Abstract
The various types of condensing equipment are described including shell-and-tube for power and process applications, plate, spiral, plate-fin, air-cooled and direct-contact. Advice on the choice between the types is given. Methods available for the design and check-rating of these exchangers are given, with particular emphasis on the shell-and-tube which is the most common type. These methods build upon the detailed theories and correlations for individual condensing processes, which are described in previous chapters. An important calculation step is the determination of the mean temperature difference and mean overall coefficient from their local values. This problem is therefore discussed in some detail. Possible reasons why condensers fail to operate as expected are noted.
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References
TEMA, Standard of Tubular Exchanger Manufacturers’ Association, 6th Ed., New York, 1978.
Bell, K.J. and Mueller, A.C., Condensation Heat Transfer and Condenser Design, AIChE Today Series, American Institute of Chemical Engineers, New York, 1971.
Editors of Power, Power Generation Systems, pp. 265–296, McGraw Hill, New York, 1967.
Simpson, H.C., Outline of Current Problems in Condenser Design, Proc. Symposium to Celebrate the Bicentenary of the James Watt Patent, University of Glasgow, September 1 & 2, pp. 91–134, 1969.
Sebald, J.F, A Developmental History of Steam Surface Condensers in the Electrical Utility Industry, ASME/AIChE Nat. Heat Trans. Conf., San Diego, 6–8 Aug. 1979; also published in Heat Transfer Engineering, Vol. 1, No. 3, pp. 80–87, and Vol. 1, No. 4, pp. 76–81.
British Electrical and Allied Manufacturers’ Association, Recommended Practice for the Design of Surface Type Steam Condensing Plant, BEAMA Publication No. 222, 8 Leicester Street, London, 1967.
Heat Exchange Institute, Standard for Steam Surface Condensers, 6th Edition, New York, 1970.
Coit, R.L., A Designers’ Approach to Surface Condenser Venting and Deaeration, in Power Condenser Heat Transfer Technology, Ed. Marto, P.J. and Nunn, R.H., pp. 163–180, Hemisphere Publishing Corporation, Washington, 1984.
Spence, J.R., Rydall, M.L. and McConnell, A., The Development and Production of High Pressure Feed Heaters for Modern Central Power Stations, Proc. Instn. Mech. Engineers, Vol. 182, Pt. 2, No. 36, pp. 735–756, 1967–68.
British Electrical and Allied Manufacturers’ Association Ltd., (1968), Guide to the Design of Feedwater Heating Plant, BEAMA Publication No. 226, 8 Leicester Street, London, 1968.
Heat Exchange Institute, Standards for Closed Feedwater Heaters, HEI, Cleveland, Ohio, 1984.
Alfa Laval, Thermal Handbook, Alfa Laval, Sweden, 1969.
Lenfestey, A.G., Low Temperature Heat Exchangers, Progress in Cryogenics, Vol. 13, pp. 25–47, Published Haywood & Co. Ltd., 1961.
Lenfestey, A.G., Heat Transfer and Fluid Flow, Chapter 6 of Advances in Cryogenics, Ed. by C.A. Bailey, Plenum Press, pp. 155–181, 1971.
Kern, D.Q. and Kraus, A.D., Extended Surface Heat Transfer, pp. 593–641, McGraw Hill Inc., New York, 1972.
Kays, W.M. and London, A.L., Compact Heat Exchangers, 2nd Ed., McGraw Hill, New York, 1964.
Ludwig, E.E., Applied Process Design for Chemical and Petrochemical Plants, Vol. 3, pp. 146–131, Gulf Publishing Co., Houston, 1965.
American Petroleum Institute, Air Cooled Heat Exchangers for General Refinery Service, API Standard 661, Washington, USA, 1968.
Silver, L., Gas Cooling with Aqueous Condensation, Trans. Inst. Chem. Engrs, Vol. 25, pp. 30–42, 1947.
Bell, K.J. and Ghaly, M.A., An Approximate Generalized Design Method for Multicomponent/Partial Condensers, Am. Inst. Chem. Engrs. Symp. Series, Vol. 69, No. 131, pp. 72–79, 1973.
Smith, R.A., Private Communication, Heat Transfer Consultant, Middlesborough, 1976.
Colburn, A.P., Mean Temperature Difference and Heat Transfer Coefficient in Liquid Heat Exchangers, Ind. Engng. Chem., Vol. 25, pp. 873–877, 1933.
Butterworth, D., A Calculation Method for Shell-and-Tube Heat Exchangers in which the Overall Coefficient Varies Along the Length, Conference on Advances in Thermal and Mechanical Design of Shell-and-Tube Heat Exchangers, NEL Report No. 590, pp. 56–71, National Engineering Laboratory, East Kilbride, Scotland, 1973.
Emerson, W.H., Effective Tube-side Temperatures in Multipass Heat Exchangers with Non-uniform Heat-transfer Coefficients and Specific Heats, Conference on Advances in Thermal and Mechanical Design of Shell-and-Tube Heat Exchangers, NEL Report No. 590, pp. 32–55, National Engineering Laboratory, East Kilbride, Scotland, 1973.
Wilson, J.L., NEL Two Dimensional Condenser Computer Program, Meeting on Steam Turbine Condensers, NEL Report No. 619, pp. 152–159, National Engineering Laboratory, East Kilbride, Scotland, 1976.
Davidson, B.J., Computational Methods for Evaluating the Performance of Condensers, Meeting on Steam Turbine Condensers, NEL Report No. 619, pp. 152–159, National Engineering Laboratory, East Kilbride, Scotland, 1976.
Davidson, B.J., Simulation of Power Plant Condenser Performance by Computational Methods: An Overview, in Power Condenser Heat Transfer Technology, Ed. Marta, P.J. and Nunn, R.H., pp. 17–49, Hemisphere Publishing Corp., 1981.
Steinmeyer, D.E., Phase Dispersions: Liquid in Gas Dispersions, Chemical Engineers Handbook, 5th Ed., p. 18/62, Ed. by Perry, R.H. and Chilton, C.H., McGraw Hill, 1973.
Brown, G., Heat Transmission by Condensation of Steam on Spray of Water Drops, Inst. Mechanical Engrs. Proc. General Discussion on Heat Transfer, pp. 49–52, 1951.
Pita, E.G. and John, J.E.A., The Effect of Forced Convection on Evaporative Cooling of Sprays in Air, Proc. Fourth Int. Heat Transfer Conf. Versailles, Vol. 7, Paper CT3.12, Elsevier Publishing Co., Amsterdam, 1970.
Ingebo, R.D., Vaporization Rates and Heat Transfer Coefficients for Pure Liquid Drops, NACA, TN2368, 1951.
Fair, J.R., Design of Direct Contact Coolers/Condensers, Chemical Engineering, Vol. 79, June 12, pp. 91–100, 1972.
Steinmeyer, D.E. and Mueller, A.C., Why Condensers Don’t Operate As They Are Supposed To, Chem. Engng. Progress, Vol. 70, No. 7, pp. 78–82, 1974.
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© 1988 Kluwer Academic Publishers
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Butterworth, D. (1988). Condensers and their Design. In: Kakaç, S., Bergles, A.E., Fernandes, E.O. (eds) Two-Phase Flow Heat Exchangers. NATO ASI Series, vol 143. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-2790-2_26
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DOI: https://doi.org/10.1007/978-94-009-2790-2_26
Publisher Name: Springer, Dordrecht
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