Pressure sand filters with backwash facilities are commonly employed as side stream filters for cooling towers.īackwash water for the filters can either be from another source, or if cooling water is used, this water should be considered as part of the cooling tower blowdown. However, installation of side stream filter is recommended since suspended solid concentration builds up over time and periodic high build-up would require side stream filtration for the aforementioned reasons. Side Stream Flow Rate, gpm = ((ppm suspended solids in recirculating cooling water / 200) - 1)*Blowdown Rate, gpm - USCįrom the above formula, it becomes obvious that if the ppm level of suspended solids is ≤200 ppm in the recirculation cooling water, side stream filtration may not be required. Side Stream Flow Rate, L/s = ((ppm suspended solids in recirculating cooling water / 200) - 1)*Blowdown Rate, L/s - Metric
When the side stream filter is employed in the discharge of the cooling water recirculation pump discharge, the flow rate required for filtration through side stream filter can be calculated by the following formula: Refer the simplified flow scheme of side stream filtration for a cooling tower: The basin water inventory may only be filtered and / or side stream filters may be employed at the discharge of the CW recirculation pumps. Modern day cooling tower systems have thus adopted side stream filtration of the water from the cooling tower. At worst, they can degrade system heat transfer capacity and lead to steep increase in dosing rate and consequently the cost of water treatment chemicals (e.g bactericides). At best these suspended solids will tend to settle out in low velocity areas of the water system (such as the cooling water basin) where they can become a breeding ground for bacteria, requiring frequent cleaning and flushing of the basin. Suspended solids (particulates or turbidity) are frequently found in cooling towers.
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