An experimental study of turbulent flow through concentric annuli
References (27)
- et al.
Int. J. Heat Mass Transfer
(1965) Z. dt. Ingr.
(1907)Z. agnew. Math. Mech.
(1923)Trans. Am. Soc. mech. Engrs
(1926)Z. agnew. Math. Mech.
(1931)Trans. Am. Soc. mech. Engrs
(1943)- et al.
Ind. Engng Chem.
(1955) - et al.
- et al.
Trans. Am. Soc. mech. Engrs Jl. Basic Engng
(1964) - et al.
Jl. Fluid Mech.
(1966)
Ind. Engng Chem.
Oak Ridge Natl. Lab. Report, ORNL-521
Cited by (56)
Heat transfer and pressure drop investigation for prescribed heat fluxes on both the inner and outer wall of an annular duct
2023, Experimental Thermal and Fluid ScienceStructured ZoneFlow™-Bayonet steam reforming reactor for reduced firing and steam export: Pressure drop and heat transfer modelling and evaluation of the reactor performance
2022, Chemical Engineering Journal AdvancesCitation Excerpt :The values and 95% confidence intervals are summarized in Table 2. Note that Quarmby (1967) [24, 25] found for the pressure drop in concentric annuli a3 = 0.0844 and a4 = −0.255, which is in relatively good agreement with the values a3 = 0.062 and a4 = −0.23 found in this work. The parity plot in Fig. 6b illustrates the agreement between the measured and predicted pressure drop over the bayonet, i.e. ΔP3 + ΔP4, whereas Fig. 6c shows the comparison between the measured and predicted overall pressure drop versus air flow rate, with no insert in the bayonet and with an insert either 0.2 or 0.25 m long.
Hydro-thermal behaviour determination and optimization of fully developed turbulent flow in horizontal concentric annulus with ethylene glycol and water mixture based Al<inf>2</inf>O<inf>3</inf> nanofluids
2019, International Communications in Heat and Mass TransferCitation Excerpt :Several parameters, which have pronounced effects on the free, mixed and forced convection heat transfer and pressure drop have been reviewed comprehensively. Among these applications and parameters, fully developed turbulent flow and forced convective heat transfer have been investigated experimentally [4–9]. In these studies, flow characteristics due to radius ratio and Reynolds number have been investigated.
Direct numerical simulation of turbulent concentric annular pipe flow part 1: Flow field
2002, International Journal of Heat and Fluid FlowFlow of Newtonian and non-Newtonian fluids in an eccentric annulus with rotation of the inner cylinder
1997, International Journal of Heat and Fluid FlowTurbulent velocity field in isothermal and heated liquid flow through a vertical annular channel
1996, International Journal of Heat and Mass Transfer
- 1
Department of Mechanical Engineering, University of Manchester Institute of Science and Technology