1.
Blom, C., 1950, “Development of the Hydraulic Design for the Grand Coulee Pumps,” Trans. ASME, Jan., pp. 53–70.
2.
Bolleter
U.
,
1988
, “
Blade Passage Tones of Centrifugal Pumps
,”
Vibrations
, Vol.
4
, No.
3
, pp.
8
13
.
3.
Brennen, C. E., 1994, Hydrodynamics of Pumps, Concepts ETI and Oxford University Press.
4.
Cooper, P., McCormick, W. M., and Worthen, R., 1981, “Feasibility of Using Large Vertical Pumps as Turbines for Small Scale Hydropower,” Waterpower ’81, Proceedings, U. S. Army Corps of Engineers, pp. 1584–1599.
5.
Cooper, P., Wotring, T. L., Makay, E., and Corsi, L., 1988, “Minimum Continuous Stable Flow in Feed Pumps,” Symposium Proceedings: Power Plant Pumps, EPRI CS-5857, pp. 2-97–2-132.
6.
Cooper, P., Sloteman, D. P., Graf, E., and Vlaming, D. J., 1991, “Elimination of Cavitation-Related Instabilities and Damage in High-Energy Pump Impellers,” Proceedings of the Eighth International Pump Users Symposium, Texas A&M University, pp. 3–19.
7.
Cooper, P., and Jones, G., 1992, “Operating Experience, Including Transient Response, of a Magnetic-Bearing-Equipped Boiler Feed Pump,” Proceedings of MAG’92, University of Virginia, pp. 19–28.
8.
Cooper, P., 1992, “Living with Cavitation in Pumping Machinery,” after-dinner presentation, Third International Conference on Cavitation, ImechE, unpublished.
9.
Cooper, P., 1994, “Computational Fluid Dynamical Analysis of Complex Internal Flows in Centrifugal Pumps,” Proceedings of the Eleventh International Pump Users Symposium, Texas A&M University, pp. 83–94.
10.
Den Hartog, J. P., 1929, “Mechanical Vibrations in Penstocks of Hydraulic Turbine Installations,” Trans. ASME, HYD-51-13.
11.
Fischer
K.
, and
Thoma
D.
,
1932
, “
Investigation of the Flow Conditions in a Centrifugal Pump
,”
Trans. ASME
, Vol.
54
, pp.
143
155
.
12.
Ford, D., and Ryan, C., 1981, “Taking technology to market,” Harvard Business Review, Mar./Apr. 1981, pp. 117–126.
13.
Graf, E., 1993, “Analysis of Centrifugal Impeller BEP and Recirculating Flows: Comparison of Quasi-3D and Navier-Stokes Solutions,” Pumping Machinery—1993, ASME, pp. 235–245.
14.
Guelich, J. F., 1989, Guidelines for Prevention of Cavitation in Centrifugal Feedpumps, EPRI CS-6398. p. 2–14.
15.
Iino, T., 1981, “Potential Interaction Between a Centrifugal Impeller and a Vaned Diffuser,” Fluid/Structure Interactions in Turbomachinery, Wm. Thompson, ed., ASME, pp. 63–69.
16.
Ippen
A. T.
,
1946
, “
The Influence of Viscosity on Centrifugal Pump Performance
,”
Trans. ASME
, Vol.
68
, p.
823
823
et seq.
17.
Karassik, I. J., Krutzsch, W. C., Fraser, W. H., and Messina, J. P., 1986, Pump Handbook, Second Edition, McGraw-Hill, pp. 2.194–2.265.
18.
Kasztejna, P. J., and Cooper, P., 1986, “Hydraulic Development of Centrifugal Slurry Pumps for Coal Slurry Service,” Proceedings: Eighth International Symposium on Coal Slurry Fuels Preparation and Utilization, U. S. Dept. of Energy, Pittsburgh Energy Technology Center, pp. 646–665.
19.
Knapp, R. T., 1955, “Recent Investigations of the Mechanics of Cavitation and Cavitation Damage,” Trans. ASME, October 1955, pp. 1045–1054.
20.
Makay, E., Cooper, P., Sloteman, D., and Gibson, R., 1993, “Investigation of Pressure Pulsations Arising from Impeller/Diffuser Interaction in a Large Centrifugal Pump,” Proceedings: Rotating Machinery Conference and Exposition, ASME, Vol. 1.
21.
NASA, 1973, “Liquid Rocket Engine Centrifugal Flow Turbopumps,” NASA SP-8109 of the series entitled NASA Space Vehicle Design Criteria (Chemical Propulsion.)
22.
NASA, 1975, “Turbopump Systems for Liquid Rocket Engines,” NASA SP-8107 of the series entitled NASA Space Vehicle Design Criteria (Chemical Propulsion.)
23.
Nelik, L., and Cooper, P., 1984, “Performance of Multi-Stage Radial-Inflow Hydraulic Power Recovery Turbines,” ASME Paper No. 84-WA/FM-4.
24.
Pfieiderer, C., 1961, Die Krelselpumpen, 5te Auflage, Springer Verlag. Public Utility Regulatory Policies Act, 1978, PL 95–617, November 1978.
25.
Sloteman, D. P., Cooper, P., and Graf, E., 1991, “Design of High-Energy Pump Impellers to Avoid Cavitation Instabilities and Damage,” EPRI Power Plant Pumps Symposium.
26.
Sloteman, D. P., Wotring, T. L., March, P., McBee, D., and Moody, L., 1995, “Experimental Evaluation of High Energy Pump Improvements Including Effects of Upstream Piping,” Proceedings of the Twelfth International Pump Users Symposium, Texas A&M University, pp. 97–110.
27.
Stahl
H. A.
, and
Stepanoff
A. J.
,
1956
, “
Thermodynamic Aspects of Cavitation in Centrifugal Pumps
,”
Trans. ASME
, Vol.
78
, pp.
1691
1693
.
28.
Stepanoff, A. J., 1957, Centrifugal and Axial Flow Pumps, 2nd Edition, Wiley.
29.
Sutton, G. P., 1992, Rocket Propulsion Elements, Sixth Edition, Wiley, pp. 203, 215, 233–234, 328.
30.
White, R. M., 1995, “Reshaping an R&D Jewel,” Technology Review, Nov./Dec, p. 64.
31.
Weldon
R.
,
1970
, “
Boiler Feed Pump Design for Maximum Availability
,”
Advanced Class Boiler Feed Pumps, I. Mech. E. Proceedings
, Vol.
184
, Part 3N, pp.
18
35
.
32.
Wislicenus, G. F., 1965, Fluid Mechanics of Turbomachinery, in two volumes, Dover.
This content is only available via PDF.

Article PDF first page preview

Article PDF first page preview
You do not currently have access to this content.