How To Develop Cooling Tower Life Cycle Cost Analysis: The Final Step!

How To Develop Cooling Tower Life Cycle Cost Analysis: The Final Step!

So far in this series, you’ve learned how to incorporate all of the essential data into your cooling tower life cycle analysis  -- everything from operational hours at part load conditions to suggested outdoor wet bulb design points. You’ve done most of the heavy lifting. Now it is up to the vendor to…

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How To Develop Cooling Tower Life Cycle Cost Analysis: Defining Dry Bulb, Wet Bulb, and Approach

How To Develop Cooling Tower Life Cycle Cost Analysis: Defining Dry Bulb, Wet Bulb, and Approach

In our last blog we suggested incorporating IPLV (Integrated Part Load Values) into your cooling tower lifecycle cost analysis. Next, we need to fill in wet bulb temperatures that correspond with the part load conditions we’ve identified and already added to our lifecycle worksheet. …

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How To Develop Cooling Tower Life Cycle Cost Analysis: Incorporating Part Load Values or IPLV

How To Develop Cooling Tower Life Cycle Cost Analysis: Incorporating Part Load Values or IPLV

Creating a reasonable load profile is essential for calculating and then comparing lifecycle costs of specific cooling towers, including various brands and/or models within a specific brand. To do that we have to estimate the number of hours a cooling tower will operate at …

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How To Develop Cooling Tower Life Cycle Cost Analysis: Filling In The Blanks

How To Develop Cooling Tower Life Cycle Cost Analysis:  Filling In The Blanks

It is important that engineers be able to compare cooling towers (brands and configurations) in terms of both equipment and life cycle cost.  Just as important, that comparison needs to be based on realistic operating parameters.  At JMP we’ve developed a method that lets engineers…

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