Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Dry cooling tower

Figure 5. Single structure type wet-dry cooling tower. Figure 5. Single structure type wet-dry cooling tower.
Rabb, A. Hydrocarbon Process., 47(2) (1968) 122. Arc dry cooling towers economical ... [Pg.786]

Under certain conditions, such as high water temperatures, insufficient water supplies and problems of blowdown disposal, systems that depend on convection and use air as the transport medium may be preferable. The two types of dry cooling towers are the direct and indirect systems. Figures 4.21 and 4.22 show these systems in operation for nuclear station cooling. Indirect units use a surface or jet condenser at the turbine to condense exhaust steam. Water from the condenser is pumped to the dry tower for cooling and recirculation back to the condenser. In the direct system, steam is condensed in cooling coils without interfacing with a condenser. [Pg.79]

Cross Wind and Internal Flow Characteristics of Dry Cooling Towers Russell, C. M. B. McChesney, H. R. Holder, D. W. Jones, T. V., Verlinden, M. [Pg.266]

The paper makes a comparison between separate-structure wet/dry cooling towers with different condensers or the same condenser and with parallel or series circulating water flow. The use of single-structure versus separate structure wet/dry towers is also considered. [Pg.278]

Comparison of Different Combinations of Wet and Dry Cooling Towers von Cleve, H. H. [Pg.279]

Wet/Dry Cooling Tower An Effective Plume Control Method... [Pg.285]

Under certain conditions, the exhaust air of conventional mechanical draft cooling towers may form a fog plume, causing visibility and icing problems to highways and equipment. In cases where this cannot be tolerated, a combination wet/dry cooling tower is shown to be effective fog plume control method. The paper describes the basic phenomena of cooling tower fog formation. The operation and performance characteristics of the wet/dry tower are discussed as well as a method of select wet/dry design criteria. 11 refs, cited. [Pg.286]

Dry Cooling Tower Power Plant Design Specifications and Performance Characteristics... [Pg.289]

The paper discusses operating limitations imposed by the turbine exhaust element and the alternatives presently available to the electric utility industry. It also presents tools for estimating dry tower plot area, fan power and circulating pump power requirements. It shows the savings in fan power which can be expected with a decrease in turbine-generator load and ambient air temperatures. It discusses expected maintenance costs and the owner s possible exposure with a large 1000 MW dry cooling tower system. The paper ends with an evaluation of the potential for lower dry tower system costs in the future. 12 refs, cited. [Pg.289]

Dry and Wet/Dry Cooling Towers for Power Plants Webb, Ralph L. (Ed.) Barry, Robert E. (Ed.)... [Pg.290]

Plume Behavior and Potential Environmental Effects of Large Dry Cooling Towers... [Pg.290]

On the Minimum Size For Forced Draft Dry Cooling Towers for Power Generating Plants... [Pg.291]

The paper compares wet, dry and wet and dry cooling towers on the basis of their performance and costs. Design factors involving heat transfer characteristics wet bulb temperature effect, fans and stack, etc, are evaluated. [Pg.293]

Power Plant Cycles for Dry Cooling Towers Leung, P. Moore, R. E. [Pg.300]

Rugeley Dry Cooling Tower System Christopher, P. J. Forster, V. T. [Pg.300]

Dry Cooling Towers That Match the Efficiency of Wet Ones Maschinenfabrik-Augsburg Nuernberg A. [Pg.306]

Dynamics of a Vaporizing a (10-50 (mu) Water) Droplet in Laminar Entry Region of a Straight Channel (with Isothermal Walls, as in a Dry Cooling Tower)... [Pg.310]

Analysis of Large Dry Cooling Towers with Spine-Fin Heat Exchange Elements... [Pg.313]

Heat Rejection from Dry Cooling Towers with Fluidized Beds Andeen, B. R. Glicksman, L. R-... [Pg.316]

Methods for Rejecting Waste Heat from Steam-Electric Power Plants (Including Natural and Mechanical Draft Evaporative Cooling Towers, and Dry Cooling Towers)... [Pg.322]

For Steam Turbine Drives. . . Are Dry Cooling Towers Economical Rabb, A. [Pg.324]

The Influence of Temperature Stratification on the Thermal Performance of a Natural Draft, Dry Cooling Tower Buxmann, J. [Pg.329]

Considerations Required for the Optimum Design of a Wet-Dry Cooling Tower with Respect to Minimizing (Cost and) Visible Vapor Vodicka, V. Henning, H. [Pg.329]

See other pages where Dry cooling tower is mentioned: [Pg.106]    [Pg.1162]    [Pg.73]    [Pg.93]    [Pg.763]    [Pg.64]    [Pg.79]    [Pg.84]    [Pg.85]    [Pg.278]    [Pg.284]    [Pg.290]    [Pg.290]    [Pg.290]    [Pg.291]    [Pg.298]    [Pg.300]    [Pg.300]    [Pg.306]    [Pg.313]   
See also in sourсe #XX -- [ Pg.79 , Pg.81 , Pg.266 , Pg.290 ]

See also in sourсe #XX -- [ Pg.423 , Pg.426 ]



SEARCH



Cooling tower

Dry cooling

Dry towers

Wet-dry cooling tower

© 2024 chempedia.info