http://www.appliedfluidslab.org/gallery-pi daily 0.75 2024-10-03 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1669742995109-EPEXVE278ZQQ24DEYOK7/CROPPED_GW_Scholar_Profile_Pic_bw.png PI - Dr. Arvind Santhanakrishnan Associate Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. How to pronounce my name? Biosketch (updated July 2021). https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1669742995109-EPEXVE278ZQQ24DEYOK7/CROPPED_GW_Scholar_Profile_Pic_bw.png PI - Dr. Arvind Santhanakrishnan Associate Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. How to pronounce my name? Biosketch (updated July 2021). https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484647036099-LFLWHK2J84DRNF4F0R8R/screen-shot-2015-02-10-at-10-15-50-pm.png PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484647010000-99LWFBLUZ5WJNAVPNL8S/screen-shot-2015-02-10-at-10-15-50-pm.png PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484690025042-9MX83OQWTYGT7O3Q4S91/Fullimage-AS-MAE-profilepicture.JPG PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484711806507-B9JGID2AN8G4PL1IT59W/Fullimage-AS-MAE-profilepicture.JPG PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484689979117-XI39O3QRC4PR7A5IF9R5/Fullimage-AS-MAE-profilepicture.JPG PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484689762475-V5IOQPYE5Y5ZM30PUXC3/Fullimage-AS-MAE-profilepicture.JPG PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484689929325-J0R8SOF4PNWEU2IQ0QNK/Fullimage-AS-MAE-profilepicture.JPG PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Feb. 1, 2015) - click HERE. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1493053185132-KC3VEUDFBK5B4CXB4QA8/CROPPED_GW_Scholar_Profile_Pic_bw.png PI - Dr. Arvind Santhanakrishnan Assistant Professor School of Mechanical & Aerospace Engineering, Oklahoma State University E-mail: askrish@okstate.edu Dr. Santhanakrishnan (pronounced "S uh n - th A - n uh - k r IH sh - n uh n") directs the Applied Fluid Mechanics Lab. His research interests include biofluid mechanics, fluid-structure interaction, and flow control. Curriculum Vitae (updated Jan. 1, 2017) - click HERE. http://www.appliedfluidslab.org/projects daily 0.75 2020-02-10 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484641895094-XUSW3426LQ3DR815IELN/vert_paddling_projects.jpg Projects - Hydrodynamics of Metachronal Swimming Crustaceans such as shrimp, krill and lobsters use a unique drag-based swimming strategy in which pairs of swimming limbs (pleopods) are rhythmically oscillated starting from the limb closest to the tail and progressing toward the head. Each pleopod is phase-shifted in time relative to the neighboring pleopod, resulting in a metachronal wave traveling along the same direction as the animal. We use a multi-pronged approach consisting of high-speed videos on free-swimming shrimp and controlled experiments on robotic models to understand how the geometric design of pleopods and the metachronal stroke kinematics impact swimming performance. Funding: NSF CBET 1706762 [abstract link]. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484641895094-XUSW3426LQ3DR815IELN/vert_paddling_projects.jpg Projects - Hydrodynamics of Metachronal Swimming Crustaceans such as shrimp, krill and lobsters use a unique drag-based swimming strategy in which pairs of swimming limbs (pleopods) are rhythmically oscillated starting from the limb closest to the tail and progressing toward the head. Each pleopod is phase-shifted in time relative to the neighboring pleopod, resulting in a metachronal wave traveling along the same direction as the animal. We use a multi-pronged approach consisting of high-speed videos on free-swimming shrimp and controlled experiments on robotic models to understand how the geometric design of pleopods and the metachronal stroke kinematics impact swimming performance. Funding: NSF CBET 1706762 [abstract link]. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423112047010-KAIA7DGHEKH1IL5PARZ0/Slide2.jpg Projects - Aerodynamics of Tiny Insect Flight There are a vast number of tiny insects of body lengths less than 1 mm (e.g., thrips) that are of agricultural importance, due to their role in acting as vectors of plant pathogens. Little is known about the aerodynamics of their flight and dispersal mechanisms. They have been proposed to augment lift through adaptations in the flight kinematics, wing flexibility and wing morphology. We use a dynamically scaled robotic platform of tiny insect flight to investigate the combined roles of wing-wing interaction during free flight and wing morphological modifications (bristled wings) on their aerodynamic performance. Funding: NSF CBET 1512071 [abstract link]. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423110706272-4LE36XQGUPMDRBNBTTT2/vert_cassio_projects.jpg Projects - Currents Generated by Upside-Down Jellyfish Patchy aggregations of sessile Cassiopea medusae are observed in shallow regions of sheltered marine environments saturated with sunlight. The medusae are oriented "upside-down" with their bells attached to the substrate and oral arms directed toward sunlight. Currents generated by the upside-down jellyfish can enhance vertical mixing in benthic boundary layer flows characteristic of seagrass beds and mangrove ecosystems. We use experiments on live animals to investigate how Cassiopea pulsing enhances pore water pumping and mixing in the background flow. Funding: NSF CBET 1916061. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423112227376-75SA0T5PEK4Y5R1ZGIWP/image-asset.jpeg Projects - Hemodynamic Markers of Heart Failure Heart failure is a leading cause of death in the US. Flow patterns in the left ventricle have been proposed for use as hemodynamic markers in the clinical setting. We have developed an MRI-compatible left heart phantom model to investigate several manifestations of heart failure where structural alterations to the myocardial wall are observed. We are interested in the verification of accuracy of MRI-based diagnostic metrics developed for non-invasive assessment of disease severity. Our testbed is also being used to provide experimental data for validation of computational fluid-structure interaction models being developed by collaborators. Funding: OCAST Health Research Program. http://www.appliedfluidslab.org/photography daily 0.75 2013-03-18 http://www.appliedfluidslab.org/home daily 1.0 2020-02-10 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484646356523-AD3FJQ1GBSJZ7U3SYAYK/1_19-poster.jpg Home - Metachronal swimming of crustaceans High-speed videos are used to obtain pleopod kinematics in ghost shrimp individuals. This data is used to drive robotic models for mechanistic studies of metachronal swimming. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484646356523-AD3FJQ1GBSJZ7U3SYAYK/1_19-poster.jpg Home - Metachronal swimming of crustaceans High-speed videos are used to obtain pleopod kinematics in ghost shrimp individuals. This data is used to drive robotic models for mechanistic studies of metachronal swimming. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1485328998172-X2ZWU2N29CJTDXRH8C2P/bristled_wing_physical_model1.jpg Home - Flapping flight using bristled wings Many tiny insects (size < 1 mm) that fly use bristled wings. We examine the underlying aerodynamics using physical and computational modeling. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422830398164-4LTFMWHZY8O56ENCG6OZ/image-asset.png Home - Wing-wing interaction in flapping flight of tiny insects A robotic platform of 'clap and fling' interaction is used to provide kinematics corresponding to flapping flight in tiny insects with bristled wings. Leading edge vortices (at the top) are observed when the wings rotate about their trailing edges (at the bottom). https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422596172448-WW2I0QC1B8A3SAB2SWUO/image-asset.jpeg Home - Feeding currents generated by upside-down jellyfish Dye injected along sandy surface is pulled sideways by pulsing jellyfish and moved vertically into the water column. Oral arms of the medusa aid in breakup of coherent large-scale vortices. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1485330038468-K4M04G8Y4I9XW2TW3O84/cassioPSPLIFimage-fakesub.jpg Home - Pore water pumping by upside-down jellyfish Fluorescent dye buried underneath sandy substrate is released into the water column by bell pulsations of upside-down jellyfish. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484644297392-YWJRI6RLRYKJBZMBWAA6/cassio-far-fieldPLIFimage.jpg Home - Vertical mixing by upside-down jellyfish Vertical mixing effected by pulsing activity of upside-down jellyfish is visualized using planar laser induced fluorescence. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1485334012042-Z8PFNDN8BPPGMGOYCTVO/inter-pleopod-flows-homepage.jpg Home - Robotic model studies of metachronal paddling Hydrodynamic interactions in between neighboring swimming limbs (pleopods) in metachrony are studied using a robotic platform (inset image) that is outfitted with physical models of hinged pleopods. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422827170547-3ZOM2O9BQKID7Z83993K/image-asset.jpeg Home - Left heart simulator Flexible-walled physical model of the human left ventricle illuminated using a green laser sheet for visualization of fluid flow. http://www.appliedfluidslab.org/new-gallery-1 daily 0.75 2023-09-12 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484940713136-6T3U3WME65YMPPTHXBG6/IMG_6288.JPG Grads - Aaron Alexander Ph.D. student Mechanical & Aerospace Engineering Assistant Professor, Mechanical Engineering Technology E-mail: aaron.s.alexander@okstate.edu Aaron’s research and teaching interests include wind power, computational fluid dynamics, noise control, acoustics, and R&D. He is currently working on flow control methods to improve efficiency of vertical axis wind turbines. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484940713136-6T3U3WME65YMPPTHXBG6/IMG_6288.JPG Grads - Aaron Alexander Ph.D. student Mechanical & Aerospace Engineering Assistant Professor, Mechanical Engineering Technology E-mail: aaron.s.alexander@okstate.edu Aaron’s research and teaching interests include wind power, computational fluid dynamics, noise control, acoustics, and R&D. He is currently working on flow control methods to improve efficiency of vertical axis wind turbines. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1539919495754-VTRYD102G8JINQ6O8BCR/manikantam.jpg Grads - Manikantam Gaddam Ph.D. student Mechanical & Aerospace Engineering E-mail: manikantam.gaddam@okstate.edu Mani's research interests are in biofluid mechanics and biomedical devices. He is using physical and computational modeling of the human airway to investigate how particle deposition is affected under different unsteady breathing patterns. He is also using the upside-down Cassiopea jellyfish as a model organism to examine filtering through branched and bristled appendages at biologically intermediate Reynolds numbers. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1538773144422-9O8JWHT2526SP091ZJV9/VK_2017-cropped.jpg Grads - Vishwa Teja Kasoju Ph.D. student Mechanical & Aerospace Engineering E-mail: vishwa.kasoju@okstate.edu Vishwa’s research interests are in unsteady fluid dynamics and bio-robotics. He is studying the role of bristled wings in active and passive dispersal of tiny insects. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1668922508535-F1UUUE9P9P0X4Q50UTZV/mitch.JPG Grads - Mitchell Ford Ph.D. student Mechanical & Aerospace Engineering E-mail: mitchell.ford@okstate.edu Mitch is a Ph.D. candidate with research interests in biomechanics and bio-fluid dynamics. He is currently studying metachronal swimming using self-propelled robotic models and live crustaceans. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1694527934859-WRGN8LMKMJSQFHI5LN9R/image-asset.jpeg Grads - Adetokunbo Awonusi PhD Student Mechanical & Aerospace Engineering E-mail: adetokunbo.awonusi@okstate.edu Adetokunbo is a PhD student with a master’s in Mechanical Engineering. His interests are in computational fluid dynamics and biofluid mechanics. He is currently investigating the flow physics involved in particle capture by suspension feeders. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1692911954059-9L28LWIPC464EN1Y98IK/IMG_0304.JPG Grads - Noel Rajive PhD Student Mechanical & Aerospace Engineering E-mail: noel.mammen.rajive@okstate.edu Noel is a PhD student with a Master's in Thermal and Fluids. He is currently working on studying the physical mechanisms involved in the locomotion, feeding and hydrodynamic sensing of marine organisms. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484940599034-8XITSIS6456NSGL1U9YN/IMG_6288.JPG Grads - Aaron Alexander Ph.D. student Mechanical & Aerospace Engineering Assistant Professor, Mechanical Engineering Technology E-mail: aaron.s.alexander@okstate.edu Aaron’s research and teaching interests include wind power, computational fluid dynamics, noise control, acoustics, and R&D. He is currently working on flow control methods to improve efficiency of vertical axis wind turbines. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1669743041351-I2LQWCDKJLFX3FIG0ZG4/image-asset.png Grads - Jacqueline Nwamaka Esimike Master’s student Mechanical & Aerospace Engineering E-mail: jacqueline.esimike@okstate.edu Jacqueline is a Master’s student currently working on projects involving respiratory aerosols and soft corals. http://www.appliedfluidslab.org/ugs daily 0.75 2022-11-29 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635671765-RH3D97C9X3P8VB1ER24F/nick.jpg UGs - Nicholas Nelsen B.S. student, 2017 Goldwater Scholar; Wentz Research Scholar (2017-2018); Niblack Research Scholar (2016-2017) Mechanical & Aerospace Engineering; Mathematics E-mail: nnelsen@okstate.edu Nick is a senior undergraduate student whose current research interests include vortex dynamics, computational fluid dynamics (CFD), fluid-structure interaction, biofluid mechanics, and mathematical modeling. He is investigating how altering aortic pressure impacts the left ventricular filling vortex. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635671765-RH3D97C9X3P8VB1ER24F/nick.jpg UGs - Nicholas Nelsen B.S. student, 2017 Goldwater Scholar; Wentz Research Scholar (2017-2018); Niblack Research Scholar (2016-2017) Mechanical & Aerospace Engineering; Mathematics E-mail: nnelsen@okstate.edu Nick is a senior undergraduate student whose current research interests include vortex dynamics, computational fluid dynamics (CFD), fluid-structure interaction, biofluid mechanics, and mathematical modeling. He is investigating how altering aortic pressure impacts the left ventricular filling vortex. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1669743948159-9NW76GTX8DC5WPFK430E/SGlen.png UGs - Sam Glenn B.S. Student Mechanical & Aerospace Engineering Sam is a Niblack Undergraduate Research Scholar studying wing shape effects on tiny insect flight. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1538772337877-K6ENRLWEXBJT5IKANH39/Ngo.jpg UGs - Truc Ngo B.S. student, CEAT Undergraduate Research Scholar (2018-2019) Mechanical & Aerospace Engineering E-mail: tructn@okstate.edu Truc is interested in bio-inspired robotic design. She is examining how variations in pause times of clap and fling kinematics impacts aerodynamic force generation. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635906006-DA0XHGL7BGMEC2DC4LBF/mitch.JPG UGs - Mitchell Ford B.S. student, Wentz Research Scholar (2017-2018) Mechanical & Aerospace Engineering E-mail: mitchell.ford@okstate.edu Mitch is a senior undergraduate student with research interests in aerodynamics and propulsion. He is currently working on upgrading the lab flapping flight simulator to incorporate three-dimensional wing motion kinematics. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635361544-33MC537ACEVO7SPY2UM6/nick.jpg UGs - Nicholas Nelsen B.S. student, Niblack Research Scholar Mechanical & Aerospace Engineering; Mathematics E-mail: nnelsen@okstate.edu Nick is a third-year undergraduate student whose current research interests include vortex dynamics, computational fluid dynamics (CFD), fluid-structure interactions, bio-fluid flow physics, and mathematical modeling. He is currently working on understanding how altering aortic pressure impacts the left ventricular filling vortex. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635702712-BWRGRTV3O16HJBOCWCMR/indah.jpeg UGs https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484642699520-H2CAVSECOCCTVO6NEXLI/indah.jpeg UGs - Indah Merkel B.S. student, Niblack Research Scholar Mechanical & Aerospace Engineering E-mail: indah.merkel@okstate.edu Indah is a second year undergraduate student whose research interests are in biomimetics and bioengineering. She is studying the role of pleopod flexibility in metachronal paddling. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484635639613-V70XHUBUAVQ7YSQ70SS6/nick.jpg UGs - Nicholas Nelsen B.S. student, Niblack Research Scholar Mechanical & Aerospace Engineering; Mathematics E-mail: nnelsen@okstate.edu Nick is a third-year undergraduate student whose current research interests include vortex dynamics, computational fluid dynamics (CFD), fluid-structure interactions, bio-fluid flow physics, and mathematical modeling. He is currently working on understanding how altering aortic pressure impacts the left ventricular filling vortex. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1425260399039-ZBBN8AWW83UPC61CROTL/matt.jpg UGs - Julian Fields B.S. student, OK-LSAMP Research Scholar Mechanical & Aerospace Engineering E-mail: jfields6@live.com Julian is working on studying grouping patterns in upside-down jellyfish. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1538772892597-BGYJK5OJNWLSFF6DTBFC/Nick+Ford.jpg UGs - Nick Ford B.S. student, CEAT Undergraduate Research Scholar (2018-2019) Mechanical & Aerospace Engineering E-mail: nicholas.ford@okstate.edu Nick is interested in experimental fluid mechanics and bio-inspired design. He is studying force generation in metachronal paddling under varying inter-limb gap widths. http://www.appliedfluidslab.org/hss daily 0.75 2017-01-18 https://static1.squarespace.com/static/54cb1549e4b06b50cb166184/t/587ef181db29d66d9a1f9509/1484637942625/ HSS https://static1.squarespace.com/static/54cb1549e4b06b50cb166184/54ccfbf1e4b0ecec9eb5f861/587dc6f6197aea7dfa85d223/1484637942625/ HSS https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484637942673-6TY9XXONHJXS5Z42FIVO/allison.JPG HSS - Allison Biddinger Junior, Bartlesville High School E-mail: aabiddinger@gmail.com Allison is a high school student interested in biomedical engineering. She is currently working on characterizing the bell pulsation kinematics within groups of upside-down jellyfish. https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484638180815-LZIW43DZT60NKQ0FRR70/allison.JPG HSS - Allison Biddinger Junior, Bartlesville High School E-mail: aabiddinger@gmail.com Allison is a high school student interested in biomedical engineering. She is currently working on characterizing the bell pulsation kinematics within groups of upside-down jellyfish. http://www.appliedfluidslab.org/news-old-layout daily 0.75 2021-07-19 http://www.appliedfluidslab.org/news-old-layout/2021/7/19/congratulations-to-manikantam-gaddam-amp-vishwa-kasoju monthly 0.5 2021-07-19 http://www.appliedfluidslab.org/news-old-layout/miladgraduation monthly 0.5 2020-02-10 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581348044577-BW400DRHKQUFOY8N4HWO/IMG_0365.jpg News - Milad Samaee, PhD! http://www.appliedfluidslab.org/news-old-layout/2020/2/10/afml-at-sicb-2020-austin monthly 0.5 2020-02-19 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581350333487-DAD8MJEFFTCF34CIUC7F/IMG_0430.jpg News - AFML at SICB 2020 in Austin, TX - Vishwa presenting about importance of wing-wing interaction in tiny insect flapping flight https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581350381417-5AKXY7M1OMSTCUCYTK63/IMG_0441.jpg News - AFML at SICB 2020 in Austin, TX - Mitch talked about how appendage spacing to length impacts metachronal swimming performance https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581350502730-MBLJ61KM4N20XU2MMFDE/IMG_0435.jpg News - AFML at SICB 2020 in Austin, TX - Mani presented on pore water release and mixing by upside-down jellyfish http://www.appliedfluidslab.org/news-old-layout/2020/2/10/aps-dfd-in-seattle-november-2019 monthly 0.5 2020-02-19 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581351493895-G7H9K0E9Q024X7ZFCHUV/IMG_0190.png News - APS-DFD in Seattle November 2019 - OSU folks at the APS-DFD 2019 reception in the Museum of Flight https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581351523839-9O2FGQQQ6GOCPWA01QFO/IMG_0194.png News - APS-DFD in Seattle November 2019 - Vishwa explaining flow generated by bristled wings in fling https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1581351511526-BJV2CFIQ8A29XIB6BY8A/IMG_0224.png News - APS-DFD in Seattle November 2019 - Family visit to the Space Needle with lab affiliates Meg and the boys (Partha, 3 y.o and a bit fussy Surya 1 y.o)! http://www.appliedfluidslab.org/news-old-layout/2020/2/19/key-largo-field-work-in-october-2019 monthly 0.5 2020-02-19 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1582127898201-AP2KGBTUCRF5N29NLXME/IMG_0106.jpg News - Key Largo field work in October 2019 - First sighting of a Cassiopea medusa! https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1582127932958-C9R3HU276FSINV5Q177B/IMG_0108.jpg News - Key Largo field work in October 2019 - Medusae collected for morphological measurements http://www.appliedfluidslab.org/news-old-layout/2015/4/10/lv-work-on-display-oklahoma-health-research-conference monthly 0.5 2015-04-10 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1428682287487-R7AL8PCFO2QPK11978AP/image-asset.jpeg News - LV work on display at the Oklahoma Health Research conference http://www.appliedfluidslab.org/news-old-layout/2015/3/23/pritam-wins-first-place-for-his-talk-in-research-week-2015 monthly 0.5 2015-03-23 http://www.appliedfluidslab.org/news-old-layout/2015/2/11/upside-down-jellyfish-work-covered-in-sciencenews monthly 0.5 2015-02-11 http://www.appliedfluidslab.org/news-old-layout/2015/2/1/matt-presents-a-poster-at-sicb-2015 monthly 0.5 2015-02-01 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422827659465-B68JCJ61PVFSKHDNV9U0/image-asset.jpeg News - Matt presents a poster at SICB 2015! http://www.appliedfluidslab.org/news-old-layout/2015/2/1/pritam-aaron-give-talks-at-aps-dfd-2014 monthly 0.5 2015-02-01 http://www.appliedfluidslab.org/outreach daily 0.75 2019-06-27 http://www.appliedfluidslab.org/outreach/2019/6/27/national-lab-day-2019 monthly 0.5 2019-06-27 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660383446-MVYIDJ3ZT4OISZZL4WUD/IMG_0792.JPG Outreach - National Lab Day 2019 Dr. Santhanakrishnan discussing bio-inspired design with students from Deer Creek High School https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660385862-4IOAXZ6XQLHGRGQQ7KNG/IMG_0805.JPG Outreach - National Lab Day 2019 Using toy sharks to demonstrate how viscosity affects swimming performance https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660410356-7IXTPYP1VRDZTS2HDZ16/IMG_0812.JPG Outreach - National Lab Day 2019 Students making model Thrips wings to study insect flight https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660460283-F81WM2MIZOD4LX9WRBG8/IMG_0816.JPG Outreach - National Lab Day 2019 Flow visualization using florescent dye https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660513493-TV6UL8R94QE77CF9NDFZ/IMG_0825.JPG Outreach - National Lab Day 2019 Dr. S explaining the unique swimming strategy used by krill and shrimp https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660531341-MY93JEIJQZT0YJITJNZT/IMG_0833.JPG Outreach - National Lab Day 2019 Students watching a demonstration of the “krillbot” https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660485094-TLZUG2YKS1AZFOYHEIZF/IMG_0835.JPG Outreach - National Lab Day 2019 Dr. S. discussing bio-inspired engineering with students from the Oklahoma Virtual Charter Academy https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660499358-O1L1PCFEBZ1SF6113EOE/IMG_0844.JPG Outreach - National Lab Day 2019 Demonstration of how viscosity influences swimming ability — explaining why zooplankton must use different swimming strategies than larger marine organisms https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660553700-1ANQBT99GKXM81TKWXS5/IMG_0851.JPG Outreach - National Lab Day 2019 Students making model Thrips wings to test on the insect flight platform https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660588775-V78OTP54L25EVDTED8MH/IMG_0862.JPG Outreach - National Lab Day 2019 Students enjoying visiting research labs on National Lab Day https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660662200-5OD3NY5F6UAHZOW22QRL/IMG_0899.JPG Outreach - National Lab Day 2019 Students watching a demonstration of the “krillbot” https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660642043-9VWGZ0LC7TDJ5F1DFO3G/IMG_0902.JPG Outreach - National Lab Day 2019 Students watching a demonstration of the lab’s helicopter model https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1561660649086-GF1XH6ARXXWMC38Y09GP/IMG_0903.JPG Outreach - National Lab Day 2019 Mitch demonstrating the helicopter model for visiting students http://www.appliedfluidslab.org/outreach/2015/2/4/stillwater-high-school-field-trip-december-2014 monthly 0.5 2015-02-05 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423062231218-TK3KJQV2V2VWS23T11RI/swhs.png Outreach - Stillwater High School field trip (December 2014) Though slightly crammed in, our visiting students had a good time checking out the marine life in ATRC 147 lab & getting to see the particle image velocimetry setup! http://www.appliedfluidslab.org/outreach/2015/2/4/osu-national-lab-day-may-2014 monthly 0.5 2015-02-05 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423061494303-QVUU264J63Y5PI9Y4QA3/IMG_0105.JPG Outreach - OSU - National Lab Day (May 2014) http://www.appliedfluidslab.org/outreach/2015/2/4/we-can-work-it-out monthly 0.5 2015-02-04 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423060719647-BW33NSWC66IF3K09OUL6/image-asset.jpeg Outreach - We can work it out! Pulse measurement was a real challenge in this age group :) https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1423060486535-CLF2H4AEZC7TFRSLH43N/image-asset.jpeg Outreach - We can work it out! Student groups performing exercise activities - slightly chaotic! http://www.appliedfluidslab.org/new-cover-page-1 daily 0.75 2015-01-30 http://www.appliedfluidslab.org/personnel daily 0.75 2021-07-19 http://www.appliedfluidslab.org/research daily 0.75 2020-02-10 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1484642439464-HU20AAPZDCFW25I82JC4/image-asset.png Research http://www.appliedfluidslab.org/publications daily 0.75 2022-11-29 http://www.appliedfluidslab.org/collaborators daily 0.75 2020-02-10 http://www.appliedfluidslab.org/courses daily 0.75 2018-09-19 http://www.appliedfluidslab.org/resources daily 0.75 2017-01-23 https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422894629978-2BE6SXL4T6MTUW11KZ94/image-asset.jpeg Resources https://images.squarespace-cdn.com/content/v1/54cb1549e4b06b50cb166184/1422836766049-YGMGH1FAAHLEW7O783GN/image-asset.jpeg Resources http://www.appliedfluidslab.org/piv-equipment-loan-policy daily 0.75 2015-07-23 http://www.appliedfluidslab.org/videos daily 0.75 2021-03-27 http://www.appliedfluidslab.org/preprints daily 0.75 2024-12-10 http://www.appliedfluidslab.org/news daily 0.75 2020-02-19