06-15: Guidelines for Successful Cooling Tower Installations for Campus Analysis MethodWater cooled systems provide many advantages for campus type district energy systems, including low first cost, low operating cost, and reduced space requirements. Cooling towers are often the forgotten "back end" of the cooling system, yet play a key role in the operation of the entire system. A well designed evaporative cooling tower installation is critical to achieving the maximum benefit from the system investment. This paper provides insight
This paper deals with methods of determining a blend of polymers for optimum adsorption and effectiveness for a particular solid phase found in a cooling system
Cost of cooling was found to be less than the conventional once-through system normally used
performance data from field trials will be presented that compares efficacy and cooling system operation during treatment with Aseptrol biocide to baseline data collected during treatment with other biocides
This system does not generate secondary contamination and is non-toxic
The Centers for Disease Control (CDC) requires a spread-plate culture legionella test during investigations of a known or suspected outbreak of Legionellosis
This paper shares field experiences and results in general industrial and process contaminated systems using viable (hypochlorite
The impending large increase in the construction and use of cooling towers in response to the new EPA requirements for thermal pollution control
a decimal order higher than conventional materials
a new water treatment system was installed in the fall of 2006 resulting in a full payback in just 33 days
a 25MW gas turbine generator in a combined cycle with a 100MW steam turbine-generator at San Angelo
Treatment and model limitations are also discussed
we have studied the performance of bromine-based biocides in this cooling tower