |
| Marco | Galvani | University of Pennsylvania | |
| Tony | Gao | Michigan State University | Elastic particle model for coil-stretch transition of dilute polymers in an elongational flow |
| David | Goldsby | University of Pennsylvania, Earth and Environmental Science | |
| Georgios | Gounaris | University of Pennsylvania, Department of Physics | |
| James | Graham | University of Oxford, Department of Physics | Cell sorting by active forces in a phase-field model of cell monolayers |
| Ian | Graham | University of Pennsylvania, Department of Physics | Structure, memory, and rheology in sheared dense suspensions |
| Francisca | Guzman-Lastra | Universidad de Chile | Controlling vertical transport driven by active carpets at viscocity interfaces |
| Imran | Hayat | University of Pennsylvania, MEAM | |
| Lucas | Hildebrand Pires da Cunha | Georgetown University | |
| Robert | Hunt | Brown University, School of Engineering | Particles in density-stratified fluids |
| Daulet | Izbassarov | Finnish Meteorological Institute | |
| Mitchell | Jans | Princeton University, Department of Civil and Environmental Engineering | Modeling Incipient Clay Erosion Utilizing a Computational Fluid Dynamic Approach |
| Douglas | Jerolmack | UPenn | |
| Sanjana | Kamath | Princeton, Department of Chemical Engineering | |
| Eleni | Katifori |
University of Pennsylvania, Department of Physics and Astronomy
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| Ilia | Kheirkhah | University of Pennsylvania, Department of Mechanical Engineering and Applied Mechanics | Numerical Modeling of Kirigami Fog Collectors |
| Yumi | Kim |
University of Pennsylvania, Department of Earth and Environmental Science
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| Hungtang | Ko | Princeton University, Department of Mechanical and Aerospace Engineering | The quest for stable fish school formations |
| Sumit | Kumar | University of Pennsylvania, School of Engineering and Applied Sciences | Fully synthetic mucous solutions reproduce rheological response of natural mucous |
| Po-Chun | Kuo | University of Pennsylvania, Department of Mathematics | |
| Eric | Lauga | University of Cambridge | |
| Zhibo | Li | ESPCI Paris, PMMH lab | Interactions of fibers with pillars: from one pillar to pillar arrays |
| Zexu | Li | University of Pittsburgh, Department of Civil and Environmental Engineering | Preferential transport of swimmers in heterogeneous two-dimensional turbulent flow |
| Maciej | Lisicki | University of Warsaw, Faculty of Physics | Supercoiling dependent shape and hydrodynamics of DNA minicircles |
| Maggie | Liu | UPenn physics | |
| Corinna | Maass | University of Twente | |
| Maniya | Maleki | University of Pennsylvania, Department of Chemistry & Institute for Advanced Studies in Basic Sciences, Zanjan, Iran | Faraday Waves in a Low-Viscosity Fluid Covered with a Floating Elastic Sheet |
| Stewart | Mallory | Penn State, Department of Chemistry | Orbits, spirals, and trapped states: Tuning the dynamics of phoretic Janus particles near a chemical source or sink |
| Niladri Sekhar | Mandal | Penn State, Department of Chemical Engineering | |
| Abhijit | Manna |
University of Pennsylvania, Department of Earth and Environmental Science
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| Alejandro | Martinez-Calvo | Princeton University, Princeton Center for Theoretical Science | Morphological instability and roughening of growing 3D bacterial colonies |
| Arnold | Mathijssen | University of Pennsylvania | |
| Eckart | Meiburg | UC Santa Barbara, Department of Mech. Eng. | Exploring cohesive multiphase flow processes via particle-resolving simulations |
| Sebastien | Michelin | LadHyX, Ecole Polytechnique | Confined self-propulsion of active droplets |
| Farshid | Mohammad-Rafiee | Institute for Advanced Studies in Basic Sciences (IASBS) | |
| Anthony | Mohr |
University of Pennsylvania, Department of Physics/Department of Earth and Environmental Science
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| Yoichiro | Mori | University of Pennsylvania, Department of Mathematics | |
| Alexander | Morozov | University of Edinburgh | |
| Daisuke | Noto |
University of Pennsylvania, Department of Earth and Environmental Science
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| Thomas | O’Shea | Lehigh University, Department of Chemical and Biomolecular Engineering | Chemical cues increase the cell-mediated degradation and migration of encapsulated human mesenchymal stem cells (hMSCs) in hydrogels |
| Kohei | Ohie | Hokkaido University, Faculty of Engineering | Rheology of dilute bubble suspensions in unsteady shear flows |
| George | Park | UPenn (MEAM) | Mesoscale structure of the atmospheric boundary layer across a natural roughness transition at White Sands National Park |
| Ernest | Park | University of Pennsylvania, Department of Physics | |
| Benjamin | Perez | ESPCI – PMMH | Control of bacteria turbulence through surfaces |
| Ileana | Pérez-Rodríguez | University of Pennsylvania, Earth and Environmental Science | |
| Ben | Pisanty | University of Pennsylvania, Department of Physics | |
| Abigail | Plummer | Princeton University | |
| Shravan | Pradeep | University of Pennsylvania, Earth & Environmental Sciences/Mechanical Engineering & Applied Mechanics | Rheological signatures of debris flow mixtures |
| Julia | Radzio | University of Pennsylvania, Mechanical Engineering | Deformability-based separation of microgels using microfluidics |
| Leela | Rakesh | UPenn CBE | |
| Meera | Ramaswamy | Department of Chemical Engineering, Princeton University | Chemotactic migration of bacteria in changing environments |
| Ranjiangshang | Ran | Emory University, Department of Physics | Electrostatic forces help parasitic nematodes jump toward their charged hosts |
| Nacere Mohamed | Samassi | University of Rochester | Experiments on the Role of Cohesive Sediments on Fluvial Erosion |
| Vivek | Sharma | Univesity of Illinois Chicago | Engineering Plant-based Foods and Sustainable Formulations |
| Michael | Shelley | NYU / Flatiron Institute | |
| Xinyu | Si | University of Pittsburgh, CEE Department | Interaction between swarming active matter and flow: the impact on Lagrangian coherent structures |
| Saverio | Spagnolie | University of Wisconsin – Madison | Dancing raisins: levitation and dynamics of bodies in supersaturated fluids |
| Kathleen | Stebe | University of Pennsylvania | |
| Bruce | Sutherland | University of Alberta | |
| Akihide | Takano | Hokkaido university, Department of Engineering | Evaluation of the local effective eddy viscosity in Taylor-Couette flow |
| Tzer Han | Tan | University of California San Diego, Department of Physics | Hydrodynamic self-assembly of living chiral crystal |
| Ran | Tao | University of Pennsylvania, Department of Physics | Enhanced upstream swimming of bacteria in complex fluids: part II, viscoelasticity |
| Yuji | Tasaka | Hokkaido University, Laboratory for Flow Control | |
| Albane | Thery | University of Pennsylvania, Department of Mathematics | Increased efficiency of helical propulsion in suspensions |
| Louison | Thorens | Tufts University | Connecting polymer dynamics and Lagrangian flow structures in viscoelastic flows |
| Ye | Tian | Southern University of Science and Technology, Department of Mechanics and Aerospace Engineering | Characteristics of flow field induced by a swimming calanoid copepod |
| Simon | Toedtli |
Johns Hopkins University, Department of Mechanical Engineering
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| Carolina | Trenado-Yuste | Princeton University | Interfacial morphodynamics of proliferating microbial communities |
| Tomás | Trewhela | Universidad Adolfo Ibañez, Faculty of Engineering and Science | Particle-size segregation and rheology feedback in dense granular flows |
| Alan C. H. | Tsang | The University of Hong Kong, Department of Mechanical Engineering | Flagellar beat switching in phototaxis of swimming microorganisms |
| Hugo | Ulloa | University of Pennsylvania, EES | |
| Babak | Vajdi Hokmabad | Princeton University | Collective dynamics of bacteria in self-made oxygen gradients |
| Bryan | VanSaders | Drexel University, Department of Physics | |
| Sachin | Velankar | University of Pittsburgh | Elastic buckling with viscous dissipation: Compression-induced buckling of an elastic film on a viscous foundation |
| Andrej | Vilfan | Max Planck Institute for Dynamics and Self-Organization, Göttingen, Germany | Hydrodynamic near field effects give rise to fast synchronisation in finite groups of cilia |
| Petia | Vlahovska | Northwestern University | |
| Christian | Wagner | University of Saarland | |
| Zhukun | Wang | University of Pennsylvania | |
| Stephen | Wilson | University of Strathclyde | Rivulet Flow Over and Through a Permeable Membrane |
| Aaron | Winn | University of Pennsylvania, Department of Physics | Oscillatory Flow Networks with Valves |
| Hojung | You | University of Illinois at Urbana-Champaign | |
| Yuan | Young | New Jersey Institute of Technology, Department of Mathematical Sciences | Squirmers in deformable confinement |
| Margot | Young | University of Pennsylvania, Department of Physics | |
| Meisam | Zaferani | Princeton University, Molecular Biology and Mechanical Engineering | Mammalian sperm chemokinesis |
| Xianfei | Zhang | South University of Science and Technology of China | The trade-off between locomotion speed and hydromechanical efficiency determines the optimal orifice ratio of a salp-inspired swimmer |
| Yu | Zhao | University of Pittsburgh, Department of Civil and Environmental Engineering | Preferential alignment and heterogeneous distribution of active non-spherical swimmers near Lagrangian coherent structures |
| Grace | Zhong | Stanford University | Individuality in captivity: Intercellular motility of a dinoflagellate symbiont in an acoel host |
The meeting is currently oversubscribed, but you can still apply using the button below. We will add you to the waiting list and contact you as soon as a spot becomes available.
Schedule
Thursday, 16 Nov 2023
8:00 am – Arrival & Breakfast (Singh Center for Nanotechnology)
9:00 am – Opening Remarks (Singh Center, Glandt Forum, 3rd floor)
9:30 am – Invited speaker: Eric Lauga (University of Cambridge, United Kingdom), “Active biological flows”
10:00 am – Invited speaker: Bruce Sutherland (University of Alberta, Canada), “Transport of Microplastics in Turbidity Currents”
10:30 am – Contributed talk: Grace Zhong (Stanford University), “Individuality in captivity: Intercellular motility of a dinoflagellate symbiont in an acoel host”
10:45 am – Contributed talk: Marco De Paoli (University of Twente, The Netherlands), “Convection-driven porous media flows: Implications for carbon dioxide sequestration”
11:00 am – Coffee Break & Discussions
11:30 am – Flash talks (30 seconds)
1:00 pm – Lunch + Posters
2:30 pm – Invited speaker: Christian Wagner (Saarland University, Germany), “The physics of blood flow”
3:00 pm – Contributed talk: Sebastien Michelin (LadHyX, Ecole Polytechnique, France), “Confined self-propulsion of active droplets”
3:15 pm – Contributed talk: Carolina Trenado-Yuste (Princeton University), “Interfacial morphodynamics of proliferating microbial communities”
3:30 pm – Contributed talk: Andrej Vilfan (MPI Göttingen, Germany), “Hydrodynamic near field effects give rise to fast synchronisation in finite groups of cilia”
3:45 pm – Contributed talk: James Graham (University of Oxford, UK), “Cell sorting by active forces in a phase-field model of cell monolayers”
4:00 pm – Coffee Break & Discussion
4:30 pm – Invited speaker: Michelle DiBenedetto (University of Washington), “Microplastics in the ocean: particle dynamics in a free surface boundary layer”
5:00 pm – Contributed talk: Lei Fang (University of Pittsburgh), “Biologically generated mixing and the direction of energy cascade”
5:15 pm – Contributed talk: Francisca Guzman-Lastra (Universidad de Chile, Chile) “Controlling vertical transport driven by active carpets at viscocity interfaces”
5:30 pm – Contributed talk: Kee Onn Fong (University of Washington), “How the oceans breathe: Bubble-mediated air-sea gas exchange in the oceans”
5:45 pm – Contributed talk: Aidan Blaser (Scripps Institution of Oceanography, UCSD), “The Lagrangian mean flow of broadband wave fields”
6:00 pm – Conference reception (Drinks and finger food provided)
8:00 pm – Dinner (Self-organised)
Friday, 17 Nov 2023
8:00 am – Breakfast (Singh Center for Nanotechnology)
9:15 am – Welcome remarks (Singh Center, Glandt Forum, 3rd floor)
9:30 am – Invited speaker: Michael Shelley (Flatiron Institute and NYU), “Rotational Active Matter”
10:00 am – Invited speaker: Corinna Maass (University of Twente, The Netherlands), “Active droplets as biomimetic modelswimmers”
10:30 am – Contributed talk: Gwynn Elfring (University of British Columbia, Canada), “Densitaxis: Active particle motion in density gradients”
10:45 am – Contributed talk: Albane Thery (University of Pennsylvania), “Increased efficiency of helical propulsion in suspensions”
11:00 am – Coffee Break & Discussions
11:30 pm – Invited speaker: Kathleen Stebe (University of Pennsylvania), “Active Surface Agents: Active colloids at fluid-fluid interfaces”
12:00 pm – Contributed talk: Saverio Spagnolie (University of Wisconsin Madison), “Dancing raisins: levitation and dynamics of bodies in supersaturated fluids”
12:15 pm – Contributed talk: Vivek Sharma (Univesity of Illinois Chicago), “Engineering plant-based foods and sustainable formulations”
12:30 pm – Contributed talk: Stewart Mallory (Pennsylvania State University), “Orbits, spirals, and trapped states: Tuning the dynamics of phoretic Janus particles near a chemical source or sink”
12:45 pm – Contributed talk: Tzer Han Tan (University of California San Diego), “Hydrodynamic self-assembly of living chiral crystal”
1:00 pm – Lunch + Posters and Panel discussion to support early-career scientists
2:30 pm – Invited speaker: Alexander Morozov (University of Edinburgh, UK)
3:00 pm – Contributed talk: Tomás Trewhela (Universidad Adolfo Ibañez, Chile), “Particle-size segregation and rheology feedback in dense granular flows”
3:15 pm – Contributed talk: Eckart Meiburg (UC Santa Barbara), “Exploring cohesive multiphase flow processes via particle-resolving simulations”
3:30 pm – Contributed talk: Robert Hunt (Brown University), “Particles in density-stratified fluids”
3:45 pm – Contributed talk: Stephen Wilson (University of Strathclyde, UK), “Rivulet flow over and through a permeable membrane”
4:00 pm – Coffee Break & Discussion
4:30 pm – Invited speaker: Petia Vlahovska (Northwestern University), “Droplets as soft robots: programmable locomotion using enclosed active particles”
5:00 pm – Contributed talk: George Park (University of Pennsylvania), “Mesoscale structure of the atmospheric boundary layer across a natural roughness transition at White Sands National Park”
5:15 pm – Contributed talk: Julia Radzio (University of Pennsylvania), “Deformability-based separation of microgels using microfluidics“
5:30 pm – Closing remarks & Awards
6:00 pm – Dinner (Self-organised)
Saturday: Train to Washington DC
Sunday: Start of the APS DFD meeting
Ultra-fast hydrodynamic trigger waves
The geometry of alluvial river channels
Arterial spin labeled (ASL) perfusion MRI
Travel information
The meeting will take place in the Singh Center for Nanotechnology, indicated with the red arrow on the campus map below:
Train & bus service:
Intercity rail service to Philadelphia’s 30th Street Station is provided by Amtrak. Frequent service is offered to Northeastern cities including Boston, New York, Baltimore, and the APS DFD meeting in Washington DC. The train to Washington DC takes about 2 hours.
Intercity bus service is provided by Greyhound and Trailway bus lines from the terminal at 1001 Filbert Street, behind The Gallery shopping center. The Penn campus can be reached from the bus station on SEPTA’s Trolley Line (to either 36th and Sansom Streets or 37th and Spruce Streets) or Market-Frankford Line (to 34th and Market Streets).
From the airport:
The Philadelphia International Airport is located in the Southwest section of the city, approximately twenty minutes from the University of Pennsylvania campus. Visitors driving from the airport should take I-95 North to the I-676/Center City Philadelphia exit, which is approximately seven miles North of the airport. Follow I-676 West (the Vine Street Expressway) until I-76 East (the Schuylkill Expressway). Follow I-76 East until Exit 346-A (old exit number 40) — South Street (a left-lane exit). Turn right onto South Street to enter campus.
Convenient train service from the airport to 30th Street Station is available through Septa’s airport line, which leaves every half-hour. The fare is $6.75 (subject to change), and the trip takes approximately twenty-five minutes. To get from the train station to our Physics Department, located in the David Rittenhouse Lab at 209 S. 33rd Street (the SE corner of 33rd and Walnut Streets), climb the stairs at the North end of the platform (i.e., near the front of the train). Walk one block to the West and make a right on 33rd Street.
The 30th Street Station is about a fifteen-minute walk, $10 cab ride, or $3 trolley ride to campus. A metered cab ride from the airport to campus generally costs approximately $40, including the tip, and takes approximately 20 minutes.
Philadelphia public transport:
Philadelphia’s mass transit system is SEPTA, Southeastern Pennsylvania Transportation Authority. SEPTA operates a coordinated system of bus, subway, elevated train, and trolley lines that covers all of Philadelphia and parts of the surrounding counties. Fares are $2.50 cash, and $2.00 with a registered Septa card. Weekly and monthly SEPTA passes are also available. Septa cards can be purchased on campus at the Penn Book Store. Other card kiosk locations can be found on this website, and cards can be registered online for easier card reloading and slightly cheaper fares here.