Publications,
presentations and reports
A.
A49. J.D. Jackson, ‘A semi-empirical basis for extending the generality of SPWR heat transfer calculations’, submitted for consideration for publication in the Journal of Nuclear Engineering and Design, June 2008
A48. S. He and J.D. Jackson, ‘An Experimental study of pulsating turbulent flow in a pipe’, paper accepted by the European Journal of Mechanics May 2008 (in press)
A47. S.
He, W.S. Kim and J.D. Jackson, ‘A computational study of convective heat
transfer to carbon dioxide at a pressure just above the critical value’,
Applied Thermal Engineering, Vol. 28, pp1662-1675, 2008
A46. W.S. Kim, S. He and J.D. Jackson,
‘Assessment by comparison with DNS data of turbulence models used in simulations
of mixed convection’, International Journal of Heat and Mass Transfer, Vol. 51,
pp1293-1312, 2008
A45. M.
Sharabi,
A44. J.D. Jackson and B.E. Launder, ‘Osborne Reynolds and the publication of his Phil Trans Roy Soc papers on turbulent flow’, Annual Reviews in Fluid Mechanics, Vol. 9, pp19-35, 2007
A43. W. He,
H. Li, S.L. Fok, J.D.
A42. P.X.
Jiang, R.F. Shi, Y.J Xu, S. He and J.D. Jackson, ‘Experimental investigation of
flow resistance and convection heat transfer to CO2 at supercritical
pressures in a vertical porous tube’,
A41. S.L. Fok, W. He, H. Li, J.D. Jackson and J.R. Wright, ‘Multiple cracking of ceramic hollow cylinders subjected to thermal loading: experiments and analysis’, Journal of Ceramic Engineering and Science, Vol. 27, No. 2, pp 19-33, 2007
A40. S. He,
P.X. Jiang, Y.J Xu, R.F. Shi, W.S. Kim and J.D. Jackson, ‘A computational study
of convection heat transfer to CO2 at supercritical pressures in a
vertical mini tube’, International
A39. S. He,
W.S. Kim, P.X. Jiang and J.D. Jackson, ‘Simulation of mixed convection heat
transfer to carbon dioxide at supercritical pressure’, International
A38. W.S. Kim, J.D. Jackson S. He and J. Li, ‘Performance of a variety of low Reynolds number turbulence models applied to mixed convection heat transfer to air flowing in a vertical tube’, International Journal of Mechanical Engineering Science, Proc. I.Mech.E., Vol. 218, Part C, pp 1361-1372, 2004
A37. J. Wang, J. Li, S. He and J.D. Jackson, ‘Computational simulations of buoyancy-influenced turbulent flow and heat transfer in a vertical plane passage’, International Journal of Mechanical Engineering Science, Proc. I.MechE., Vol. 218 Part C, pp 1385-1397, 2004
A36. P.X. Jiang, Y.J. Xu, R.F. Shi, S. He and J.D. Jackson, ‘Experimental investigation of convection heat transfer to CO2 at supercritical pressure in a vertical mini tube’, International Journal of Applied Thermal Engineering, Vol. 24, pp1255-1270, 2004
A35. J. Wang, J. Li and J.D. Jackson, ‘A study of the influence of buoyancy on turbulent flow in a vertical plane passage’, International Journal of Heat and Fluid Flow, Vol. 25, pp 420-430, 2004
A34. C.Y. Zhao, T.J. Lu, H.P. Hodson and J.D. Jackson, ‘The Temperature Dependence of Effective Thermal Conductivity of Open-Celled Steel Alloy Foams’, Journal of Materials Science and Engineering: A, Vol. 367, pp. 123-131, 2004
A33. D. McEligot and J.D. Jackson, ‘Deterioration criteria for non-circular ducts’, Journal of Nuclear Engineering Design, Vol. 232, Pt. 3, pp 327-333, 2004
A32. W.S. Kim, C. Talbot, B.J. Chung and J.D.
Jackson, 'Variable property mixed convection heat transfer to air flowing
through a vertical passage of annular cross section', Transactions of the
Institution of Chemical Engineers, Vol. 80, Part A, pp 239-245, Chemical
Engineering Research and Design, April 2002
A31. T. Wu, Z. Xu and J.D. Jackson, 'Mixed
convection heat transfer to water flowing through a vertical passage of annular
cross section', Transactions of the Institution of Chemical Engineers, Vol. 80,
Part A, pp 246-251, Chemical Engineering Research and Design, April 2002
A30. J. Wang, J. Li and J.D. Jackson, 'Mixed
convection heat transfer to air flowing upwards through a vertical plane
passage', Transactions of the Institution of Chemical Engineers, Vol. 80, Part
A, pp 252-260, Chemical Engineering Research and Design, April 2002
A29. D.P. Mikielewicz and J.D. Jackson, A.M.
Shehata and D.M. McEligot, 'Temperature, velocity and mean turbulence structure
in strongly-heated internal gas flows.
Comparison of numerical predictions with data', International Journal of
Heat Mass Transfer, Vol. 45, No. 21, pp 4333-4352, March 2002
A28. S. He,
Z. Xu and J.D. Jackson, ‘An experimental study on buoyancy-opposed wall jet in
a confined space’, International Journal of Heat and Fluid Flow, Vol. 23, pp 487-496,
2002
A27. X. Cheng, P. Bazin, P. Cornet, D. Hittner, J.D. Jackson, J. Lopez
Jimenez, A. Naviglio, F. Oriolo and H. Petzold, ‘Experimental data base for
containment thermalhydraulic analysis’, Journal of Nuclear Engineering and
Design, Vol. 204, pp 267-284, 2001
A26. S. He and J.D. Jackson, ‘A study of
turbulence under conditions of transient flow in a pipe’, Journal of Fluid
Mechanics, Vol. 408, pp1-38, April 2000
A25. J.D. Jackson and J.C. Hatchman, ‘Measurement of the thermal resistance of
paint coatings using a simple transient cooling method’, Proceedings of the
Institution of Mechanical Engineers Vol. 213 Part A, pp 45-56, December 1999
A24. P. An, J. Li and J.D. Jackson, ‘Study of the
cooling of a uniformly heat vertical tube by an ascending flow of air and a
falling water film’, International
A23. J.D.
Jackson, O. Buyukalaca and S. He, ‘Heat transfer in a pipe under conditions of
transient turbulent flow’, International
A22. S. He, P. An, J. Li and J.D. Jackson,
‘Combined heat and mass transfer in a uniformly heated vertical tube with water
film cooling’, International Journal of Heat and Fluid Flow Vol. 19 pp 401-417,
1998
A21. J.D. Jackson, P. An and S.D. Fabregat,
‘Measurement of the total and spectral emittance of a micro-porous ceramic
material’, Journal of High Temperatures – High Pressures Vol. 30, pp 523-529,
1998
A20. O. Buyukalaca and J.D. Jackson, ‘The
correction to take account of variable property effects on turbulent forced
convection to water in a pipe’ International Journal of Heat Mass Transfer,
Vol. 41, Nos 4-5, pp 665-668. 1997
A19. J.D. Jackson. ‘Osborne Reynolds: scientist,
engineer and pioneer’, Proceedings of the Royal Society, London Series A, Vol.
1, pp 49-86, 451, 1995
A18. J.D. Jackson, B.P. Axcell and A. Walton,
‘Mixed convection heat transfer to a sodium in a vertical pipe’, International
Journal of Experimental Heat Transfer, Vol. 7, Issue 1, pp 71-90, 1994
A17. M.A. Cotton and J.D. Jackson, ‘Method of
solution of the time-dependent fully-developed energy equation’, Proc.
I.Mech.E. – Part C:
A16. M.A. Cotton and J.D. Jackson, ‘Vertical tube
air flows in the turbulent mixed convection regime calculated using a
low-Reynolds number k~ε model’, International Journal of Heat and Mass
Transfer, Vol. 33, pp 275-286, 1990
A15. J.D. Jackson and B.P. Axcell, ‘Fast reactor
heat transfer research at
A14. J.D. Jackson, M.A. Cotton and B.P.
Axcell, ‘Studies of mixed convection in
vertical tubes’, International Journal of Heat and Fluid Flow, Vol. 10, No. 1,
pp 2-15, 1989
A13. J.D. Jackson, L.H. Zhu, K.P. Derewnicki and
W.B. Hall, ‘Studies of nucleation and heat transfer during fast boiling
transients in water with application to molten fuel and coolant interactions’,
Journal of the British Nuclear Energy Society, Vol. 27, No. 1, pp 21-29,
February 1988
A12. J.D. Jackson, D.K.W. Tong, P.G. Barnett and
P. Gentry, ‘Measurement of liquid sodium emissivity’, Journal of the British
Nuclear Energy Society, Vol. 26, No. 5, pp 387-392, December 1987
A11. J.D. Jackson, S.E.
Johnston, B.P. Axcell, ‘Heat transfer in a sodium-to-sodium heat exchanger
under conditions of combined forced and free convection’, Journal of the
British Nuclear Energy Society, Vol. 26, No. 5, pp 329-335, 1987
A10. J.D. Jackson, ‘Turbulent mixed convection
heat transfer to liquid sodium’, International Journal of Heat and Fluid Flow,
Vol. 4, No. 2, pp 107-111, 1983
A9. J.D. Jackson and A. Farrar, ‘Measurement
of temperature on a rotating body by means of frequency/voltage convertors’,
International Journal of Mechanical Engineering Education, Vol. 8, No. 1, pp 7-12, 1980
A8. J.D. Jackson and G.R. Symmons, ‘The
pressure distribution in a hydrostatic thrust bearing’, International Journal
of Mechanical Sciences, Vol. 7, pp 239-242, 1964
A7. J.D. Jackson and G.R. Symmons, ‘An
investigation of laminar radial flow between two parallel discs’, Applied
Scientific Research
A6. W.B. Hall, P.H. Price and J.D. Jackson,
‘Forced convection in a pipe having a heat flux which varies exponentially
along its length’,
A5. J.D. Jackson with J.L. Livesey and C.J.
Southern, ‘The static hole error problem - An experimental investigation of
errors for holes of various diameters and depths’, Aircraft Engineering, Vol.
34, No. 396, pp 43-47, 1962
A4. J.F. Barnes and J.D. Jackson, ‘Heat
transfer to air, carbon dioxide and helium flowing through smooth circular
tubes under conditions of large surface/gas temperature ratio’, Journal of
Mechanical Engineering Science, Vol. 3, No. 4, pp 303-314, 1961
A3. J.D. Jackson, ‘A note on the relationship
between static hole error and velocity distribution in the boundary layer’,
Applied Scientific Research
A2. J.D. Jackson, ‘The pressure registered by
a very small static hole’, Technical Note,
A1. J.D. Jackson, ‘A study of squeezing flow’,
Applied Scientific Research