How to Protect Spray Nozzles in your Flue Gas Scrubbers while Minimizing Waste -- A Real World Case Study
How an Incinerator Systems manufacturer revised their sorbent filtration method to eliminate spray nozzle clogging, which resulted in less waste. This improved their product quality, and reduced their processing costs.
(PRWEB) October 18, 2005 -- Situation
One manufacturer of incinerator systems found that they had massive plugging and fouling of their spray nozzles, which mandated the need to throw away more disposable filter cartridges than necessary. Both issues compromised end-product quality, while inflating their process costs.
This unnecessary expense led them to analyze their process, which included a revision of their filtration methods of the process solution (sorbent) before delivering it to the next stage, which were the spray nozzles.
The Importance of Spray Nozzle Protection
To prevent fly ash and sulfur dioxide from venting into the atmosphere, flue gas scrubbers uniformly spray a sorbent into the dirty, hot flue gas. These sorbents, however, often contain oversized particles that can plug spray nozzle orifices. When this happens, the spray becomes uneven, and fly ash and sulfur dioxide can escape from the scrubber.
The key to spray nozzle protection is to filter the liquid before sending it to the spray nozzle. This eliminates the excess and oversize particles, which ultimately plugs the nozzle orifices. Once plugged, the spray becomes uneven, and the output quality becomes compromised. All at an additional and unnecessary expense to the bottom line.
The pro-active approach to this problem is to protect the spray nozzles, which is to filter the solution before it reaches this stage of the process. While there are many different filtration options, the most cost effective is to use self-cleaning filters. This is why the incinerator systems manufacturer contacted Ronningen-Petter to analyze their filtration methods in hopes of protecting their expensive spray nozzles while lowering their process costs.
A Self-Cleaning Solution
Ronningen-Petter determined that the solution to this problem is twofold. To begin, many manufacturing facilities are throwing out more cartridges than necessary with disposable media. That's because disposable media are typically changed on a time cycle (e.g., once a shift, once a day, or once a week), regardless of whether the media needs replacement. To effectively filter when needed -- and not when convenient -- it is important to use automation when at all possible.
With the use of automation, the filters can be cleaned at precisely the right time, rather than when it's convenient. That's because the cleaning is controlled by the pressure differential between inlet and outlet headers as contaminants build up on the filter screen. When the pressure reaches a predetermined level, the screens are cleaned automatically -- only as needed, and when needed.
The second problem was their use of processing liquids (sorbent) with unwanted and prior supposedly 'filtered' particles in it, which resulted in fouling and clogging of the spray nozzles. The consequence of this dynamic was uneven spray and fly ash/sulfur dioxide escaping from the scrubber.
Once identified, the incinerator systems manufacturer eliminated this problem by using Ronningen-Petter (automated) self-cleaning filters. This meant less waste in the process. It also limited the unwanted particles in the process stream, which eliminated the spray nozzle clogging. Therefore, the process line did not have to be stopped to clean the nozzles.
Results
The incinerator systems manufacturer is extremely pleased with the reliable operation of the filters, the elimination of spray nozzle plugging and fouling, as well as the fact that there are no spent cartridges to dispose.
by Ask Filter Man
For questions about industrial filtration, please visit the Ask Filter Man at http://www.ronningen-petter.com/Ask-Filter-Man-Blog.asp
If you would like to discuss this filtration solution with one of Ronningen-Petter's highly-trained Applications Specialists, please contact us at http://www.ronningen-petter.com/ContactUs/Contact-Us.asp
www.Ronningen-Petter.com
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