ATI Q46H/79PR Total Chlorine Monitor

ATI's Model Q46H/79PR Total Chlorine Measurement System is a highly versatile on-line monitoring system designed for the continuous measurement of total chlorine in solution.

Features

  • Direct measuring system does not require the addition of chemical reagents
  • Contact outputs include two programmable control relays for control and alarm modes
  • Communication Options for Profibus-DP, Modbus-RTU, or Ethernet-IP
Your Price Call
Usually ships in 1-2 weeks
ATI
Free Lifetime Tech SupportFree Lifetime Tech Support
ImagePart#Product DescriptionPriceStockOrder
ATI Q46H/79PR Total Chlorine MonitorQ46H/79PR Total chlorine monitor
Request Quote
Usually ships in 1-2 weeks
ATI Q46H/79PR Total Chlorine Monitor
Q46H/79PR
Total chlorine monitor
Usually ships in 1-2 weeks
Request Quote

ATI's Model Q46H/79PR Total Chlorine Measurement System is a highly versatile on-line monitoring system designed for the continuous measurement of total chlorine in solution. This direct measuring system does not require the addition of chemical reagents to measure total chlorine. The Q46H/79PR is well suited for potable water systems, water reuse systems, cooling towers, aquariums, and for monitoring wastewater treatment effluents.

The basic sensing element used in the total chlorine monitor is a 3-electrode amperometric membrane sensor which measures chlorine directly. The chlorine measurement does not alter the sample or add any chemicals to the sample stream, so the water flow can return to the system if desired.

In addition to total chlorine measurement, the Q46H/79PR is also available with an optional pH input which provides a two-parameter monitoring system.

Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Monitoring the Lake-shaping Plant Growth in Lake St. Pierre

Researchers in Quebec are taking underwater photos to get a fish-eye view of lake-shaping aquatic plants. They’re proving the use of a technique that could expand the study of plant populations that impact everything from a lake’s plankton and fish populations to its water levels.  Photo analysis could replace more expensive and labor-intensive methods. “If you want to have good data, you have to dive and collect plants and dry them and weigh them,” said Andrea Bertolo, a professor of environmental science at the University of Quebec at Trois-Rivières .  Soon, anyone with an underwater camera and a selfie stick could be contributing to this valuable science.

Read More

Snowmelt, Stormwater and Contamination in Saskatoon

In Saskatoon, Saskatchewan, pollution and runoff from storms and snowmelt are getting the close look they deserve, and there’s much more to examine. Weather, from heavy spring storms to long months of snow and freezing temperatures, makes the polluting potential of runoff and snowmelt greater than and different from warmer climate cities, said Garry Codling in an email. In Saskatoon, potentially harmful elements in runoff can exceed the guidelines for runoff set by the Canadian government.

Read More

Appalachian streams show long, slow recovery from mining’s lingering effects

Appalachia may be as closely associated with mining as it is to anything else. That close relationship will leave its mark on the area’s streams long after the last mine closes. A nine-year study recently published in Science of the Total Environment shows that long after mining activity stops and the land is left to heal, streams and stream life are slow to recover. “We could be really fine point and say that some of them seem to be recovering very, very slowly,” said Carl Zipper, professor emeritus of environmental science at Virginia Tech University . Most of the streams studied didn’t show signs of recovery.

Read More