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262. Hutton, D., “Properly Apply Closed-Circuit Evaporative Cool- Baasel, W. D., “Nomograph Solves Vent Condenser Sizing Equa-
ing,” Chem. Eng. Prog., V. 92, No. 10, p. 50 (1996). tions,” Petro. Chem. Eng., May (1967), p. 48.
263. Ganapathy, V., “Evaluate Extended Surface Exchangers Care- Baasel, W. D. and J. S. Smith, “A Mathematical Solution for the
fully,” Hydro. Proc., V. 69, p. 65, Oct. (1990). Condensation of Vapors from Non-Condensing Gases in
264. Maze, R. W., “Air vs. Water Cooling; How to Decide Which Laminar Flow Inside Vertical Cylinders,” AIChE Journal, Nov.
System to Use,” Oil and Gas Jour., p. 74, Nov. 18, (1974). (1963) p. 826.
265. Mukherjee, R., “Effective Design Air-Cooled Heat Exchang- Baker, W. J., “Selecting and Specifying Air-Cooled Heat Exchang-
ers,” Chem. Eng. Prog., p. 26, Feb. (1997). ers,” Hydrocarbon Processing, May (1980) p. 173.
266. Standards of the Tubular Exchanger Manufacturers Associa- Barrington, E. A., “Cure Exchanger Acoustic Vibration,” Hydrocar-
th
tion, 7 Ed. Tubular Exchanger Manufacturers Association, bon Processing, July (1978) p. 193.
Inc. (1988). Berg, W. F. and J. L. Berg, “Flow Patterns for Isothermal Conden-
267. Computer software for heat exchanger design; a limited list- sation in One-Pass Air-Cooled Heat Exchangers,” Heat Trans-
ing (1997); (a) AEA Technology Engineering Software, Inc.; fer Eng., V. 4, April—June (1980) p. 21.
(b) B-JAC International; (c) plus many others through AIChE Bergles, A. E. and W. M. Rohsenow, “The Determination of
publications. Forced-Convection Surface-Boiling Heat Transfer,” Trans.
268. Minton, P. E., “Designing Special Tube Heat Exchangers,” of the ASME Journal of Heat Transfer, (1963), Paper No. 63-
Chem. Eng., p. 145, May 18, (1970). HT-22.
269. Kern, D. Q. and R. E. Seaton, “Surface Fouling—How to Cal- Bergles, A. E., J. E. Collier, J. M. Delhaye, G. F. Hewitt, and F.
culate Limits,” Chem. Eng. Prog., V. 55, No. 6, p. 71 (1959). Mayinger, “Two-Phase Flow and Heat Transfer in the Power
270. Starczewski, J., “Graphs Cut Exchanger Design Time,” Hydro. and Process Industries,” Hemisphere Publishing Co./
Proc. & Pet. Refiner, V. 40, No. 6, p. 165 (1961). McGraw-Hill Book Co. (1981).
271. “Heat Exchangers—Special Report,” Hydro. Proc., V. 65, No. 6, Bonem, J. M., “Plant Tests Point the Way to Better Filter Perfor-
p. 115 (1966). mance,” Chem. Eng., February 13, (1978) p. 107.
272. Peck, R. E. and L. A. Bromley, “Designing Condensers,” Ind. Boyer, R. C. and G. K. Pase, “The Energy-Saving Nests Concept,”
Eng. Chem., V. 36, No. 4, p. 312 (1944). Heat Trans. Eng., V. 2, July—Sept. (1980) p. 19.
273. Jacobs, J. K., “Reboiler Selection Simplified,” Hydro. Proc. & Brogden, R. K., “Air Cooling Saves Water in Arid Area,” Power,
Pet. Refiner, V. 40, No. 7, p. 189 (1961). March (1980) p. 94.
274. “Air-Cooled Heat Exchangers,” Pet. Refiner, p. 99, April Brown, P. M. M. and D. W. France, “How to Protect Air-Cooled
(1959). Heat Exchangers Against Overpressure,” Hydrocarbon Process-
275. Burley, J. R., “Don’t Overlook Compact Heat Exchangers,” ing, Aug. (1975) p. 103.
Chem. Eng. V. 98, No. 8, p. 90 (1991). Brown, T. R., V. Ganapathy, and J. Glass, “Design of Air-Cooled
276. Trom, L., “Consider Plate and Spiral Heat Exchangers,” Exchangers,” Chem. Eng., March 27, (1978) p. 108.
Hydro. Proc., V. 69, No. 7, p. 75 (1990). Brown, T. R., “Heating and Cooling in Batch Processes,” Chem.
277. Hargis, A. M., A. T. Beckman, and J. J. Loiacono, “Application Eng., May 28, (1973) p. 99.
of Spiral Plate Heat Exchangers,” Chem. Eng. Prog., V. 63, No. Buthod, A. P., “How to Estimate Heat Exchangers; Charts Speed
7, p. 62 (1967). Tedious Calculations,” Oil and Gas Journal, V. 58, No. 3, Jan.
278. Rubin, F. L., “Reboilers and Sectional Exchangers,” Chem. 18, (1960) p. 67.
Eng., p. 229, Sept. (1953). Buthod, P. and A. Serrano, “Mean-Temeprature Difference in Single-
279. Starczewski, J., “Short Cut Method to Exchanger Shell-Side Pass, Cross-Flow Condensers,” Oil and Gas Journal, Oct. 16,
Pressure Drop,” Hydro. Proc., V. 50, No. 6, p. 147 (1971). (1972) p. 126.
280. Rubin, F. L., “Heat Transfer Rates for Gases,” Pet. Refiner, V. Carnavas, T. C. “Heat Transfer Performance of Internally Finned
36, No. 3, p. 226 (1957). Tubes in Turbulent Flow,” Heat Transfer Eng., V. 4, April—June
281. Rubin, F. L., “Heat Transfer Topics Often Overlooked,” Chem. (1980) p. 32.
Eng., V. 99, No. 8, p. 74 (1992). Cary, J. R., “Fast, Convenient Approach to Sizing Heat Exchang-
282. Bondy, F. and S. Lippa, “Heat Transfer in Agitated Vessels,” ers,” Chem. Eng., May 18 (1959) p. 169.
Chem. Eng., V. 90, No. 7, p. 62 (1983). Cassata, J. R., Z. J. Feng, S. Dasgupta, and R. Samways, “Prevent
283. Bolliger, D. H., “Assessing Heat Transfer in Process Vessel Overpressure Failures on Heat Exchangers,” Hydrocarbon Pro-
Jackets,” Chem. Eng., V. 89, No. 19, p. 95 (1982). cessing, V. 77, No. 11 (1998).
284. ASHRAE Handbook: Fundamentals, American Society of Heat- Challand, T. B., R. W. Colbert, and C.K. Venkatesh, “Computerized
ing, Refrigerating and Air Conditioning Engineers, Inc., Heat Exchanger Networks,” Chem. Eng. Prog., V. 77, No. 7
nd
(1977), 2 printing (1978). (1981) p. 65.
285. Gilliand, E. R., Ind. Eng. Chem., V. 26, No. 516 (1934). Chantry, W. A. and D. M. Church, “Design of High Velocity Forced
Circulation Reboilers for Fouling Service,” Chem. Eng. Prog., V.
Bibliography 54, No. 10 (1958) p. 64.
Chapman, F. A. and F. A. Holland, “Heat-Transfer Correlations for
Ackley, E. J., “Heat Transfer through Glassed Steel,” Chem. Eng., Agitated Liquids in Process Vessels,” Chem. Eng., Jan.
April 20, (1959) p. 181. 18,(1965) p. 153.
Al-Zakri, A. S. and K. J. Bell, “Estimating Performance When Chapman, F. A. and F. A. Holland,”Heat-Transfer Correlations in
Uncertainties Exist,” Chem. Eng. Prog., 77, No. 7 (1981) p. 39. Jacketed Vessels,” Chem. Eng. Feb. 15, (1965) p. 175.

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