Bypass valve included
9x48 resin tank
1.0 cubic feet of resin
8,200 ppm Nitrate removal
4 gpm service flow rate
2 gpm backwash flow rate
Floor Space Required is 25x15x56
Shipping Weight is 100 lbs
**TAMPA BAY AREA CONSISTS OF THE FOLLOWING COUNTIES: HILLSBOROUGH, PINELLAS, POLK, AND PASCO**
***SOUTHERN AREA CONSISTS OF THE FOLLOWING COUNTIES: MANATEE AND SARASOTA
****NORTHERN AREA CONSISTS OF THE FOLLOWING COUNTIES: CITRUS AND OSCEOLA
ANY OTHER COUNTY CONTACT US FOR INSTALLATION COSTS
LOOP INSTALLATION = LOOP FOR WATER SOFTENER WITH DRAIN AND ELECTRIC LOCATED CLOSE TO THE INSTALLATION POINT
REPLACEMENT INSTALLATION = REPLACING AN EXISTING WATER SOFTENER THAT HAS BEEN CORRECTLY INSTALLED
NEW STANDARD INSTLLATION =NEW INSTALLATION W/PIPE ON GARAGE SIDE, ELECTRIC W/IN 10FT AND DRAIN W/IN 15-20FT OR FRENCH DRAIN
ANY OTHER INSTALLATION PLEASE CONTACT US.
TOLL FREE: 1-877-345-2770
LOCAL TAMPA: 813-832-9293
EMERGENCY #: 813-244-5185
***CLACK CORPORATION HAS DETERMINED THAT THEIR EQUIPMENT MUST BE SOLD WHERE THE DEALER IS ABLE TO PERFORM PRE-SALE AND POST-SALE ON SITE SUPPORT. THIS MEANS THAT GLASS WATER SYSTEMS MUST DELIVER THE SYSTEMS, INSTALL THE SYSTEMS, AND PROVIDE WARRANTY AND OUT OF WARRANTY REPARIS.
GLASS WATER SYSTEMS HAS A FULL SERVICE DEALER THAT CAN DO THESE ITEMS IN THE TAMPA BAY AREA WHICH INCLUDES THE FOLLOWING COUNTIES:
HILLSBOROUGH, PASCO, POLK, PINELLAS, CITRUS, MANATEE, SARASOTA, AND OSCEOLA.
WE WILL INSTALL EQUIPMENT ALL OVER THE STATE OF FLORIDA - BUT THE PRICES FOR INSTALLATIONS WILL BE CALCULATED WITH THE FACT OF LONG DISTANCE SERVICE.
WE WILL NOT DROP SHIP ANY OF THIS EQUIPMENT OUT OF OUR SERVICE AREA (SPECIFICALLY OUTSIDE OF THE FLORIDA OR THE TAMPA BAY SERVICE AREA). YOU ARE WELCOME TO CONTACT CLACK CORPORATION TO HAVE THEM. LOCATE A DEALER IN YOUR AREA.
Purolite® A520E Macroporous Strong Base Anion Exchange Resin
Purolite A520E is a macroporous strong base anion resin which is specially designed for the removal of nitrates from water for potable processes. The macroporous matrix and special ion exchange group functionality imparts ideal nitrate selectivity to Purolite A520E making this resin particularly suitable for nitrate removal even when moderate to high concentrations of sulphate are present. Hence this resin gives superior performance in nitrate removal applications when compared with standard exchange resins. A requirement of the nitrate removal process is to produce potable water meeting the quality standard defined by the European Economic Community in the Directive No. 80/778 of July 1980. This directive limits the nitrates to a maximum admissable concentration (M.A.C.) of 50 mg NO3/l. The U.S.A. drinking water regulations limit nitrates to 45 mg NO3/l.
Sodium chloride is generally preferred for regeneration for reasons of cost and efficiency. When available sea water can be used quite effectively. The use of softened water for make up of regenerant and rinse is often recommended to avoid the precipitation of calcium carbonate in and around the Purolite A-520E (or any other resin used in this application). Although the precipitation is not particularly detrimental in the short term, the long term effects may include increased resin attrition and leakage of nitrates.
Purolite A-520E is processed to insure that it meets the requirements for use in the treatment of potable water. On installation it is recommended that the resin be regenerated with two bed volumes of 6% NaCl followed by a rinse of four bed volumes of potable water, prior to use.
The pressure drop or headloss across a properly classified bed of ion exchange resin depends on the particle size distribution, bed depth, and void volume of the exchange material as well as on the viscosity (and hence on the temperature) of the influent solution. Factors affecting any of these parameters, for example the presence of particulate matter filtered out by the bed, abnormal compressability of the resin, or the incomplete classification of the bed will have an adverse effect and result in an increased headloss.
Depending on the quality of the influent water, the application and the design of the plant, service flow rates may vary from 10 - 40 bed volumes/hour (1 - 5 gpm/ft3).