-
S.M.Tauwald, F.Erzinger, M.Quadrio, M.Rütten4, C.Stemmer & L.Krenkel, 2024.
Tomo-PIV in a Patient-Specific Model of Human Nasal Cavities: A Methodological Approach
- Accepted for publication on Measurement Science and technology
-
E.Gallorini & M.Quadrio, 2024.
Spatial discretization effects in spanwise forcing for turbulent drag reduction
- Journal of Fluid Mechanics 982, A11, pp.1–25, 2024.
Arxiv physics.flu-dyn/2401.11722v1
-
A.Schillaci, K.Hasegawa, C.Pipolo, G.Boracchi and M.Quadrio, 2023.
Comparing flow-based and anatomy-based features in the data-driven study of nasal pathologies
Arxiv physics.flu-dyn/2312.09929v1
- Accepted for publication on Flow
-
F.Gattere, M.Zanolini, D.Gatti, M.Bernardini & M.Quadrio, 2023.
Turbulent drag reduction with streamwise travelling waves in the compressible regime
Arxiv physics.flu-dyn/2312.09929v1
- Accepted for publication, Journal of Fluid Mechanics
-
E.Segalerba, G. Dini Ciacci, M.Quadrio & J.O.Pralits, 2023.
On the comparison between pre- and post-surgery nasal anatomies via computational fluid dynamics
- Biomechanics and Modelling in Mechanobiology 23, pp.305–314
Arxiv physics.flu-dyn/2308.10701
and
BioRrxiv https://doi.org/10.1101/2023.08.21.554118
-
D.Massaro, F.Martinelli, P.J.Schmid & M.Quadrio, 2023.
Linear stability of Poiseuille flow over a steady spanwise Stokes layer
- Physics Review Fluids, 8 103920, pp.1–23, 2023.
Arxiv physics.flu-dyn/2308.11525
-
D.Selvatici, M.Quadrio & A.Chiarini, 2023.
Curvature effects on the structure of near-wall turbulence
- Journal of Fluid Mechanics, 972, A39, pp.1–28, 2023.
Arxiv physics.flu-dyn/2308.09039
-
G.Foggi Rota, A.Monti, M.E.Rosti & M.Quadrio, 2023.
On-off pumping for drag reduction in a turbulent channel flow
- Journal of Fluid Mechanics, 966, A12, pp.1–12, 2023.
Arxiv physics.flu-dyn/2212.08874
-
F.Gattere, A.Chiarini, E.Gallorini & M.Quadrio, 2023.
Structure function tensor equations with triple decomposition
- Journal of Fluid Mechanics, 960, A7, pp.1–42, 2023.
Arxiv physics.flu-dyn/2302.09305
-
V.Garcia Bennett, M.Alberti, M.Quadrio & J.O.Pralits, 2023.
Optimization of patient positioning for improved healing after corneal transplantation
- J. Biomechanics, 150, 111510, pp.1–9, 2023.
-
G.Foggi Rota, A.Monti, M.E.Rosti & M.Quadrio, 2023.
Saving Energy in Turbulent Flows with Unsteady Pumping
- Nature Sci.Rep. 13:1299, pp.1–6
Arxiv physics.flu-dyn/2212.08874
-
E.Gallorini, M.Quadrio & D.Gatti, 2022.
Coherent near-wall structures and drag reduction by spanwise forcing
- Physical Review Fluids 7 114602, pp.1–19, 2022.
Arxiv physics.flu-dyn/2208.09955v1
-
A.Chiarini, M.Quadrio & F.Auteri, 2022.
An almost subharmonic instability in the flow past rectangular cylinders
- Journal of Fluid Mechanics, 950, A20, pp.1–25, 2022.
-
A.Chiarini, D.Gatti, A.Cimarelli & M.Quadrio, 2022.
Structure of turbulence in the flow around a rectangular cylinder
- Journal of Fluid Mechanics, 946, A35, pp.1–35, 2022.
Arxiv physics.flu-dyn/2207.05799v1
-
F.Gattere, A.Chiarini & M.Quadrio, 2022.
Dimples for skin-friction drag reduction: status and perspectives
- Fluids 7 n.7, 240 Special Issue on Drag Reduction in Turbulent Flows
Arxiv physics.flu-dyn/2207.04446v1
-
P.Luchini & M.Quadrio, 2022.
Wall Turbulence and Turbulent Drag Reduction
- In: Rega, G. (eds) 50+ Years of AIMETA. Springer, Cham. https://doi.org/10.1007/978-3-030-94195-6_22
-
L.Cacciatori, C.Brignoli, B.Mele, F.Gattere, C.M.Monti & M.Quadrio, 2022.
Drag Reduction by Riblets on a Commercial UAV
- Applied Science, Energy Science and Technology 12 n.10, Special Issue on Flow Control, Active and Passive Applications
-
M.Quadrio, A.Chiarini, J.Banchetti, D.Gatti, A.Memmolo & S.Pirozzoli, 2022.
Drag reduction on a transonic airfoil
- Journal of Fluid Mechanics, 942, R2, 2022.
Arxiv physics.flu-dyn/2204.12172v1
-
A. Schillaci & M. Quadrio, 2022.
Importance of the numerical schemes in the CFD of the human nose
- J. Biomechanics, 138, 111100, pp.1–9, 2022.
-
A.Chiarini, M.Quadrio & F.Auteri, 2022.
A new scaling for the steady flow past two-dimensional bluff bodies
- Journal of Fluid Mechanics 936 R2, pp.1–11, 2022.
-
A.Chiarini, M.Quadrio & F.Auteri, 2022.
On the frequency selection mechanism of the low-Re flow around rectangular cylinders
- Journal of Fluid Mechanics 933, A44 pp.1–25, 2022.
-
A.Chiarini & M.Quadrio, 2022.
The importance of corner sharpness in the BARC test case: A numerical study
- Wind and Structures, an International Journal 34 n.1, pp.43–58
Arxiv physics.flu-dyn/2109.03522v1
-
A.Chiarini, M.Mauriello, D.Gatti & M.Quadrio, 2021.
Ascending-descending and direct-inverse cascades of Reynolds stresses in turbulent Couette flow
- Journal of Fluid Mechanics 930, A9 pp.1–22, 2021.
Arxiv physics.flu-dyn/2109.03522v1
-
A.Chiarini, M.Quadrio & F.Auteri, 2021.
Linear stability of the steady flow past rectangular cylinders
- Journal of Fluid Mechanics 929, A36 pp.1–30, 2021.
-
A.Andreolli, M.Quadrio & D.Gatti, 2021.
Global energy budgets in turbulent Couette and Poiseuille flows
- Journal of Fluid Mechanics, 924, A25 pp.1–20, 2021.
Arxiv physics.flu-dyn/2106.14495v1
-
X.Q.Cheng, Z.X.Qiao, X.Zhang, M.Quadrio & Y.Zhou, 2021.
Skin-friction reduction using periodic blowing through streamwise slits
- Journal of Fluid Mechanics, 920, A50 pp.1–33, 2021.
-
A.Chiarini & M.Quadrio, 2021.
The turbulent flow over the BARC rectangular cylinder: a DNS study
- Flow Turbulence and Combustion, 107, pp.875–899, 2021. 0.1007/s10494-021-00254-1
Arxiv physics.flu-dyn/2105.00910v1
-
C.Pipolo, A.M.Bulfamante, A.Schillaci, J.Banchetti, L.Castellani, A.M.Saibene,
G.Felisati & M.Quadrio, 2021.
Through The Back Door: Expiratory Accumulation of SARS-Cov-2 in the Olfactory Mucosa as Mechanism for CNS Penetration
- International Journal of Medical Sciences, 18, pp.2102–2018, 2021.
MedRxiv doi:10.1101/2020.12.09.20242396
-
A.Chiarini, M.Quadrio & F.Auteri, 2021.
A direction-splitting Navier–Stokes solver on co-located grids
- Journal of Computational Physics, 429, 110023, pp.1–20, 2021.
-
A.Chiarini & M.Quadrio, 2021.
The light/dark cycle of microalgae in a thin-layer photobioreactor
- Journal of Applied Phycology, 33, pp.183–195, 2021.
-
D.Gatti, A.Chiarini, A.Cimarelli & M.Quadrio, 2020.
Structure function tensor equations in inhomogeneous turbulence
- Journal of Fluid Mechanics, 898, A5, pp.1–33, 2020.
ArXiv physics.flu-dyn/2005.07438v1
-
J.Banchetti, P.Luchini & M.Quadrio, 2020.
Turbulent drag reduction over curved walls
- Journal of Fluid Mechanics, 896, A10 pp.1–23, 2020.
ArXiv physics.flu-dyn/2004.12086v1
-
A.Saibene, G.Felisati, C.Pipolo, A.Bulfamante, M.Quadrio & V.Covello, 2020.
Partial preservation of the inferior turbinate in endoscopic medial maxillectomy:
a computational fluid dynamics study
- American Journal of Rhinology & Allergy, 34 n.3, pp.409–416, 2020.
-
M.Lui, S.Martino, M.Salerno & M.Quadrio, 2020.
On the turbulence modeling of blood flow in a stenotic vessel
- J. Biomechanical Eng., 142 n.1, 001009-11, 2020.
-
D. Gatti, A. Remigi, A. Chiarini, A. Cimarelli & M. Quadrio, 2019.
An efficient numerical method for the Generalized Kolmogorov Equation
- J. of Turbulence, 20 n.8, pp.457–480, 2019.
ArXiv physics.flu-dyn/1910.06409v1
-
E.Buijs, V.Covello, C.Pipolo, A.Saibene, G.Felisati & M.Quadrio, 2019.
Thermal water delivery in the nose: an assessment of droplet deposition through computational fluid dynamics
- Acta Othorinolaringologica Italica, Epub 2019 Jan 31. https://doi.org/10.14639/0392-100X-225 pp.1–8, 2019.
-
D.Gatti, A. Cimarelli, Y. Hasegawa, B. Frohnapfel & M.Quadrio, 2018.
Global energy fluxes in fully-developed turbulent channels with flow control
- J. Fluid Mech. , 857, pp.345–373, 2018.
ArXiv physics.flu-dyn/1809.00730v1
-
V.Covello, C.Pipolo, A.Saibene, G.Felisati & M.Quadrio, 2018.
Numerical simulation of thermal water delivery in the human nasal cavity
- Computers in Biology and Medicine, 100, pp.62–73, 2018.
-
M.Quadrio & K.-S. Choi, 2018.
Preface to the Theme Issue on Drag Reduction and Flow Control
- Flow, Turbulence and Combustion, 100, pp.875–876, 2018.
-
E.Mori, M.Quadrio & K.Fukagata, 2017.
Turbulent Drag Reduction by Uniform Blowing Over a Two-dimensional Roughness
- Flow, Turbulence and Combustion, 99, pp.765–785, 2017.
-
F.Cozzi, G.Felisati & M.Quadrio, 2017.
Velocity measurements in nasal cavities by means of stereoscopic PIV – Preliminary tests
- Journal of Physics: Conf. Series 1234567890 882 012010, 2017.
-
G.Coleman, S.Pirozzoli, M.Quadrio & P.Spalart, 2017.
Direct Numerical Simulation and Theory of a Wall-Bounded Flow with Zero Skin Friction
- Flow, Turbulence and Combustion, 99, pp.553–564, 2017.
-
C.Vergara, D.Le Van, M.Quadrio, L.Formaggia & M.Domanin, 2017.
Large Eddy Simulations of blood dynamics in abdominal aortic aneurysms
- Medical Engineering & Physics, 47, pp.38–46, 2017. MOX report 54/2016
-
D.Gatti & M.Quadrio, 2016.
Reynolds-number dependence of skin-friction drag reduction induced by spanwise forcing
- J. Fluid Mech. , 802, pp.553–582, 2016.
ArXiv physics.flu-dyn/1512.08118v2
-
L.Palma, R.Pieri, R.Ponzini & M.Quadrio, 2016.
Ottimizzazione di forma e codici CFD RANS: una strategia adjoint-based per applicazioni automobilistiche
- Analisi e Calcolo 74, ISSN 1228-3874, May-June, 2016
-
M.Quadrio, B.Frohnapfel & Y.Hasegawa, 2016.
Does the choice of the forcing term affect flow statistics in DNS of turbulent channel flow?
- European Journal of Mechanics B / Fluids, 55, pp.286–293, 2016. http://dx.doi.org/10.1016/j.euromechflu.2015
ArXiv physics.flu-dyn/1509.04877
-
M.Quadrio, C.Pipolo, S.Corti, F.Messina, C.Pesci, A.M.Saibene, S.Zampini, G.Felisati, 2016.
Effects of CT resolution and radiodensity threshold on the CFD evaluation of nasal airflow.
- Medical and Biological Eng. and Computing, 54, pp.411–419, 2016.
-
M.Rosti, L.Cortelezzi & M.Quadrio, 2015.
Direct numerical simulation of turbulent channel flow over porous walls
- J. Fluid Mech. , 784, pp.396–442, 2015.
ArXiv physics.flu-dyn/1410.7235
-
M.Zhang, F.Martinelli, J.Wu, P.Schmid & M.Quadrio, 2015.
Modal and nonmodal stability analysis of electrohydrodynamic flow with and without cross-flow.
- J. Fluid Mech. , 770, pp.319–349, 2015.
ArXiv physics.flu-dyn/1504.00561
-
E.Borlandelli, D.Scarselli, A.Nespoli, D.Rigamonti, P.Bettini, M.Morandini, E. Villa, G. Sala, & M. Quadrio, 2015.
Design and experimental characterization of a NiTi-based, high-frequency, centripetal peristaltic actuator
- Smart Mater. Struct., 24, No.3, 035008, 2015.
-
Y.Hasegawa, B.Frohnapfel & M.Quadrio, 2014.
Money versus Time: Evaluation of Control Performance based on Convenience and Energy Consumption
- Seisankenkyu, 66, No.1, pp.39–42, 2014.
-
Y.Hasegawa, M.Quadrio & B.Frohnapfel, 2014.
Numerical simulation of turbulent duct flows with constant power input.
- J. Fluid Mech. , 750, pp.191–209, 2014.
ArXiv physics.flu-dyn/1212.6052
-
M.Quadrio, C.Pipolo, S.Corti, R.Lenzi,
F.Messina, C.Pesci & G.Felisati, 2014.
Review of Computational Fluid Dynamics in the assessment of nasal air flow and Analysis of its Limitations.
- European Archives of Oto-Rhino-Laryngology and Head & Neck, DOI 10.1007/s00405-013-2742-3, September 2014, 271, n.9, pp 2349-2354
-
D.Gatti & M.Quadrio, 2013.
Performance losses of drag-reducing spanwise forcing
at moderate values of the Reynolds number.
- Phys. Fluids, 25, 125109/17, 2013.
ArXiv physics.flu-dyn/1212.6052
-
A.Cimarelli, B.Frohnapfel, Y.Hasegawa, E.De Angelis & M.Quadrio, 2013.
Prediction of turbulence control for arbitrary periodic spanwise wall movement.
- Phys. Fluids, 25, 075102/11, 2013.
ArXiv physics.flu-dyn/1306.4541
-
M.Belan & M.Quadrio, 2013.
A perturbative model for predicting the high-Reynolds-number behaviour of the streamwise travelling waves technique in turbulent drag reduction.
- ZAMM, 93 N. 12, pp.944–962, 2013
ArXiv physics.flu-dyn/1301.5180
-
M.Bernardini, S.Pirozzoli, M.Quadrio & P.Orlandi, 2013.
Turbulent channel flow simulations in convecting reference frames.
- J. Comp. Phys., 232, pp.1–6, 2013.
-
P.Ricco, C. Ottonelli, Y.Hasegawa & M.Quadrio, 2012.
Changes in turbulent dissipation in a channel flow with oscillating walls.
- J. Fluid Mech. , 700, pp.77–104, 2012.
ArXiv physics.flu-dyn/1202.3534
-
B.Frohnapfel, Y.Hasegawa & M.Quadrio, 2012.
Money versus time: evaluation of flow control in terms of energy consumption and convenience.
- J. Fluid Mech. , 700, pp.406–418, 2012.
ArXiv physics.flu-dyn/1202.6207
-
M.Quadrio, 2011.
Drag reduction in boundary layers by in-plane wall motion.
- Philosophical Transactions of the Royal Society A, 369, 1428–1442, 2011.
-
F. Martinelli, M.Quadrio, J. McKernan & J.F. Whidborne, 2011.
Linear feedback control of transient energy growth and control performance limitations in subcritical plane Poiseuille flow.
- Phys. Fluids 23, 014103/9, 2011.
ArXiv physics.flu-dyn/1101.2629
-
M.Quadrio & P.Ricco, 2011.
The laminar generalized Stokes layer and turbulent drag reduction.
- J. Fluid Mech. 667, pp.135–157, 2011.
ArXiv physics.flu-dyn/1008.3981
-
M.Carini & M.Quadrio, 2010.
The DNS-based measurement of the mean impulse response of homogeneous isotropic turbulence.
- Phys. Rev. E 82, 066301-10, 2010.
ArXiv physics.flu-dyn/1011.2534
-
L. Galantucci, C.F. Barenghi, M. Sciacca, M. Quadrio & P. Luchini, 2010.
Turbulent superfluid profiles in a counterflow channel.
- J. Low Temp. Phys.
ArXiv physics.flu-dyn/1006.3183
-
F. Auteri, A. Baron, M. Belan, G. Campanardi & M. Quadrio, 2010.
Experimental assessment of turbulent drag reduction by traveling waves in a turbulent pipe flow.
- Phys. Fluids 22, 115103/14, 2010.
ArXiv physics.flu-dyn/1008.2584
-
L. Galantucci & M.Quadrio, 2010.
Very fine structures of scalar mixing in wall-bounded turbulence.
- Int. J. Heat Fluid Flow 31, pp.499–506, 2010.
ArXiv physics.flu-dyn/1005.3775
-
C.Viotti, M.Quadrio & P.Luchini, 2009
Streamwise oscillations of spanwise velocity at the wall of a channel for drag reduction.
- Phys. Fluids 21, 115109/9, 2009.
ArXiv physics.flu-dyn/0911.0114
-
M.Quadrio, P.Ricco & C.Viotti, 2009.
Streamwise-traveling waves of spanwise wall velocity in a turbulent channel flow.
- J. Fluid Mech. 627, pp.161–178, 2009.
ArXiv physics.flu-dyn/0901.1026
-
P.Ricco & M.Quadrio, 2008.
Wall-oscillation conditions for drag reduction in turbulent channel flow.
- Int. J. Heat Fluid Flow 29, pp.601–612.
ArXiv physics.flu-dyn/0802.0114
-
D. Pirrò & M.Quadrio, 2008.
Direct numerical simulation of turbulent Taylor–Couette flow.
- European Journal of Mechanics B / Fluids 27, pp.552–566.
ArXiv physics.flu-dyn/0711.1429
-
M.Quadrio, J.M.Floryan & P.Luchini, 2007.
Effects of streamwise-periodic wall transpiration on turbulent
friction drag.
- J. Fluid Mech. 576, pp.425–444, 2007.
-
P.Luchini, M.Quadrio & S.Zuccher, 2006.
The phase-locked mean impulse response of a turbulent channel flow.
- Physics of Fluids, 18, 121702/4, 2006. ArXiv physics/0611195
-
P.Luchini & M.Quadrio, 2006.
A low-cost parallel implementation of direct numerical simulation of
wall turbulence.
- Journal of Computational Physics, 211 n.2, pp.551–571.
ArXiv physics/0506155
-
M.Quadrio, J.M. Floryan & P.Luchini, 2005.
Modification of Turbulent Flow using Distributed Suction.
- Canadian Aeronautics and Space Journal, 51 n. 2, pp.61–69.
-
M.Quadrio & P.Ricco, 2004.
Critical assessment of
turbulent drag reduction through spanwise wall oscillations.
- Journal of Fluid Mechanics, 521, pp.251–271, 2004.
-
M.Quadrio & P.Luchini, 2003.
Integral space-time scales
in turbulent wall flows.
- Physics of Fluids, 15, n.8, pp.2219–2227, 2003.
-
M.Quadrio & P.Ricco, 2003.
Initial response of a turbulent
channel flow to spanwise oscillations of the wall.
- Journal of Turbulence, 4, n. 007, 2003.
-
M.Quadrio & P.Luchini, 2002.
Direct numerical simulation
of the turbulent flow in a pipe with annular cross-section.
- European Journal of Mechanics B / Fluids, 21, pp. 413–427,
2002.
-
M.Quadrio & S.Sibilla, 2000.
Numerical simulation of
turbulent flow in a pipe oscillating around its axis.
- Journal of Fluid Mechanics, 424, pp.217–241, 2000.
-
R.Cucitore, M.Quadrio & A.Baron, 1999.
On the
effectiveness and limitations of local criteria for the
identification of a vortex.
- European Journal of Mechanics B / Fluids, 18 n.2,
pp. 261–282, 1999.
-
A.Baron & M.Quadrio, 1997.
Turbulent boundary layer over
riblets: conditional analysis of ejection-like events.
- The
International Journal of Heat and Fluid Flow, 18 n.2, pp.
188–196, 1997.
-
A.Baron & M.Quadrio, 1997.
On the accuracy of
wall-similarity methods in determining friction velocity over smooth
and ribletted surfaces.
- Transaction of the ASME Journal of
Fluids Engineering, 119, pp. 1009–1011, 1997.
-
A.Baron & M.Quadrio, 1996. Turbulent drag reduction by
spanwise wall oscillation.
- Applied Scientific Research, 55, pp. 311–326, 1996.
-
A.Baron & M.Quadrio, 1994. Direct numerical simulation
of turbulent flows under the Narrow Channel assumption.
- L'Aerotecnica Missili e Spazio, 73 n.1, pp. 3–13, 1994.
-
A.Baron, M.Quadrio & L.Vigevano, 1993.
On the boundary layer/riblets interaction mechanism
and the prediction of the turbulent drag reduction.
- The International Journal of Heat and Fluid Flow, 14 n.4, pp. 324–332, 1993.
-
A.Baron & M.Quadrio, 1993. Some preliminary results on
the influence of riblets on the structure of the turbulent boundary layer.
- The International Journal of Heat and Fluid Flow, 14 n.3, pp.223–230, 1993.
-
A.Baron, M.Quadrio & L.Vigevano, 1989. Riduzione della
resistenza di attrito in correnti turbolente e altezza di
protrusione di correnti scanalate.
- L'Aerotecnica Missili e
Spazio, 68 n.3–4, pp. 129–136, 1989.