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General Fluid Dynamics
1.
K. Rajagopal, E. Sciubba: Pulsating flow of a fluid of third grade, Mathematics and Computers
in Simulation XXVI(3), 1984.
2.
E. Sciubba, S.C. Gonzales, R.L. Peskin: A two-dimensional second-order model for turbulent
flow in the upper atmosphere, Mathematics and Computers in Simulation
XXVII (6), 1986.
3.
E. Sciubba: Bed-to-tube
heat exchange coefficient in a small, fine-particled, cold fluidized bed,
Intern. Comm. in Heat & Mass Transfer, #5, 1986.
4.
E. Sciubba: A variational
derivation of the Navier-Stokes equations based on the exergy destruction
of the flow, Jnl. of Math. & Phys. Sci., 24 n. 1, 1991.
5.
Bejan, E. Sciubba: The
optimal spacing of parallel plates cooled by forced convection, Int.
J. of H. & M. Transf., 35, n. 12, 1992.
6.
S. Mereu, E. Sciubba, A. Bejan: The optimal cooling of a stack of heat generating boards with fixed pressure
drop, flowrate or pumping power, Int. J. of H. & M. Transf., 6,
1993.
7.
E. Sciubba: A minimum
entropy generation procedure for the discrete pseudo-optimization of finned-tube
heat exchangers, Rev. Gen. Therm., n. 35, 1996.
8.
F. Gamma, E. Sciubba, D. Zingaro, G.E. Farello: Fluid dynamic behaviour of heat exchangers
with active cavities: a numerical study, Int. J. of Numerical Heat
Transfer, Part A, v.42, 2002.
9.
E.Sciubba: Flow
exergy as a Lagrangian for the Navier-Stokes equations for incompressible flow, I.J. of T., 2004
10.
E.Sciubba: Do the
Navier-Stokes Equations Admit of a Variational Formulation?, Ch. 10
in S.Sieniutycz & H.Farkas Eds.: Variational & Extremum principles
in Macroscopic systems, Elsevier, 2005
11.
M.Robbe,
E.Sciubba: A CFD-aided design procedure design procedure for compact heat exchangers,
Int. J. Num. Heat & Mass transf., xx, 2005
12.
R. Vichnevetsky, E. Sciubba, Y. Pak: Numerical upstream boundary conditions that
reduce spurious reflections, Proc. V Intnl. IMACS Symp., 1981 (also
DCS-TR-103, Rutgers University, 1981).
13.
K. Rajagopal, E. Sciubba, C. von Kerczeck: Poiseuille flow of a non-newtonian fluid,
proc. 10th Intl. IMACS Sympsium, 1982.
14.
E.Sciubba: Direct
application of the principle of minimum exergy destruction to fluid flow
problems, ASME Paper HTD-IO #4, 1987.
15.
R. Melli, E. Sciubba: Overall heat transfer characterisrics of tube bundles in a FBC, with water
injection on the air side, IECEC Paper #887294, 1988.
16.
S. Paoletti, F. Rispoli, E. Sciubba: Calculation of exergetic losses in compact
heat exchanger passages, ASME AES-10, 1989.
17.
P.L. Benedetti, E. Sciubba: Numerical calculation ofthe local rate of entropy generation in the flow
around a heated finned tube, ASME-HTD-266, 1993.
18.
S. Mereu, E. Sciubba: A parametric study of particle distribution in gas-solid flow over multiple
tubes, ASME-FED-170, 1993.
19.
E. Sciubba: A novel
plant siting procedure based on a dual formulation of the dispersion problem,
WUA-94 Workshop, Basel, 1994.
20.
S. Paolocci, E. Sciubba: A new criterion for powerplant
siting based on a dual formulation of the dispersion of pollutants in
the atmosphere, ASME-AES-33, 1994.
21.
Gelsey, R. Melli, E. Sciubba: PRANDTL-ES: an Expert System Advisor for CFD problems, Proc. WUA-CFD,
Basel, 1996.
22.
G. Natalini, E. Sciubba: Raffreddamento
di uno specchio metallico per applicazioni laser: calcolo numerico 3-D,
Proc. Intl. Conf. UIT, Milano (Italy), 1997.
23.
R.A. Bialecki, Z. Ostrowski, A.J. Kassab, Q. Yin, E.
Sciubba: Coupling finite element
and boundary element solutions, Proc. ECCM-2001, June 2001, Cracow,
Poland.
24.
M.Robbe, E.Sciubba: A Cfd-Aided Design Procedure For Compact Heat Exchangers, Proc. Ecos’04, Guanajuato, Mexico, Jul. 2004
25.
M.Robbe, E.Sciubba, S.Lorente, A.Bejan: Numerical Analysis of a Tree-Shaped Cooling
Structure for a 2-D Slab: a validation of a “Constructally Optimal” configuration,
Proc. ASME-ESDA 2006, July 4-7, Torino, Italy, 2006