FILMTEC XLE-440 | DOW FILMTEC XLE-440[18 Apr. 2011, 8:38:33]
Keterangan
FILMTEC XLE-440 | + 6221 84937329 | + 6221 71227771 – 2 | + 6221 71334697 | 0818807696 | 081385066789 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440 | FILMTEC XLE-440 | DOW FILMTEC XLE-440
DOW FILMTEC XLE-440
The DOWâ„¢ FILMTECâ„¢ XLE-440 is an extra low energy, high productivity brackish water reverse osmosis element designed to deliver high quality water at low operating costs for municipal and industrial water applications. Its high active area design coupled with the highly productive XLE membrane makes DOW FILMTEC XLE-440 the lowest pressure RO element in the portfolio - resulting in lower energy costs.
XLE-440 will operate in many systems at less than half the feed pressure of a standard high rejection RO element and at up to 30% less pressure than other low energy membranes, resulting in lifetime energy savings greater than 100% of the initial membrane investment.
With 440 square feet ( 41 square meters) of active membrane area, the DOW FILMTEC XLE-440 element gives system designers the option of designing a system with fewer membrane elements, requiring lower capital expenditures for membranes and components.
Automated, precision fabrication allows for highest active membrane area available in the industry today without compromising the thickness of the feed spacer, resulting in less fouling, less cleaning downtime and lower operating costs than competitive products using thinner spacers.
XLE-440 is perfectly suited for cold water feeds as the element' s high productivity will deliver lower energy costs and/ or higher permeate flow.
Nominal Active Surface Area ft2 ( m2) : 440 ( 41)
Permeate Flow Rate gpd ( m3/ d) : 12, 700 ( 48)
Stabilized Salt Rejection ( % ) : 99.0
Minimum Salt Rejection ( % ) : 98.0