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V. Tesar, 2008. Valve-less rectification pumps. In: Dongqing, L. (Ed.), Encyclopedia of Microfluidics and Nanofluidics. Springer Science + Business Media, p. 2132, ISBN: 978-0-387-48998-8.
A. I. Hickerson, D. Rinderknecht, and M. Gharib, Experimental study of the behavior of a valveless impedance pump, Exp. Fluids 38, 534 (2005).
CrossRef
G. Manopoulos, D. S. Mathioulakis, and S. G. Tsangaris, One dimensional model of valveless pumping in a closed loop and a numerical solution, Phys. Fluids 18, 017106, 2006.
CrossRef
A. I. Hickerson, D. Rinderknecht, and M. Gharib, A valveless micro impedance pump driven by electromagnetic actuation, J. Micromech. Microeng. 15, 861, 2006.
CrossRef
E. Stemme, G. Stemme, A valve-less diffuser/nozzle-based pump, Sensors and Actuators A, 39, 1993:159–167.
CrossRef
T. Gerlach, M. Schuenemann, and H. Wurmus, A new micropump principle of the reciprocating type using pyramidic micro flow channels as passive valves, J. Micromech. Microeng. 5(2), 1995:199–201.
CrossRef
A. Olsson, G. Stemme, and E. Stemme, Numerical and experimental studies of flat-walled diffuser elements for valve-less micropumps, Sensors and Actuators A, 84, 2000:165–175.
CrossRef
A. Olsson, G. Stemme, and E. Stemme, A Valve-Less Planar Pump In Silicon, The 8th International Conference on Solid-State Sensors and Actuators, and Eurosensors IX. Stockholm, Sweden, June 25–29, 1995.
A. Olsson, G. Stemme and E. Stemme, The first valve-less diffuser gas pump, 1997 IEEE 10th International Workshop on Micro Electro Mechanical Systems (MEMS’97), 1997.
M. Nabavi, K. Siddiqui, and J. Dargahi, Analysis of the flow structure inside the valveless standing wave pump, Physics of Fluids, 20, 2008:126101.
CrossRef
M. Nabavi and L. Mongeau, Numerical analysis of high frequency pulsating flows through a diffuser-nozzle element in valveless acoustic micropumps, Microfluid Nanofluid, 7, 2009:669–681.
CrossRef
H. Mandorian, Standing wave pump, U.S. Patent No. 3743446 (3 July 1973).
R. Bishop, Standing wave pump, U.S. Patent No. 6079214 (27 June 2000).
T. Lucas, Standing wave compressor, U.S. Patent No. 5020977 (4 June 1991).
R. A Saenger, and G. E. Hudson, Periodic Shock waves in resonating gas columns, J. Acoust. Soc. Am. Vol 32, No 8, 1960, pp. 961–970.
CrossRef
T. Lucas, T.W. Van Doren, Resonant macrosonic synthesis, U.S. Patent No. 5892293 (April 6, 1999).
C. C. Lawrenson, B. Lipkens, T. S. Lucas, D. K. Perkins, and T.W.Van Doren, Measurement of macrosonic standing wave in oscillating closed cavities, J. Acoust. Soc. Am. 104, 623–636 (1998).
CrossRef
E. V. Yastrebova, Fluid diodes (review), Automatika i Telemechanika, 3, 1971:101–106 (in Russian).
G. H. Priestman, and J.R. Tippetts, Factors affecting the application of vortex diodes and throttles, Proceedings of the Symposium Fluid Control and Measurement (FLUCOME), Pergamon Press, Oxford, 1985:241–246.
N. Tesla, Valvular conduit, US Patent No. 1,329,559 (1920).
F. K. Forster, R.L. Bardell, M.A. Afromowitz, N.R. Sharma, and A. Blanchard, Design, fabrication and testing of fixed-valve micro-pumps, Proceedings of the ASME Fluids Engineering Division ASME, vol. 234, IMECE, 1995:39–44.
V.Tesar, Pump for extremely dangerous liquids, Chem. Eng. Res. Des, Volume 89, 8 December 2011, Pages 940–956.
CrossRef
V.Tesar, Development of a no-moving-part blower for difficult operating conditions, Chem. Eng. Res. Des, Volume 91, Issue 12, December 2013, Pages 2401–2411.
CrossRef
Y. C. Wang, J. C. Hsu, P. C. Kuo, and Y. C. Lee, Loss characteristics and flow rectification property of diffuser valves for micropump applications, International Journal of Heat and Mass Transfer, 52 (2009), 328–336.
CrossRef
V. Singhal, S. V. Garimella, and J. Y. Murthy, Low Reynolds number flow through nozzle-diffuser elements in valveless micropumps,Sensors and Actuators A, 113, 2004: 226–235.
CrossRef
C. C. Hsu, Y.T. Chen, M. C. Chang, and S. W.Kang, Numerical Studies of Curved-walled Micro Nozzle/Diffuser, Nano/Micro Engineered and Molecular Systems, 2006, NEMS ‘06.
I. E. Idelchik, Handbook of hydraulic resistance, CRC Press, 1994.
B. Said and J. M. Philip, Acoustic streaming: From Rayleigh to today, Aeroacoustics, vol. 2 nos. 3 & 4 (2003).
P.J. Morris, S. Boluriaan and C. M. Sheih, Numerical simulation of minor losses due to a sudden contraction and expansion in high amplitude acoustic resonators, Acta Acustica united with Acustica, 90, 2004:393–409.
M. Mironov, V. Gusev, Y.Auregan, P. Lotton, M. Bruneau and P. Piatakov, Acoustic streaming related to minor loss phenomenon in differentially heated elements of thermoacoustic devices, J. Acoust. Soc. Am. 112(2), 2002.
A. Petculescu and L. A. Wilen, Oscillatory flow in jet pumps: Nonlinear effects and minor losses, J. Acoust. Soc. Am. 113(3), 2003.
G.W. Swift, D. L. Gardner, and S. Backhaus, Acoustic recovery of lost power in pulse tube refrigerators, J. Acoust. Soc. Am. 105, 1999:711–724.
CrossRef