Geoscience Reference
In-Depth Information
Gaydon M, Raffel M, Willert C, Rosengarten M, Kompenhans J (1997) Hybrid stereoscopic
particle image velocimetry. Exp Fluids 23:331-334
Grizzi S, Pereira F, De Felice F (2010) A simplified, flow based calibration method for stereo-
scopic PIV. Exp Fluids 48:473-486
Guezennec YG, Kiritsis N (1990) Statistical investigation of errors in particle image velocimetry.
Exp Fluids 10:138-146
Gui L, Merzkirch W (1996) A method for tracking ensembles of particle images. Exp Fluids
21(6):465-468
Gui L, Merzkirch W (1998) Generating arbitrary sized interrogation windows for correlation-
based analysis of particle image velocimetry recordings. Exp Fluids 24:66-69
Hassan YA, Blanchat TK, Seeley CH, Canaan RE (1992) Simultaneous velocity measurements of
both components of a two-phase flow using particle image velocimetry. Int J Multiph Flow
18(3):371-395
Hauet A, Kruger A, Krajewski WF, Bradley A, Muste M, Creutin J, Wilson M (2008) Experimen-
tal system for real-time discharge estimation using an image-based method. J Hydrol Eng
13(2):105-110
Hetsroni G (1989) Particles-turbulence interaction. Int J Multiph Flow 15(5,):735-746
Kim Y, Muste M, Hauet A, Krajewski W, Kruger A, Bradley A (2008) Stream discharge using
mobile large-scale particle image velocimetry: a proof of concept. Water Resour Res 44:
W09502. doi:
0.1029/2006WR005441
,6p
Landreth CC, Adrian RJ, Yao CS (1988) Double pulsed particle image velocimeter with direc-
tional resolution for complex flows. Exp Fluids 6:119-128
Lennon JM, Hill DF (2006) Particle image measurements of undular and hydraulic jumps.
J Hydraul Eng 132(2):1283-1294
Lindken R, Merzkirch W (2002) A novel PIV technique for measurements in multiphase flows and
its application to two-phase bubbly flows. Exp Fluids 33:814-825
Liu Z, Landreth CC, Adrian RJ, Hanratty TJ (1991) High resolution measurement of turbulent
structure in a channel with particle image velocimetry. Exp Fluids 10:301-312
Lloyd PM, Stansby PK, Ball DJ (1995) Unsteady surface-velocity field measurement using
particle tracking velocimetry. J Hydraul Res 33(4):519-533
Manes C, Pokrajac D, McEwan I (2007) Double averaged open-channel flows with small relative
submergence. J Hydraul Eng 133(8):896-904
Melling A (1997) Tracer particles and seeding for particle image velocimetry. Meas Sci Technol
8:1406-1416
Muller G, Bruce T, Kauppert K (2002) Particle image velocimetry: a simple technique for complex
surface flows. Proceedings of River Flow conference, Louvein, pp 1227-1234
Muste M, Fuijta I, Kruger A (1998) Experimental comparison of two laser-based velocimeters for
flows with alluvial sand. Exp Fluids 24:273-284
Muste M, Xiong Z, Schone J, Li Z (2004) Validation and extension of image velocimetry
capabilities for flow diagnostics in hydraulic modeling. J Hydraul Eng 130(3):175-185
Nishino K, Kasagi N, Hirata M (1989) Three-dimensional particle tracking velocimetry based on
automated digital image processing. J Fluids Eng 111:384-391
Okamoto TA, Nezu I (2009) Turbulence structure and “Monami” phenomena in flexible vegetated
open channel flows. J Hydraul Res 47(6):275-280
Perret L, Braud P, Fourment C, David L, Delville J (2006) 3-components acceleration field
measurement by dual-time stereoscopic particle image velocimetry. Exp Fluids 40(5):
813-824
Prasad AK, Adrian RJ (1993) Stereoscopic particle image velocimetry applied to liquid flows. Exp
Fluids 15:49-60
Raffael M, Willert C, Kompenhans J (2007) Particle image velocimetry - practical guide.
Springer, Berlin
Sakakibara J, Wicker R, Eaton J (1996) Measurements of particle-fluid velocity correlation and the
extra dissipation in a round jet. Int J Multiph Flow 22(5):863-881
