Machine ID 4494 Year Category Glass Machinery - Recycling and Waste Condition Good Type Solids Seperation Region Midwest US Manufacturer Clean 20 Sale Price $13500.00 Model NA     Photo Slideshow

Description Every glass grinding application produces particles that enter into the recalculating coolant water loop. When these particles are allowed to circulate through the system, a number of conditions occur that adversely affect production efficiency. Coolant consumption increases. Diamond wheel life and performance decrease. Labor costs increase due to time spent unclogging coolant lines, removing glass swarf from coolant tanks and especially the "dead-time" when productions is stopped while rectifying these conditions. The hidden cost to a typical operation is directly proportional to the number of grinding machines used and can range from thousands of dollars to tens of thousands of dollars per year. Dealing with glass particulate has made the transition from a necessary nuisance to a viable way to increase shop or plant efficiency. The Clean 20 is a simple, affordable, effective way to remove glass particulate from process water. It is inexpensive to purchase, install and operate. The Clean 20 is also economical in size allowing it to be used in the smallest of shops or strategically deployed throughout the largest of plants.. Cycle Description The separation process is quite interesting and is an ingenious concert of gravity and fluid dynamics with a little flocculent to speed things along. Grinding fluid laden with glass particles flows into the unit where a dosing pump precisely meters a very small amount of flocculent into the stream. This mixture of coolant and flocculent are blended by an in-line static mixer. This mixture empties into a secondary chamber for final blending and then to the main chamber in laminar flow. Laminar flow is the movement of water without turbulence. This is critical because any disturbance would impede the efficiency of the settling process. At this point, the suspended particles begin to agglomerate into small "seeds" which gradually grow into a size where they rapidly drop out of suspension into the collection cone. As this settling process continues, the weight of the agglomerated particles and water naturally apply pressure condensing the solids building in the bottom of the collection cone into a progressively denser wet mass. At a preset time, a pneumatic valve empties the solids into a porous collection bag. Subsequent discharges continue to compact the solids and squeeze out the residual water. When the bag is full and completely drained, it is off-loaded for proper disposal. Specifications Overall Dimensions (L x W x H): 3'-9" x 3'-9" x 8'-5" Volume Reactor Area: 264.25 gal Water Transit (max): 52.85 gal/min

Dealer/Seller Contact Information

Contact Matt Dombrowski, Product Manager Company Selective Machinery, Inc. Address 6264 Kurt Street Brooksville Florida 34604 United States of America Phone 678-939-4136 Email sales@GlassMachineryLocator.com

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