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PCB007-Mar2024

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36 PCB007 MAGAZINE I MARCH 2024 Rinses e other main consumer of water in the etching line are the rinses. When I first started in this business in the early 1970s, it was com- mon to feed the spray rinses with fresh water and discharge it directly to the drain. Of course, this is not an acceptable practice today. e first effort at reducing water usage was to use lower flow rate nozzles when it was real- ized huge amounts of water weren't needed to rinse the boards if the water was sprayed under pressure. If you can believe it, double-sided boards with 0.010" (250 µm) spaces were con- sidered state-of-the-art. at solution didn't last very long before more water savings were demanded. Retrofitting existing equipment is harder since reducing water flow usually means adding modules to the etch line, which isn't always straightforward and easy. New lines, however, could be designed with built-in water-saving features. A relatively easy retrofit was to add a sump under the flow-through rinse and feed fresh water into only the last spray tube while recir- culating the water through the rest of the spray tubes and overflowing to the drain or in-house waste treatment system. is has the advantage of more efficient use of the water, reduced flow to waste treatment, and the last thing the panel sees as it exits the rinse is fresh rinse water. Depending on the number of spray tubes in the rinse water, usage can be reduced by as much as 50–75%. In my next column, I will cover cascade rinses, flood rinses, and ways to reduce etcher water consumption to almost zero. See you then. PCB007 Don Ball is a process engineer at Chemcut. To read past columns or contact Ball, click here. perature is steady since it means the full length of the coil is being used efficiently. However, it may not be necessary to run the water at full flow. You should put a valve on the cool- ing coil input and slowly reduce the water flow until the difference in the temperature (ΔT) of the cooling water at the output is a degree or two higher than the input temperature while running the etcher at peak loading. is will reduce the amount of water used to the mini- mum needed to maintain the etchant temper- ature and cooling coil efficiency. (Believe it or not, higher ΔTs will decrease the efficiency of the cooling coil.) Depending on cooling coil design and plant water pressure, this sim- ple step can cut cooling coil water usage by as much as 25%. e ultimate reduction in cooling water use would be the addition of a chiller to the cooling water line. is is a well-established technol- ogy that chills the water to well below ambi- ent, thus increasing cooling coil efficiency. It then removes the heat from the water from the output of the cooling coil and returns it to the system. In this way, the water usage for cooling is reduced to nearly zero. Note that there is no such thing as a completely closed water cycling loop. Since the typical flow rate of cooling water in an etcher is four to five gallons per minute or more, you can see that this is a significant savings. e number of hours your etcher runs per day, along with the cost of water in your area, will quickly tell you if this investment is cost-effective for you. Also, keep in mind that the chillers can be used on other cooling water lines besides the etcher. In 2000, for example, our injection molding equipment used 3 million gallons of cooling water for the year. In 2001, we added two chill- ers to the injection mold cooling water lines. In 2023, our water usage for injection mold- ing shop cooling water was 96,000 gallons even though we have added a couple of injection molding lines over the years to keep up with increasing production.

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