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Hyperbolic cooling towers

Estimate the height and base diameter of a natural draught hyperbolic cooling tower which will handle a flow of 5000 kg/s water entering at 300 K and leaving at 294 K. The dry-bulb air temperature is 287 K and the ambient wet bulb temperature is 284 K. [Pg.868]

Stability of Hyperbolic Cooling Tower Shells Under Wind Load)... [Pg.264]

Gust Factors for Hyperbolic Cooling Towers Singh, Mahendra P. Gupta, Ajaya K. [Pg.278]

Effect of Wind Friction on Hyperbolic Cooling Towers Herzos, Max, A. M. [Pg.285]

Response of Hyperbolic Cooling Towers to Turbulent Wind Hashish, Mahmoud G. Abu-Sitta, Salman H. [Pg.292]

The paper outlines a general procedure for predicting the dynamic response, including resonance, of hyperbolic cooling towers to turbulent winds. Pressure spectra on the tower surface were measured in a boundary layer wind tunnel. Application to full-scale tower is examined. It is concluded that while the quasi-steady response increases with the wind velocity squared, the resonant response increases faster than wind velocity cubed. 10 refs, cited. [Pg.292]

The volume includes 37 papers. Discussions cover the verification of flat plate analyses by model studies long-term behavior of small composite prestressed concrete bridge beams studies of a prestressed concrete girder with web openings the structural behavior of a hyperbolic cooling tower under static loadings models of shear wall structures ... [Pg.293]

The paper outlines a general procedure for estimating the wind dynamic stresses in hyperbolic cooling towers on the basis of a statistical dynamic approach. Using wind tunnel measurements of pressure fluctuations and assuming that resonance is negligible, predicted wind stresses agreed with measured stresses on an aeroelastic model. The procedure is applied to 451-ft tower. 9 refs, cited. [Pg.294]

Very Large Hyperbolic Cooling Towers Fuizer, I. A. [Pg.294]

Approaches to the Design of Hyperbolic Cooling Towers Against the Dynamic Action of Wind and Earthquake... [Pg.298]

Wet-Type Hyperbolic Cooling Towers Rogers, Paul... [Pg.299]

Free Vibration of Hyperbolic Cooling Towers Hadiish, M. G. Abu-Sitta, S. H. [Pg.301]

Hyperbolic Cooling Towers, Development and Practice Rogers, P. Cohen, E. W. [Pg.304]

The Use of Closely Spaced (Flat and Corrugated Sheet) Packing in Hyperbolic Cooling Towers... [Pg.320]

See other pages where Hyperbolic cooling towers is mentioned: [Pg.2]    [Pg.71]    [Pg.3]    [Pg.279]    [Pg.284]    [Pg.293]    [Pg.294]    [Pg.296]    [Pg.299]    [Pg.299]    [Pg.301]    [Pg.4]    [Pg.71]    [Pg.50]   
See also in sourсe #XX -- [ Pg.2 ]

See also in sourсe #XX -- [ Pg.70 , Pg.71 , Pg.74 ]

See also in sourсe #XX -- [ Pg.2 , Pg.66 , Pg.69 , Pg.75 , Pg.278 , Pg.285 , Pg.292 , Pg.293 , Pg.294 , Pg.298 , Pg.299 , Pg.301 , Pg.304 , Pg.320 ]

See also in sourсe #XX -- [ Pg.70 , Pg.71 , Pg.74 ]

See also in sourсe #XX -- [ Pg.70 , Pg.71 , Pg.74 ]



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