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**KTH Royal Institute of Technology**

*SE-100 44 Stockholm Sweden +46 8 790 60 00*

[1]

S. Yada *et al.*, "Droplet Impact on Surfaces with Asymmetric Microscopic Features," *Langmuir*, vol. 37, no. 36, pp. 10849-10858, 2021.

[2]

C. Brouzet *et al.*, "Effect of Electric Field on the Hydrodynamic Assembly of Polydisperse and Entangled Fibrillar Suspensions," *Langmuir*, vol. 37, no. 27, pp. 8339-8347, 2021.

[3]

J. Bagge *et al.*, "Parabolic velocity profile causes shape-selective drift of inertial ellipsoids," *Journal of Fluid Mechanics*, vol. 926, 2021.

[4]

J. D. Redlinger-Pohn, M. Liverts and F. Lundell, "Parameter regimes and rates of fibre collection on screens of various design," *Separation and Purification Technology*, vol. 259, 2021.

[5]

M. Kvick *et al.*, "Cyclic Expansion/Compression of the Air-Liquid Interface as a Simple Method to Produce Silk Fibers.," *Macromolecular Bioscience*, 2020.

[6]

S. Zade *et al.*, "Finite-size spherical particles in a square duct flow of an elastoviscoplastic fluid : an experimental study," *Journal of Fluid Mechanics*, vol. 883, 2020.

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T. Rosén *et al.*, "Flow fields control nanostructural organization in semiflexible networks," *Soft Matter*, vol. 16, no. 23, pp. 5439-5449, 2020.

[8]

F. P. A. Kutty *et al.*, "Numerical analysis of slot die coating of nanocellulosic materials," *TAPPI Journal*, vol. 19, no. 11, pp. 575-582, 2020.

[9]

M. Leskovec, F. Lundell and F. Innings, "Pipe flow with large particles and their impact on the transition to turbulence," *Physical Review Fluids*, vol. 5, no. 11, 2020.

[10]

S. Zade *et al.*, "Buoyant finite-size particles in turbulent duct flow," *Physical Review Fluids*, no. 4, 2019.

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C. Brouzet *et al.*, "Characterizing the Orientational and Network Dynamics of Polydisperse Nanofibers on the Nanoscale," *Macromolecules*, vol. 52, no. 6, pp. 2286-2295, 2019.

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O. Nechyporchuk *et al.*, "Continuous Assembly of Cellulose Nanofibrils and Nanocrystals into Strong Macrofibers through Microfluidic Spinning," *ADVANCED MATERIALS TECHNOLOGIES*, vol. 4, no. 2, 2019.

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S. Yada *et al.*, "Droplet leaping governs microstructured surface wetting," *Soft Matter*, vol. 15, no. 46, pp. 9528-9536, 2019.

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K. V. Gowda *et al.*, "Effective interfacial tension in flow-focusing of colloidal dispersions : 3-D numerical simulations and experiments," *Journal of Fluid Mechanics*, vol. 876, pp. 1052-1076, 2019.

[15]

S. Zade, F. Lundell and L. Brandt, "Turbulence modulation by finite-size spherical particles in Newtonian and viscoelastic fluids," *International Journal of Multiphase Flow*, vol. 112, pp. 116-129, 2019.

[16]

A. Shahmardi *et al.*, "Turbulent duct flow with polymers," *Journal of Fluid Mechanics*, vol. 859, pp. 1057-1083, 2019.

[17]

S. Zade *et al.*, "Experimental investigation of turbulent suspensions of spherical particles in a squareduct," *Journal of Fluid Mechanics*, vol. 857, pp. 748-783, 2018.

[18]

N. Mittal *et al.*, "Multiscale Control of Nanocellulose Assembly : Transferring Remarkable Nanoscale Fibril Mechanics to Macroscale Fibers," *ACS Nano*, vol. 12, no. 7, pp. 6378-6388, 2018.

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C. Brouzet *et al.*, "Size-Dependent Orientational Dynamics of Brownian Nanorods," *ACS Macro Letters*, vol. 7, no. 8, pp. 1022-1027, 2018.

[20]

T. Rosén *et al.*, "Three-Dimensional Orientation of Nanofibrils in Axially Symmetric Systems Using Small-Angle X-ray Scattering," *The Journal of Physical Chemistry C*, vol. 122, no. 12, pp. 6889-6899, 2018.

[21]

J. MacKenzie *et al.*, "Turbulent stress measurements of fibre suspensions in a straight pipe," *Physics of fluids*, vol. 30, no. 2, 2018.

[22]

A. Kamada *et al.*, "Flow-assisted assembly of nanostructured protein microfibers," *Proceedings of the National Academy of Sciences of the United States of America*, vol. 114, no. 6, pp. 1232-1237, 2017.

[23]

T. Rosén *et al.*, "Orientational dynamics of a triaxial ellipsoid in simple shear flow : Influence of inertia," *Physical review. E*, vol. 96, no. 1, 2017.

[24]

J. MacKenzie *et al.*, "Turbulent stress measurements with phase-contrast magnetic resonance through tilted slices," *Experiments in Fluids*, vol. 58, no. 5, 2017.

[25]

S. Miyauchi *et al.*, "Two-dimensional numerical simulation of the behavior of a circular capsule subject to an inclined centrifugal force near a plate in a fluid," *JOURNAL OF FLUID SCIENCE AND TECHNOLOGY*, vol. 12, no. 2, 2017.

[26]

N. Mittal *et al.*, "Ultrastrong and Bioactive Nanostructured Bio-Based Composites," *ACS Nano*, vol. 11, no. 5, pp. 5148-5159, 2017.

[27]

P. M. Faia *et al.*, "A comparative study of magnetic resonance imaging, electrical impedance tomography and ultrasonic Doppler velocimetry for semi-dilute fibre flow suspension characterisation," *International Journal of Computational Methods and Experimental Measurements*, vol. 4, no. 2, pp. 165-175, 2016.

[28]

J. Meibohm *et al.*, "Angular velocity of a sphere in a simple shear at small Reynolds number," *Physical Review Fluids*, vol. 1, no. 8, 2016.

[29]

K. M. O. Håkansson *et al.*, "Nanofibril Alignment in Flow Focusing : Measurements and Calculations," *Journal of Physical Chemistry B*, vol. 120, no. 27, pp. 6674-6686, 2016.

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T. Rosén *et al.*, "Quantitative analysis of the angular dynamics of a single spheroid in simple shear flow at moderate Reynolds numbers," *Physical Review Fluids*, vol. 1, no. 4, pp. 044201-1-044201-21, 2016.

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R. Silva *et al.*, "Validating dilute settling suspensions numerical data through MRI, UVP and EIT measurements," *Flow Measurement and Instrumentation*, vol. 50, pp. 35-48, 2016.

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T. Rosén *et al.*, "Effect of fluid and particle inertia on the rotation of an oblate spheroidal particle suspended in linear shear flow," *Physical Review E. Statistical, Nonlinear, and Soft Matter Physics*, vol. 91, no. 5, 2015.

[33]

J. Einarsson *et al.*, "Effect of weak fluid inertia upon Jeffery orbits," *Physical Review E. Statistical, Nonlinear, and Soft Matter Physics*, vol. 91, no. 4, 2015.

[34]

M. Kvick *et al.*, "Erratum to : Effect of fibrils on curvature-and rotation-induced hydrodynamic stability," *Acta Mechanica*, vol. 226, no. 4, pp. 1319-1321, 2015.

[35]

N. Brosse *et al.*, "Experimental study of a three-dimensional cylinder–filament system," *Experiments in Fluids*, vol. 56, no. 6, 2015.

[36]

A. Abbasi Hoseini, F. Lundell and H. I. Andersson, "Finite-length effects on dynamical behavior of rod-like particles in wall-bounded turbulent flow," *International Journal of Multiphase Flow*, vol. 76, pp. 13-21, 2015.

[37]

T. Rosen *et al.*, "Numerical analysis of the angular motion of a neutrally buoyant spheroid in shear flow at small Reynolds numbers," *Physical Review E. Statistical, Nonlinear, and Soft Matter Physics*, vol. 92, no. 6, 2015.

[38]

F. Candelier *et al.*, "Role of inertia for the rotation of a nearly spherical particle in a general linear flow," *Physical Review E. Statistical, Nonlinear, and Soft Matter Physics*, vol. 91, no. 5, 2015.

[39]

J. Einarsson *et al.*, "Rotation of a spheroid in a simple shear at small Reynolds number," *Physics of fluids*, vol. 27, no. 6, 2015.

[40]

T. Rosén *et al.*, "The dynamical states of a prolate spheroidal particle suspended in shear flow as a consequence of particle and fluid inertia," *Journal of Fluid Mechanics*, vol. 771, pp. 115-158, 2015.

[41]

T. Rosén, F. Lundell and C. K. Aidun, "Effect of fluid inertia on the dynamics and scaling of neutrally buoyant particles in shear flow," *Journal of Fluid Mechanics*, vol. 738, pp. 563-590, 2014.

[42]

M. M. Hamedi *et al.*, "Highly Conducting, Strong Nanocomposites Based on Nanocellulose-Assisted Aqueous Dispersions of Single-Wall Carbon Nanotubes," *ACS Nano*, vol. 8, no. 3, pp. 2467-2476, 2014.

[43]

K. Håkansson *et al.*, "Hydrodynamic alignment and assembly of nanofibrils resulting in strong cellulose filaments," *Nature Communications*, vol. 5, pp. 4018, 2014.

[44]

F. Zhang *et al.*, "Near-Wall Convection in a Sedimenting Suspension of Fibers," *AIChE Journal*, vol. 60, no. 12, pp. 4253-4265, 2014.

[45]

U. Lacis *et al.*, "Passive appendages generate drift through symmetry breaking," *Nature Communications*, vol. 5, pp. 5310, 2014.

[46]

A. A. Hoseini *et al.*, "Rod-like particles matching algorithm based on SOM neural network in dispersed two-phase flow measurements," *Experiments in Fluids*, vol. 55, no. 4, pp. 1705, 2014.

[47]

M. Kvick *et al.*, "Effect of fibrils on curvature- and rotation-induced hydrodynamic stability," *Acta Mechanica*, vol. 224, no. 10, pp. 2249-2261, 2013.

[48]

K. M. O. Håkansson *et al.*, "Measurement of width and intensity of particle streaks in turbulent flows," *Experiments in Fluids*, vol. 54, no. 6, pp. 1555, 2013.

[49]

F. Zhang, A. A. Dahlkild and F. Lundell, "Non-linear disturbance growth during sedimentation in dilute fibre suspensions," *Journal of Fluid Mechanics*, vol. 719, pp. 268<-294, 2013.

[50]

O. Semeraro, G. Bellani and F. Lundell, "Analysis of time-resolved PIV measurements of a confined turbulent jet using POD and Koopman modes," *Experiments in Fluids*, vol. 53, no. 5, pp. 1203-1220, 2012.

[51]

O. Tammisola, F. Lundell and L. D. Söderberg, "Surface tension-induced global instability of planar jets and wakes," *Journal of Fluid Mechanics*, vol. 713, pp. 632-658, 2012.

[52]

O. Tammisola, F. Lundell and L. D. Söderberg, "Effect of surface tension on global modes of confined wake flows," *Physics of fluids*, vol. 23, no. 1, pp. 014108, 2011.

[53]

A. Carlsson *et al.*, "Evaluation of steerable filter for detection of fibres in flowing suspensions," *Experiments in Fluids*, vol. 51, no. 4, pp. 987-996, 2011.

[54]

F. Lundell, L. D. Söderberg and P. H. Alfredsson, "Fluid Mechanics of Papermaking," *Annual Review of Fluid Mechanics*, vol. 43, pp. 195-217, 2011.

[55]

O. Tammisola *et al.*, "Global linear and nonlinear stability of viscous confined plane wakes with co-flow," *Journal of Fluid Mechanics*, vol. 675, pp. 397-434, 2011.

[56]

O. Tammisola *et al.*, "Stabilizing effect of surrounding gas flow on a plane liquid sheet," *Journal of Fluid Mechanics*, vol. 672, pp. 5-32, 2011.

[57]

F. Lundell, "The effect of particle inertia on triaxial ellipsoids in creeping shear : From drift toward chaos to a single periodic solution," *Physics of fluids*, vol. 23, no. 1, pp. 011704, 2011.

[58]

M. Juniper, O. Tammisola and F. Lundell, "The local and global stability of confined planar wakes at intermediate Reynolds number," *Journal of Fluid Mechanics*, vol. 686, pp. 218-238, 2011.

[59]

A. Monokrousos, F. Lundell and L. Brandt, "Feedback Control of Boundary-Layer Bypass Transition : Comparison of Simulations with Experiments," *AIAA Journal*, vol. 48, no. 8, pp. 1848-1851, 2010.

[60]

A. Carlsson, D. Söderberg and F. Lundell, "Fibre orientation measurements near a headbox wall," *Nordic Pulp & Paper Research Journal*, vol. 25, no. 2, pp. 204-212, 2010.

[61]

F. Lundell and A. Carlsson, "Heavy ellipsoids in creeping shear flow : Transitions of the particle rotation rate and orbit shape," *Physical Review E - Statistical, Nonlinear, and Soft Matter Physics*, vol. 81, no. 1, pp. 016323-1-016323-8, 2010.

[62]

O. Tammisola *et al.*, "Spin coating of Blu-Ray disks : modeling, experiments, limitations, and manipulation," *JCT Research*, vol. 7, no. 3, pp. 315-323, 2010.

[63]

A. Carlsson, F. Lundell and D. Söderberg, "Fibre orientation control related to papermaking," *Journal of Fluids Engineering - Trancactions of The ASME*, vol. 129, no. 4, pp. 457-465, 2007.

[64]

F. Lundell, "Reactive control of transition induced by free-stream turbulence : an experimental demonstration," *Journal of Fluid Mechanics*, vol. 585, pp. 41-71, 2007.

[65]

K. M. Oseen-Senda *et al.*, "The cooling of PEFC with pentane boiling in minichannels : A study of flow instabilities using neutron radiography visualization," *Heat Transfer Engineering*, vol. 28, no. 1, pp. 49-57, 2007.

[66]

F. Lundell, "Streak oscillations of finite length : Disturbance evolution and growth," *Physics of fluids*, vol. 16, no. 8, pp. 3227-3230, 2004.

[67]

F. Lundell and H. Alfredsson, "Streamwise scaling of streaks in laminar boundary layers subjected to free-stream turbulence," *Physics of fluids*, vol. 16, no. 5, pp. 1814-1817, 2004.

[68]

F. Lundell and H. Alfredsson, "Experiments on control of streamwise streaks," *European journal of mechanics. B, Fluids*, vol. 22, no. 3, pp. 279-290, 2003.

[69]

F. Lundell, "Pulse-width modulated blowing/suction as a flow control actuator," *Experiments in Fluids*, vol. 35, no. 5, pp. 502-504, 2003.

[70]

A. Inasawa *et al.*, "Velocity statistics and flow structures observed in bypass transition using stereo PTV," *Experiments in Fluids*, vol. 34, no. 2, pp. 242-252, 2003.

[71]

J. MacKenzie *et al.*, "Turbulent stress measurements of fiber suspensions in a straight pipe with MRV," in *Paper Conference and Trade Show, PaperCon 2016*, 2016, pp. 1024-1031.

[72]

M. Kvick *et al.*, "Effect of fibres on hydrodynami stability in a curved rotating channel," in *ICMF2013*, 2013, p. 674.

[73]

A. A. Hoseini *et al.*, "Fiber tracking algorithm in combined PIV/PTV measurement of fiber suspension flow," in *Proceedings of the International Conference on Numerical Analysis and Applied Mathematics 2013 (ICNAAM-2013)*, 2013, pp. 1099-1102.

[74]

[75]

M. Kvick *et al.*, "Fibre streaks in wall turbulent flow," in *7*^{th} Int. Conference on Multiphase Flow, Tampa, Florida, USA, may 30 - June 4, 2010, 2010.

[76]

O. Tammisola *et al.*, "Global stability of a plane liquid jet surrounded by gas," in *SEVENTH IUTAM SYMPOSIUM ON LAMINAR-TURBULENT TRANSITION*, 2010, pp. 403-408.

[77]

L. Prahl Wittberg, J. Revstedt and F. Lundell, "Hydrodynamic interaction among multiple spherical particles," in *7 Int. Conference on Multiphase Flow, Tampa, Florida, USA, May 30 - June 4, 2010*, 2010.

[78]

K. Imagawa *et al.*, "Measurement-Integrated simulations and Kalman filter applied to a co-flowing jet," in *5th Flow Control Conference*, 2010, p. 2010-4420.

[79]

F. Lundell, A. Monokrousos and L. Brandt, "Feedback control of boundary layer bypass transition : experimental and numerical progress," in *47th AIAA Aerospace Sciences Meeting, Orlando, FL*, 2009.

[80]

C. Ahlberg, F. Lundell and L. D. Soderberg, "SELF-ORGANIZATION OF FIBERS IN A SUSPENSION BETWEEN TWO COUNTER-ROTATING DISCS," in *PROCEEDINGS OF THE ASME FLUIDS ENGINEERING DIVISION SUMMER CONFERENCE, VOL 1, PTS A-C*, 2009, pp. 585-592.

[81]

G. Bellani, F. Lundell and L. D. Söderberg, "Experimental study of the forming process : Fluid velocity and fluid-fiber interaction measurements," in *Paper Conference and Trade Show, PaperCon '08; Dallas, TX; United States; 4 May 2008 through 7 May 2008*, 2008, pp. 1145-1176.

[82]

A. Carlsson, L. D. Söderberg and F. Lundell, "Fibre orientation in the boundary layers of a planar converging channel," in *TAPPI Press - Paper Conference and Trade Show, PaperCon '08*, 2008, pp. 384-408.

[83]

A. Carlsson, F. Lundell and L. D. Söderberg, "Orientation of slowly sedimenting fibers in a flowing suspensionnear a plane wall," in *Svenska Mekanikdagarna*, 2007.

[84]

K. M. Oseen-Senda *et al.*, "Cooling of PEMFC with pentane boiling in minichannels : A study of flow instabilities using neutron radiography visualization," in *16th World Hydrogen Energy Conference 2006*, 2006, pp. 2885-2894.

[85]

A. Carlsson, D. Söderberg and F. Lundell, "Fibre Orientation Control Related To Papermaking," in *PROCEEDINGS OF THE ASME FLUIDS ENGINEERING DIVISION SUMMER CONFERENCE, VOL 1, PTS A AND B*, 2006, pp. 1501-1509.

[86]

A. Carlsson, F. Lundell and D. Söderberg, "The wall effect on the orientation of fibres in a shear flow," in *ANNUAL TRANSACTIONS OF THE NORDIC RHEOLOGY SOCIETY*, 2006.

[87]

F. Lundell *et al.*, "THE EFFECT OF FIBRES ON LAMINAR-TURBULENT TRANSITION AND SCALES IN TURBULENT DECAY," in *ADVANCES IN PAPER SCIENCE AND TECHNOLOGY : TRANSACTIONS OF THE 13TH FUNDAMENTAL RESEARCH SYMPOSIUM, VOLS 1-3*, 2005, pp. 19-34.

[88]

D. Söderberg *et al.*, "Bioactive composites of cellulose nanofibrils and recombinant silk proteins," *Abstracts of Papers of the American Chemical Society*, vol. 257, 2019.

[89]

K. Vijayakumar, D. Söderberg and F. Lundell, "Orientation and alignment of cellulose nanofibrils in shear and extensional flows," *Abstracts of Papers of the American Chemical Society*, vol. 257, 2019.

[90]

N. Mittal *et al.*, "Flow-assisted organization of nanostructured bio-based materials," *Abstracts of Papers of the American Chemical Society*, vol. 255, 2018.

[91]

N. Mittal *et al.*, "Effect of cellulose nanofibril morphology on the strength and stiffness of macroscopic filaments," *Abstracts of Papers of the American Chemical Society*, vol. 253, 2017.

[92]

A. Kamada *et al.*, "Assembly mechanism of nanostructured whey protein filaments," *Abstracts of Papers of the American Chemical Society*, vol. 252, 2016.

[93]

F. Zhang *et al.*, "Numerical simulations of the sedimentationin dilute fibre suspensions," in *icmf2013*, 2013.

[94]

F. Lundell, "Experimental studies of bypass transition and its control," Doctoral thesis Stockholm : KTH, Trita-MEK, 03:03, 2003.

[95]

F. Lundell, "Streak breakdown and transition control in wall-bounded flows," Licentiate thesis Stockholm : KTH, Trita-MEK, 00:06, 2000.

[96]

O. Semeraro, G. Bellani and F. Lundell, "Analysis of time-resolved PIV measurements of a confined co-flowing jet using POD and Koopman modes," , 2011.

[97]

[98]

G. Bellani *et al.*, "Measurement-Integrated simulations and Kalman filter applied to a turbulent co-flowing jet," KTH Royal Institute of Technology, 2010.

[99]

G. Bellani, F. Lundell and L. D. Söderberg, "Experimental study of filtration of fiber suspensions : Part I: fluid velocity and fluid-fiber interactionmeasurements," , 2008.

[100]

[101]

M. Fällman *et al.*, "A critical evaluation of ultrasound velocity profiling aiming towards measurements in fibre suspensions," (Manuscript).

[102]

K. Håkansson *et al.*, "Alignment of cellulose nanofibrils in a flow focusing device : mea-surements and calculations of flow and orientation," (Manuscript).

[103]

C. Brouzet *et al.*, "Characterizing the Orientational and Network Dynamics of Polydisperse Nanofibers at the Nanoscale.," (Manuscript).

[104]

K. Håkansson *et al.*, "Continuous assembly of aligned nanofibrils into a micro filament," (Manuscript).

[105]

[106]

M. Kvick *et al.*, "Effects of nano-fibrillated cellulose on curvature- and rotation-induced instabilities in channel flow," (Manuscript).

[107]

F. Zhang, F. Lundell and A. A. Dahlkild, "Effects of walls and perturbations on the sedimentation in fibre suspensions," (Manuscript).

[108]

T. Rosén *et al.*, "Evaluating alignment of elongated particles in cylindrical flows through small angle scattering experiments," (Manuscript).

[109]

A. Carlsson, F. Lundell and L. D. Söderberg, "Evaluation of a steerable filter for detection of fibres in flowing suspensions," (Manuscript).

[110]

A. Carlsson, F. Lundell and D. Söderberg, "Evaluation of steerable filters for detection of rod-like particles in flowing suspensions," (Manuscript).

[111]

F. Zhang, A. A. Dahlkild and F. Lundell, "Evolution of streamers in sedimentation of fibre suspensions bounded by vertical walls," (Manuscript).

[112]

M. Kvick *et al.*, "Fibre orientation and fibre streaks in turbulent wall bounded flow," (Manuscript).

[113]

M. Kvick *et al.*, "Fibre suspension flow in a plane channel : transition delay by cellolose nanofibrils," (Manuscript).

[114]

S. Zade *et al.*, "Finite-size spherical particles in a square duct flow of an elastoviscoplastic fluid: an experimental study," (Manuscript).

[115]

O. Tammisola, F. Lundell and D. Söderberg, "Global linear stability of confined wakes with co-flow," (Manuscript).

[116]

T. Rosén *et al.*, "Measuring rotary diffusion of dispersed cellulose nanofibrils using Polarized Optical Microscopy," (Manuscript).

[117]

[118]

F. Zhang, F. Lundell and A. A. Dahlkild, "Nonlinear interactions of multiple modes and spectral analysis of a suspension of settling fibres," (Manuscript).

[119]

[120]

O. Tammisola, F. Lundell and D. Söderberg, "On the global stability of a plane liquid jet surrounded by gas : problem formulation and preliminary results," (Manuscript).

[121]

A. Carlsson, F. Lundell and D. Söderberg, "Orientation of fibres in a flowing suspension near a plane wall," (Manuscript).

[122]

[123]

T. Rosén *et al.*, "Orientational dynamics of a tri-axial ellipsoid in simple shear flow: influence of inertia," (Manuscript).

[124]

M. Kvick, F. Lundell and D. Söderberg, "Producing film from cellulose nanofibrils using a flow focusing device," (Manuscript).

[125]

Z. Moradi Nour *et al.*, "Simulation of spherical particles with outflow from the surface in simple shear flow," (Manuscript).

[126]

O. Tammisola *et al.*, "Stabilisation of a plane liquid sheet by gas flow: experiments and theory," (Manuscript).

[127]

[128]

F. Lundell, A. Inasawa and S. Kikuchi, "Streak control by a surface-mounted piezo-ceramic flap," (Manuscript).

[129]

[130]

O. Tammisola, F. Lundell and D. Söderberg, "Surface tension induced global destabilization of plane jets and wakes," (Manuscript).

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2021-10-24 03:22:37

**KTH Royal Institute of Technology**

*SE-100 44 Stockholm Sweden +46 8 790 60 00*