A.S. Tijsseling
Courses
Applied Physics
Calculus
Fourier and Laplace Analysis
Linear Algebra
Mathematical Modelling
Numerical Methods
Research
Fluid-structure interaction in liquid-filled pipes
Reviews
Tijsseling
AS (1996), Fluid-structure interaction in liquid-filled pipe systems: a
review,
Journal of Fluids and Structures
10 109-146. Paper.
Wiggert DC and Tijsseling AS
(2001), Fluid transients and fluid-structure interaction in flexible
liquid-filled piping,
ASME
Applied Mechanics Reviews 54 455-481. Paper.
Tijsseling AS (2019), An overview of fluid-structure interaction
experiments in single-elbow pipe systems,
Journal of Zhejiang University-SCIENCE A 20 (4) 233-242. Paper.
Tijsseling
AS (2020), Transients in Fluids and
Structures,
IAHR Hydrolink,
No. 2, pp. 36-37. Article.
Pipe impact test in laboratory apparatus (Dept.
of Civil Engineering, University of Dundee, UK)
Dundee experiments
Tijsseling AS and Vardy AE (2005), Twenty years of FSI experiments in Dundee,
Proc. of the Third M.I.T.
Conference on Computational Fluid and Solid Mechanics (Editor KJ Bathe),
Boston,
USA, June 2005, pp. 1014-1017, ISBN 0-08-044476-8. Paper.
Tijsseling AS and Vardy AE (2005), FSI and transient cavitation tests in a T-piece pipe,
Journal of Fluids and Structures 20 753-762.
Paper.
Leslie-Milbourne DJ, Vardy AE and Tijsseling AS (2004), Transient FSI in a pipe system with elbow and
tee junction,
Proc.
of the 8th Int. Conf. on Flow-Induced Vibration, FIV2004 (Editors E de Langre and F Axisa),
Paris, France,
July 2004, Vol. I, pp. 355-360, ISBN 2-7302-1141-1. Paper.
Tijsseling AS
and Vaugrante P (2001), FSI in L-shaped and T-shaped pipe systems,
Proc. of the 10th Int. Meeting of the
IAHR Work Group on the Behaviour of Hydraulic Machinery under Steady
Oscillatory Conditions
(Editors H Brekke and M Kjeldsen),
Trondheim, Norway, June 2001, Paper C3, pp. 1-11. Paper.
Zhang L,
Tijsseling AS and Vardy AE (1999), FSI
analysis of liquid-filled pipes,
Journal of Sound and Vibration 224(1) 69-99.
Paper.
Vardy AE, Fan D and Tijsseling AS (1996),
Fluid/structure interaction in a T-piece pipe,
Journal of Fluids and Structures 10 763-786.
Paper.
Tijsseling
AS, Vardy AE and Fan D (1996),
Fluid-structure interaction and cavitation in a single-elbow pipe system,
Journal of Fluids and Structures 10 395-420.
Paper.
Tijsseling AS
and Vardy
AE (1996), On the suppression of coupled liquid/pipe vibrations,
Proc. of the 18th IAHR Symp. on
Hydraulic Machinery and Cavitation (Editors E Cabrera, V Espert and F
Martínez),
Valencia, Spain, September 1996, pp.
945-954; Dordrecht, The Netherlands: Kluwer Academic Publishers, ISBN 0‑7923‑4210‑0. Paper.
Tijsseling AS
and Vardy
AE (1996), Axial modelling and testing of a pipe rack,
BHR Group, Proc. of the 7th Int. Conf.
on Pressure Surges and Fluid Transients in Pipelines and Open Channels (Editor
A Boldy),
Harrogate, UK, April 1996, pp.
363-383; London, UK: Mechanical Engineering Publications, ISBN 0-85298-991-1. Paper.
Fan D and Tijsseling A (1992), Fluid-structure interaction with
cavitation in transient pipe flows,
ASME Journal of Fluids Engineering 114
268-274. Paper.
Vardy AE and Fan D (1989), Flexural waves in a closed tube,
BHRA, Proc. of the 6th Int. Conf. on
Pressure Surges (Editor ARD Thorley),
Cambridge, UK, October 1989, pp. 43‑57. Paper.
Vardy AE and Fan D (1986), Water hammer in a closed tube,
BHRA, Proc. of the 5th Int. Conf. on
Pressure Surges (Editor M Papworth),
Hanover, Germany, September 1986, pp.
123‑137. Paper.
Instantaneous valve closure in freely suspended
pipeline (Delft Hydraulics | Deltares, The Netherlands; courtesy AGTJ
Heinsbroek) Paper.
Delft experiment
Tijsseling AS and Heinsbroek AGTJ (1999), The influence of bend motion
on waterhammer pressures and pipe stresses,
Proc. of the 3rd ASME
& JSME Joint Fluids Engineering Conf., Symposium S-290 Water Hammer (Editor
JCP
Liou),
San Francisco, USA, July
1999, ASME ‑ FED, Vol. 248, Paper FEDSM99-6907. Paper.
Heinsbroek AGTJ and Tijsseling AS (1994), The influence of support
rigidity on waterhammer pressures and pipe stresses,
Proc. of the Second Int.
Conf. on Water Pipeline Systems, BHR Group (Editor DS Miller),
Edinburgh, UK, May 1994, pp.
17-30; London, UK: Mechanical Engineering Publications, ISBN 0‑85298‑921‑0. Paper.
Exact solutions
Tijsseling AS (2009), Exact
computation of the axial vibration of two coupled liquid-filled pipes,
Proc.
of the ASME 2009 Pressure Vessels and Piping Division Conf.,
Prague,
Czech Republic, July 2009, Paper PVP2009-77250. Paper.
Tijsseling AS (2003), Exact solution of linear hyperbolic four-equation
systems in axial liquid-pipe
vibration,
Journal of Fluids and Structures 18 179-196.
Paper.
Numerical solutions
Tijsseling AS (1997), Poisson-coupling beat in extended waterhammer
theory,
Proc. of the 4th Int.
Symp. on Fluid-Structure Interactions, Aeroelasticity, Flow-Induced Vibration
and Noise (Editor MP Paďdoussis),
Dallas, USA, November
1997, ASME - AD, Vol. 53-2, pp. 529-532. Paper.
Lavooij CSW and Tijsseling AS (1991), Fluid-structure interaction in
liquid-filled piping systems,
Journal of
Fluids and Structures 5 573‑595. Paper.
Tijsseling AS and Lavooij CSW (1990),
Waterhammer with fluid-structure interaction,
Applied
Scientific Research 47 273‑285. Paper.
Other FSI papers
Keramat
A, Tijsseling AS, Hou Q
and Ahmadi A (2012), Fluid-structure interaction with pipe-wall viscoelasticity
during water hammer,
Journal
of Fluids and Structures 28 434-455. Paper.
Tijsseling AS, Lambert MF, Simpson AR,
Stephens ML, Vítkovský JP and Bergant A. (2008), Skalak’s extended theory of water hammer,
Journal
of Sound and Vibration 310(3)
718-728. Paper.
Tijsseling AS (2007), Water hammer
with fluid-structure interaction in thick-walled pipes,
Computers and Structures 85 844-851. Paper.
Thesis
Tijsseling AS (1993), Fluid-structure interaction in case of waterhammer
with cavitation,
PhD Thesis, Delft
University of Technology, Faculty of Civil Engineering,
Communications on
Hydraulic and Geotechnical Engineering,
Report No. 93-6, ISSN
0169-6548, Delft, The Netherlands. Thesis.
Hard copy
available on request.
Website
Fluid-Structure Interaction in
Liquid-Filled Pipes
Research
Water hammer
Water hammer field tests (Australia)
Hydraulic ram (Austria)
Hydropower station (China)
Surge tower (Australia)
Pipelines (Poland)
History
Hamouda
O and Tijsseling A (2023), Leonhard Euler’s derivation of the water-hammer
equations in 1775.
Proc.
of the 14th Int. Conf. on Pressure Surges (Editor S.E.L. Jones), Eindhoven, The
Netherlands, April 2023,
pp.
127-144, ISBN 978-90-386-5710-3. Paper.
Bergant
A, Kramar J and Tijsseling A (2023), Vladimir Jordan – industrial
water-hammer engineer and researcher.
Proc.
of the 14th Int. Conf. on Pressure Surges (Editor S.E.L. Jones), Eindhoven, The
Netherlands, April 2023,
pp.
59-73, ISBN 978-90-386-5710-3. Paper.
Tijsseling AS and Anderson A (2019), The human pulse: fundamental theory and
laboratory experiment.
In: “Studies on the Interdisciplinary
Legacy of Johannes von Kries” (Editor G Wagner, Goethe University Frankfurt), pp. 17-26,
Harrassowitz
Verlag, Wiesbaden, Germany, ISBN 978-3-447-11258-1. Link.
Urbanowicz K and Tijsseling AS (2015), Work and life of Piotr
Szymański,
BHR Group, Proc. of the
12th Int. Conf. on Pressure Surges, Dublin, Ireland, November 2015, pp.
311-326,
ISBN
9781-85598-151-5-11.5-12. Paper.
Tijsseling AS and Anderson A (2012), A. Isebree Moens and D.J. Korteweg: on the speed of propagation of waves in elastic
tubes,
BHR
Group, Proc. of the 11th Int. Conf. on Pressure Surges (Editor Sandy
Anderson), Lisbon, Portugal, October 2012, pp. 227-245,
ISBN
978-1-85598-133-1. Paper.
Tijsseling AS and Anderson A (2008), Thomas Young's research on fluid transients: 200 years on,
BHR Group, Proc. of the 10th Int.
Conf. on Pressure Surges (Editor S Hunt), Edinburgh, United Kingdom, May 2008,
pp. 21-33,
ISBN 978-1-85598-095-2. Paper + App. B.
Tijsseling
AS and Anderson A (2007), Johannes von Kries and the history of water hammer,
ASCE Journal of Hydraulic Engineering 133 1-8. Paper.
Bergant A, Simpson AR and Tijsseling AS (2006), Water hammer with column separation: A
historical review,
Journal of Fluids and Structures 22 135-171.
Paper.
Water hammer
Vardy AE and Tijsseling
AS (2022), On Boussinesq and Coriolis coefficients and their derivatives in
transient pipe flows,
Applied Mathematical Modelling 111
454-470. Paper.
Tijsseling AS
(2021), Discussion of "Effect of Boundary on Water Hammer Wave Attenuation
and Shape" by Huade Cao, Ioan Nistor, and Magdi Mohareb,
ASCE Journal of Hydraulic
Engineering 147 (10) No. 07021011.
Paper.
Tijsseling AS
and Bergant A (2018), Pumps & valves cause water-hammer in pipe
systems,
Pumps, Valves and Systems 9
(6) 10-18. Paper.
Tijsseling AS
and Vardy AE (2017), Some intriguing aspects of boundary
conditions in water hammer,
Proceedings of the 37th IAHR World
Congress, August 2017, Kuala Lumpur, Malaysia, pp. 5796-5799.
Tijsseling AS and Vardy AE (2015),
What is wave speed?
BHR Group, Proc. of the
12th Int. Conf. on Pressure Surges, Dublin, Ireland, November 2015, pp.
343-360,
ISBN
9781-85598-151-5-11.5-12. Paper.
Tijsseling AS and Bergant A (2012), Exact
computation of waterhammer in a three-reservoir system,
BHR
Group, Proc. of the 11th Int. Conf. on Pressure Surges (Editor Sandy Anderson), Lisbon, Portugal, October 2012, pp. 161-170,
ISBN
978-1-85598-133-1. Paper.
Bergant A, van 't Westende JMC, Koppel T, Gale
J, Hou Q, Pandula Z and
Tijsseling AS (2010),
Water hammer and column
separation due to accidental simultaneous closure of control valves in a large scale two-phase flow experimental test rig,
Proc. of the ASME 2010
Pressure Vessels and Piping Division Conf.,
Bellevue, Washington, USA,
July 2010, Paper PVP2010-26131. Paper.
Bergant A, Tijsseling AS, Vítkovský JP, Covas DIC, Simpson AR and Lambert MF
(2008),
Parameters affecting water-hammer wave
attenuation, shape and timing - Part 1: Mathematical tools, - Part 2: Case studies,
IAHR Journal of Hydraulic Research 46
373-391. Part 1. Part 2.
Tijsseling AS and Bergant A (2007), Meshless
computation of water hammer,
Proc.
of the 2nd IAHR Int. Meeting of the Workgroup on Cavitation and Dynamic
Problems in Hydraulic Machinery and Systems
(Editors R Susan-Resiga, S
Bernad, S Muntean), Timişoara,
Romania, October 2007,
Scientific
Bulletin of the “Politehnica” University of Timişoara, Transactions on Mechanics 52(66) (6) 65-76, ISSN 1224-6077. Paper.
Leslie DJ and Tijsseling AS (1999), Wave speeds and phase velocities in
liquid-filled pipes,
Proc. of the 9th Int.
Meeting of the IAHR Work Group on the Behaviour of Hydraulic Machinery under
Steady Oscillatory Conditions
(Editor L. Půlpitel), Brno, Czech Republic, September 1999, Paper
E1.
Paper.
Tijsseling AS, Kruisbrink ACH and Pereira da Silva A (1999), The
reduction of pressure wavespeeds by internal
rectangular tubes,
Proc. of the 3rd ASME
& JSME Joint Fluids Engineering Conf., Symposium S-290 Water Hammer (Editor
JCP
Liou),
San Francisco, USA, July
1999, ASME ‑ FED, Vol. 248, Paper FEDSM99-6903. Paper.
Verspuy C and
Tijsseling AS (1993), Hydraulic ram analysis,
IAHR Journal of
Hydraulic Research 31 267-278. Paper.
Method of Characteristics (MOC)
Vardy AE and Tijsseling AS
(2020), Method of characteristics for transient, spherical flows,
Applied Mathematical
Modelling 77 810-828. Paper.
Vardy AE and Tijsseling AS
(2015), Method of characteristics: (Why) is it so good?
BHR Group, Proc. of the
12th Int. Conf. on Pressure Surges, Dublin, Ireland, November 2015, pp.
327-341,
ISBN
9781-85598-151-5-11.5-12. Paper.
Leslie DJ
and Tijsseling AS (2000), Travelling discontinuities in waterhammer theory:
attenuation due to friction,
Proc. of the 8th Int. Conf. on
Pressure Surges, BHR Group (Editor A Anderson),
The Hague, The Netherlands, April
2000, pp. 323-335;
Bury St Edmunds, UK: Professional
Engineering Publishing, ISBN 1-86058-250-8.
Paper.
Resonance
Tijsseling AS, Hou Q, Svingen B and Bergant A (2013), Acoustic resonance
experiments in a reservoir - pipeline - orifice system,
Proc.
of the ASME 2013 Pressure Vessels and Piping Division Conf., Paris, France,
July
2013, Paper PVP2013-97534. Paper.
Tijsseling AS, Hou Q, Svingen B and Bergant A (2012), Acoustic resonance in a
reservoir - double pipe - orifice system,
Proc.
of the ASME 2012 Pressure Vessels and Piping Division Conf.,
Toronto,
Canada, July 2012, Paper PVP2012-78085. Paper.
Tijsseling AS, Hou Q, Svingen B and Bergant A (2010), Acoustic resonance in a reservoir
- pipeline - orifice system,
Proc.
of the ASME 2010 Pressure Vessels and Piping Division Conf.,
Bellevue,
Washington, USA, July 2010, Paper PVP2010-25083. Paper.
Research
Oscillating laminar pipe flow
blue line = quasi-steady (no inertia)
red line = unsteady
low frequency - velocity
profile
low intermediate frequency -
velocity profile
high intermediate frequency
- velocity profile
high frequency - velocity
profile
Papers
Tijsseling AS and Vardy AE (2008), Time scales and FSI in oscillatory liquid-filled pipe flow,
BHR Group, Proc. of the 10th Int.
Conf. on Pressure Surges (Editor S Hunt), Edinburgh, United Kingdom, May 2008,
pp. 553-568,
ISBN 978-1-85598-095-2. Paper + App. E.
Tijsseling AS
and Vardy
AE (2004), Time scales and
FSI in unsteady liquid-filled pipe flow,
BHR Group, Proc. of the
9th Int. Conf. on Pressure Surges (Editor SJ Murray), Chester, United Kingdom,
March 2004, pp. 135-150,
ISBN 1-85598-051-7. Paper.
Research
Dancing manhole covers
Manhole cover (Texas) NF van de Meulenhof ©
Papers
Meulenhof NF van
de, Tijsseling AS and Vasconcelos
JG (2022),
Dancing manhole-cover basics,
Proc. of the ASME 2022 Pressure
Vessels and Piping Division Conf., Las Vegas, USA,
Paper PVP2022-84546. Paper.
Tijsseling AS, Vasconcelos JG, Hou Q and Bozkuş Z (2020),
Venting
manhole cover: a nonlinear spring-mass system,
Proc.
of the ASME 2020 Pressure Vessels and Piping Division Conf., Virtual, Online,
Paper
PVP2020-21084. Paper.
Tijsseling AS, Vasconcelos JG, Hou Q and Bozkuş Z (2019),
Dancing
manhole cover: a nonlinear spring-mass system,
Proc.
of the ASME 2019 Pressure Vessels and Piping Division Conf., San Antonio, USA,
Paper
PVP2019-93086. Paper.
Research
Dangerous slug flow; rapid pipe filling and emptying
Slug impact at pipe elbow (Hydromechanics Laboratory, Middle East
Technical University, Turkey; courtesy Zafer
Bozkuş)
Papers
Hou Q, Li S,
Tijsseling AS and Laanearu
J (2020), Discussion of "Rigid Water Column Model for
Simulating the Emptying Process in a Pipeline Using Pressurized Air"
by Oscar
E. Coronado-Hernández, Vicente S. Fuertes-Miquel, Pedro L. Iglesias-Rey, and
Francisco J. Martínez-Solano,
ASCE
Journal of Hydraulic Engineering 146 (3) No. 07020001. Paper.
Tijsseling AS, Hou Q and Bozkuş Z (2019),
Rapid
liquid filling of a pipe with venting entrapped gas: analytical and numerical
solutions,
ASME Journal of
Pressure Vessel Technology 141 No. 041301. Paper.
Korzilius SP,
Tijsseling AS, Bozkuş Z, Anthonissen MJH and Schilders WHA (2017),
Modeling
liquid slugs accelerating in inclined conduits,
ASME Journal of Pressure Vessel Technology 139 No. 061301. Paper.
Tijsseling AS, Hou Q and Bozkuş Z (2016),
Analytical and numerical
solution for a rigid liquid-column moving in a pipe with fluctuating
reservoir-head and venting entrapped-gas,
Proc. of the
ASME 2016 Pressure Vessels and Piping Division Conf., Vancouver, Canada,
July 2016,
Paper
Tijsseling AS, Hou Q, Bozkuş Z and Laanearu J (2016), Improved one-dimensional models for rapid emptying and filling of
pipelines,
ASME Journal of
Pressure Vessel Technology 138
No. 031301. Paper.
Tijsseling AS, Hou Q and Bozkuş Z (2016),
An improved one-dimensional model for liquid slugs travelling in pipelines,
ASME Journal of
Pressure Vessel Technology 138
No. 011301. Paper.
Tijsseling AS, Hou Q and Bozkuş Z (2015), Analytical expressions for liquid-column velocities in
pipelines with entrapped gas,
Proc. of the ASME 2015 Pressure Vessels and Piping Division
Conf., Boston, USA,
July 2015, Paper PVP2015-45184. Paper.
Hou Q, Tijsseling
AS and Bozkuş Z (2014),
Dynamic force on an elbow caused by a traveling liquid slug,
ASME Journal of
Pressure Vessel Technology 136
No. 031302. Paper.
Hou Q, Tijsseling AS, Laanearu J, Annus I,
Koppel T, Bergant A, Vučkovič S, Anderson A and Westende JMC van ’t
(2014),
Experimental
investigation on rapid filling of a large-scale pipeline,
ASCE Journal of
Hydraulic Engineering 140 No.
04014053. Paper.
Laanearu J, Annus I,
Koppel T, Bergant A, Vučkovič S, Hou Q, Tijsseling AS,
Anderson A and Westende JMC van ’t (2012),
Emptying of large-scale pipeline by pressurized air,
ASCE Journal of
Hydraulic Engineering 138
1090-1100. Paper.
Research
Transient and stochastic multi-phase flow
Papers
Klinkenberg AM and Tijsseling AS (2021)
Stochastic mechanistic
modelling of two-phase slug flow forces on bends in horizontal piping,
International Journal
of Multiphase Flow 44, No. 103778. Paper.
Böck R de, Tijsseling AS and Koren B (2019),
A
monotonicity-preserving higher-order accurate finite-volume method for Kapila's
two-fluid flow model,
Computers
and Fluids 193, No. 104272. Paper.
Daude F, Tijsseling AS and Galon P
(2018),
Numerical
investigations of water-hammer with column-separation induced by cavitation
using a one-dimensional finite-volume approach,
Journal of Fluids and Structures 83 91-118. Paper.
Zhou Ling, Wang Huan, Bergant A, Tijsseling AS, Liu
Deyou and Guo Su (2018),
Godunov-type
solutions with discrete gas cavity model for vaporous cavitation in pipelines,
ASCE
Journal of Hydraulic Engineering 144, No. 04018017. Paper.
ten
Eikelder MFP, Daude F, Koren B and
Tijsseling AS (2017),
An
acoustic-convective splitting-based approach for the Kapila two-phase flow
model,
Journal of Computational Physics 331 188-208. Paper.
Research
SPH (Smoothed Particle Hydrodynamics)
Flow in channel with perpendicular side branch
Papers
Dinçer AE, Demir A, Bozkuş Z and Tijsseling AS (2019),
Fully
coupled Smoothed Particle Hydrodynamics - Finite Element Method approach for
fluid-structure interaction problems with large deflection,
ASME
Journal of Fluids Engineering 141 (8), No. 081402.
Paper.
Demir A, Dinçer AE, Bozkuş Z and Tijsseling AS (2019),
Numerical
and experimental investigation of damping in a dam-break problem with
fluid-structure interaction,
Journal
of Zhejiang University-SCIENCE A, 20 (4),
258-271. Paper.
Korzilius SP, Tijsseling AS, Bozkuş Z, Anthonissen MJH and Schilders WHA (2017),
Modeling liquid slugs accelerating in
inclined conduits,
ASME
Journal of Pressure Vessel Technology
139
No. 061301. Paper.
Hou Q, Kruisbrink
ACH, Pearce FR, Tijsseling
AS and Yue T (2014), Smoothed particle hydrodynamics simulations of flow
separation at bends,
Computers and Fluids 90
138-146. Paper.
Hou Q, Zhang LX,
Tijsseling AS and Kruisbrink ACH (2014), SPH simulation of free overfall in
open channels with even and uneven bottom,
Second Int. Conf. on
Advances in Computational Modeling and Simulation, ACMS2013, July 2013,
Kunming, China,
Applied Mechanics and Materials 444-445 889-893. Paper.
Hou
Q, Kruisbrink ACH, Tijsseling AS and Keramat
A (2012), Simulating water hammer with corrective smoothed particle method,
BHR
Group, Proc. of the 11th Int. Conf. on Pressure Surges (Editor Sandy Anderson),
Lisbon, Portugal, October 2012, pp. 171-187,
ISBN 978-1-85598-133-1. Paper.
Theses
Korzilius SP
(2016), Second derivatives, particle collisions and travelling liquid slugs
within smoothed particle hydrodynamics, Eindhoven University of
Technology. Link to
thesis.
Hou Q (2012), Simulating
unsteady conduit flows with Smoothed Particle Hydrodynamics, Eindhoven
University of Technology. Link to
thesis. Hard
copy available on request.
Research
Numerical modelling of pulse-tube refrigerators
Three-stage pulse-tube refrigerator
(TU Eindhoven)
Papers
Etaati MA, Mattheij RMM, Tijsseling AS
and de Waele ATAM (2009), One-dimensional simulation
of a Stirling three-stage pulse-tube refrigerator,
Proc. of the ASME 2009
Heat Transfer Summer Conf., San Francisco, USA, July 2009, Paper HT2009-88087.
Lyulina IA, Mattheij RMM,
Tijsseling AS and de Waele ATAM (2004), Numerical
simulation of pulse-tube refrigerators,
International Journal of Nonlinear
Sciences and Numerical Simulation 5
79-88. Corrigenda: 5 287. Link
to journal.
Theses
Etaati MA (2011), Numerical simulation of a
three-stage Stirling-type pulse-tube refrigerator, Eindhoven University of
Technology. Link to
thesis.
Lyulina I (2005), Numerical simulation of pulse-tube
refrigerators, Eindhoven University of Technology. Link to
thesis.
Dwarsligger