Results 21 to 30 of about 36,990 (311)
Experimental data for a flow control valve
Data in Brief, 2019 Experimental data presented in this paper include the flow measurements through cylindrical orifices and the discharge behavior of Mechanical Choked Orifice Plate, MCOP.
P. Rezazadeh +2 more
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Application of a fast transonic trajectory determination approach in 1-D modelling of steady-state two-phase carbon dioxide flow [PDF]
E3S Web of Conferences, 2019 An original generalised procedure of determination of the transonic trajectory has been proposed. The procedure is much faster than the commonly used Newton Critical Point approach.
Angielczyk Wojciech +2 more
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Flow Characteristics of Cylindrical Chokes
Hydraulics & Pneumatics, 1971 Cylindrical chokes are widely used in hydrostatic pumps, hydrostatic actuators, hydrostatic control valves and many other kinds of hydrostatic machinery and are favorite hydraulic components. In the designing of hydrostatic machinery containing cylindrical chokes, it is important to know pressure-flow characteristics of cylindrical chokes. Furthermore,
Akira HIBI +2 more
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Tikrit Journal of Engineering Sciences, 2016 In this research a numerical investigation on a supersonic air intake was done. The aim of this work is to investigate a variable geometry of cross-section area for supersonic air intake at range (1.1-1.5) Mach number, to get a maximum pressure recovery.
Hasson Shaban Hamood
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Frontiers in Mechanical Engineering, 2019 An assumption of constant discharge coefficient (Cd) is often made when modeling highly compressible pulsating engine flows through valves or other restrictions.
Indranil Brahma
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Thermal choking in two-dimensional expansion flows
Zeitschrift für angewandte Mathematik und Physik, 1998 zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Delale, CF, van Dongen, MEH
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Subsonic choking in microchannel slip flow: Isothermal or adiabatic?
AIP Advances, 2019 Some experimental evidence of subsonic choking in rarefied gas flow regime is available; however, the nature of the flow (isothermal/adiabatic) close to the choking point is not known. The theoretical limiting Mach number (Ma) for isothermal choked flows
Richie Garg, Amit Agrawal
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Journal of Fluid Mechanics, 1989 It is well-known that laminar flow of a liquid in a duct is predicted to choke if the viscosity of the liquid increases exponentially with increasing pressure. In other words, the pressure drop in the duct is predicted to become unbounded when the volumetric flow rate reaches a critical finite value.
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Protection from unresponsive flows with geometric CHOKe
2012 IEEE Symposium on Computers and Communications (ISCC), 2012 Paper withdrawn since the paper is published in IEEE ISCC ...
Eshete, Addisu Tadesse, Jiang, Yuming
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Choked Flow in Calibrated Orifices for Hydraulic Fluid Power Applications
FluidsThe flow rate through hydraulic resistance increases with the pressure drop across it, but this correlation is no longer valid under cavitation conditions.
Massimo Rundo +3 more
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