Issue Section:
Technical Briefs
1.
Fofonoff
N. P.
1985
, “Physical properties of seawater: A new salinity scale and equation of state for seawater
,” Journal of Geophysical Research
, Vol. 90
, No. C2
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.2.
Gebhart
B.
Mollendorf
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1978
, “Buoyancy-induced flows in water under conditions in which density extrema may arise
,” Journal of Fluid Mechanics
, Vol. 89
, pp. 673
–707
.3.
Gebhart
B.
Carey
V.
Mollendorf
J.
1979
, “Buoyancy induced flows due to energy sources in cold quiescent pure and saline water
,” Chemical Engineering Communications
, Vol. 3
, pp. 555
–575
.4.
Gebhart, B., 1985, Similarity solutions for laminar external boundary region flows, Natural Convection, Fundamentals and Applications, Hemisphere Publishing Corporation, Washington, DC.
5.
Goren
S. L.
1966
, “On free convection in water at 4°C
,” Chemical Engineering Science
, Vol. 21
, pp. 515
–518
.6.
Jaluria
Y.
Gebhart
B.
1977
, “Buoyancy-induced flow arising from a line thermal source on an adiabatic vertical surface
,” Int. J. Heat Mass Transfer
, Vol. 20
, pp. 153
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.7.
Jia, S. B., 1984, “Laminar jet issuing into stagnant surroundings,” Computational Fluid Dynamics Unit, PDR/CFDU IC/15, Imperial College of Science and Technology, London.
8.
Kukulka
D. J.
ebhart
B.
Mollendorf
J. C.
1987
, “Thermodynamic and Transport Properties of Pure and Saline Water
,” Advances in Heat Transfer
, Vol. 18
, pp. 325
–363
.9.
Liburdy
J.
Faeth
G.
1975
, “Theory of a steady laminar thermal plume along a vertical adiabatic wall
,” Lett. Heat Mass Transfer
, Vol. 2
, pp. 407
–418
.10.
Mollendorf
J. C.
Johnson
R. S.
Gebhart
B.
1981
, “Several plume flows in pure and saline water at its density extremum
,” Journal of Fluid Mechanics
, Vol. 113
, pp. 269
–282
.11.
Ostrach, S., 1953, “An analysis of laminar free convection flow and heat transfer about a flat plate parallel to the direction of the generating body force,” NASA Tech. Rep. 1111.
12.
Qureshi, Z., and Gebhart, B., 1978, “Vertical natural convection with the uniform flux condition in pure and saline water at the density extremum,” Proceedings, 6th International Heat Transfer Conf., Toronto.
13.
Patankar, S. W., 1980, Numerical Heat Transfer and Fluid Flow, McGraw-Hill, New York.
14.
Schuh, H., 1948, “Boundary layers of temperature,” Section B.6 of W. Tollmien, Boundary layers, British Ministry of Supply, German Document Center, Ref. 3220T.
15.
Soundalgekar
V. M.
1973
, “Laminar free convection flow of water at 4°C from a vertical plate with variable wall temperature
,” Chemical Engineering Science
, Vol. 28
, pp. 307
–309
.16.
Sparrow, E. M., and Gregg, J. L., 1956, “Laminar free convection from a vertical plate with uniform surface heat flux,” Trans. ASME, Vol. 78.
17.
UNESCO, 1981, “The Practical Salinity Scale 1978 and the International Equation of State of Seawater 1980,” Tenth Report of the Joint Panel on Oceanographic Tables and Standards, UNESCO Technical Papers in Marine Science No. 36, UNESCO, Paris, France.
18.
Vanier
C. R.
Tien
C.
1967
, “Further work on free convection in water at 4°C
,” Chemical Engineering Science
, Vol. 22
, pp. 1747
–1751
.
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