Taking the "waste" out of "wastewater" for human water security and ecosystem sustainability.Spring constant calibration of atomic force microscope cantilevers of arbitrary shape.Advances in three-dimensional coronary imaging and computational fluid dynamics: is virtual fractional flow reserve more than just a pretty picture?Reynolds number trend of hierarchies and scale interactions in turbulent boundary layers.Self-similarity in the inertial region of wall turbulence.Crossing turbulent boundaries: interfacial flux in environmental flows.Multiscale geometry and scaling of the turbulent-nonturbulent interface in high Reynolds number boundary layers.Reynolds number invariance of the structure inclination angle in wall turbulence.Some predictions of the attached eddy model for a high Reynolds number boundary layer.Large-scale influences in near-wall turbulence.Evidence of the kappa1-1 law in a high-Reynolds-number turbulent boundary layer.Predictive model for wall-bounded turbulent flow.Strategies for the visualization of multiple 2D vector fields.Transition to ultimate Rayleigh–Bénard turbulence revealed through extended self-similarity scaling analysis of the temperature structure functionsStatistics of turbulence in the energy-containing range of Taylor–Couette compared to canonical wall-bounded flowsUniversality of the energy-containing structures in wall-bounded turbulenceEffective diffusivity and mass flux across the sediment-water interface in streamsObtaining accurate mean velocity measurements in high Reynolds number turbulent boundary layers using Pitot tubesOn the universality of inertial energy in the log layer of turbulent boundary layer and pipe flowsAmplitude and frequency modulation in wall turbulenceElastomeric microvalve geometry affects haemocompatibilitySimultaneous micro-PIV measurements and real-time control trapping in a cross-slot channelIntroduction to Topical Issue on Extreme FlowsMoment generating functions and scaling laws in the inertial layer of turbulent wall-bounded flowsSelf-similarity of the large-scale motions in turbulent pipe flowThe anisotropic structure of turbulence and its energy spectrumAn investigation of channel flow with a smooth air–water interfaceEvolution of zero-pressure-gradient boundary layers from different tripping conditionsTemporally optimized spanwise vorticity sensor measurements in turbulent boundary layersThe statistical behaviour of attached eddiesUniform momentum zones in turbulent boundary layersWavelet analysis of wall turbulence to study large-scale modulation of small scalesA calibration technique to correct sensor drift issues in hot-wire anemometryAmplitude modulation of all three velocity components in turbulent boundary layersControlling the Large-Scale Motions in a Turbulent Boundary LayerHigh spatial range velocity measurements in a high Reynolds number turbulent boundary layerModeling bed shear-stress fluctuations in a shallow tidal channelMultiscale analysis of fluxes at the turbulent/non-turbulent interface in high Reynolds number boundary layersReynolds-number-dependent turbulent inertia and onset of log region in pipe flowsScaling of the turbulent/non-turbulent interface in boundary layers
P50
Q34373677-087D0AF3-B495-4456-B249-09AFB5D7BAE0Q34467011-3C74424D-5780-4DDF-A37A-3A7C49BC6204Q38561624-B1A24ACF-809D-4700-810D-AA389D60AE20Q38975444-CBFF1DD2-00E2-4FEA-A648-2C41B61A6799Q41536904-792E5D6C-8DF4-476F-A8A0-97C9EE3E698CQ46673437-5DD98C0C-83E7-4ECE-8975-5691D2237142Q50159579-5825C31D-F93D-4E76-90B8-1C7808CF6779Q50891698-DE946DB9-9C26-4515-AD63-C463CE952297Q51081447-6BFE3832-5E0E-4395-B0FC-2643ECC5D500Q51081453-0A7BBDA0-3077-4241-A8A5-18B17EE40544Q51346070-AC27FE06-4D23-42A3-848C-112A8DB85885Q51681478-FE270EB5-306D-4EAC-A9E2-9007FCA9BF1BQ51936851-3D08CE96-020C-4987-8BDD-E863995708FCQ56990112-E8F6D297-1DC3-45C1-A650-6EE93D3C9AF6Q56990203-08C9EF6E-F8D1-44CB-BEEE-1C4DB0B054A9Q56990230-6AFA28D1-F683-49C3-BC89-6C079658CD7DQ58077720-372433A8-FB7D-4D05-A6CA-6AB4BC7D5B3EQ59155230-D14EF29E-2B29-409F-8199-0BEBD0CA6EAFQ59712573-CEA7C68C-28B7-460E-980D-222375C11A0BQ59712587-F06CB0D2-A955-43CA-96F3-9E77FF1F3FF3Q60212850-F84A7444-8B3C-4EC1-B225-5557CD0AEAF2Q60212851-0B4638B9-D5A4-4A67-9310-4143F9880994Q60212852-B4817F6C-A862-44DC-BAC8-58B6EAA85885Q60212853-A10AD637-5FC3-407C-A0E4-E46487ED0AAAQ60212855-664631E9-8A0A-498D-86EE-D441CD8FD265Q60212856-BE171F04-4970-4E5D-B8D0-746BACD74B38Q60212857-9028DCA5-E728-427D-A30A-8A18FDC307B8Q60212858-BDC46E87-C948-4778-B731-AC5B55EC9B37Q60212859-64CC95FE-08BD-44BB-BF6D-206A2E80742DQ60212860-9C36E60F-C2BD-4C34-9C63-A064E3229BC2Q60212861-B90E06F5-0083-4A3C-84E3-FD7EADE45606Q60212862-27C01875-40E4-4707-949B-71289708CFE9Q60212863-780BE68A-4338-4398-ADB2-EF3D3A239F52Q60212864-7ADB0F4A-1A35-4DF2-9E6C-3944268EEA63Q60212866-A26C75BF-759E-4881-952C-08CC90B42428Q60212867-0C9BC932-EA6E-4B6C-AFF0-041879E7FBE5Q60212868-D1F64D2A-B7F2-4D6E-BF86-795C2EB440E7Q60212869-E6A7225C-231A-46F2-BFED-EDE6D5441326Q60212871-62C4A577-BF73-42E6-9EFD-27D5F8710630Q60212872-7EB1FFDF-16D4-4B42-965A-4BE5A0ACBE0C
P50
description
hulumtues
@sq
ingenieur
@nl
researcher
@en
հետազոտող
@hy
name
Ivan Marusic
@ast
Ivan Marusic
@en
Ivan Marusic
@es
Ivan Marusic
@nl
Ivan Marusic
@sl
type
label
Ivan Marusic
@ast
Ivan Marusic
@en
Ivan Marusic
@es
Ivan Marusic
@nl
Ivan Marusic
@sl
prefLabel
Ivan Marusic
@ast
Ivan Marusic
@en
Ivan Marusic
@es
Ivan Marusic
@nl
Ivan Marusic
@sl
P106
P101
P1153
6603687789
P21
P31
P496
0000-0003-2700-8435
P569
1965-01-01T00:00:00Z