russ_watters said:
They throw around numbers like... ...but what does that really mean? It doesn't make any sense to me.
Performance of evaporative cooling is so heavily dependent on climate, I can't imagine it being viable anywhere besides a desert. In Philadelphia, the design conditions are 92F dry bulb, 75F wet bulb. To get adequate cooling capacity and dehumidification, you need to supply at about 55/55. I can't see that happening.
In Vegas, design conditions are: 109/69. If you look on a psych chart, the enthalpy of the air is actually lower than in PA because of the lower DB. I assume the conditions are probably about the same in Chihuahua, Mexico, where I just was - in Chihuahua, people already use evaporative cooling almost exclusively. And yes, the biggest problem is the water usage.
I need to see some real performance numbers before I can say I buy that this is that big of a deal.
russ_watters – Wet bulb approach is a common way to report how well a direct evaporative cooler is at humidifying the air. If you were to have a 100% wet bulb approach direct evaporative cooler, you would saturate the air from where you started and the wet bulb would equal the dry bulb and the dew point.
The best commercial direct evaporative coolers use a combination of spray nozzles and wetted media and have a 90% wet-bulb approach (we were being generous on the website saying they have a 95% WB approach). In Philadelphia this means that if you start at 92/75 (dry bulb/wet bulb), you will be able to adiabatically cool by following the constant enthalpy line to 76/75. The dry bulb is calculated by 92 – 0.95 * (92 – 75) = 76, and of course the wet-bulb remains the same since it is adiabatic. The dew point of this air is nearly 75, which is WAY above the ASHRAE thermal comfort zone.
The same wet bulb approach term has also come into use for indirect evaporative coolers, but of course it goes a different direction on the psych chart. If you use a Coolerado R600 in Philadelphia you’d start at 92/75 and go straight to the left indicating sensible cooling without adding moisture. You’d end up getting 95% of the way to the wet bulb, or at 76/71. Of course the dew point stays the same during the entire process at about 68. This condition is also above the ASHRAE comfort zone (you can download printable, high resolution psych charts that have the ASHRAE comfort zones on them from the Cool Tools section of the Coolerado website), but may be acceptable for some industrial and pre-cooling applications.
A firm in Atlanta (similar design conditions as Philadelphia) is considering using a Coolerado Cooler as a pre-cooler in a 100% makeup air application (all outside air). They’ll have Coolerado do the bulk of the cooling, and then use a DX system to finish it off and dehumidify. They’ll also use our saturated exhaust air, which is a few degrees above wet bulb, to cool the DX refrigerant condenser.
In Las Vegas the air is sufficiently dry for our coolers to work as a stand-alone system. I don’t have the design data on Chihuahua to know how we perform. We have calculated our performance for over 1,400 cities for which there is ASHRAE data available and posted that on our website at
http://coolerado.com/Products/Coolers/R600/R600Performance.htm.
Water is almost always cheaper to fuel cooling than electricity. This is even true for the Army when operating in the desert (as in the current conflict). From a conservation point of view, cities are looking at total water consumption not just where air is cooled. In general, people don’t think about how much water is used to generate electricity, even though they can see the huge plumes of moisture above power plants. When considering the overall picture, the DOE estimates that Coolerado Coolers will actually use anywhere from a little more to a little less water than traditional air conditioners. See
http://www.nrel.gov/docs/fy04osti/33905.pdf
Real performance numbers are on the website as well. Compare DOE’s Energy Efficiency Ratio (EER) number of 40+ for the Coolerado Cooler to an EER of around 9 for the best vapor compression systems (Seasonal EER of 19). At least one forth the electricity.
Thank you for your interest.
Rick Gillan - Idalex and Coolerado
