Hach sensION+ 5062 Portable Titanium Conductivity Cell
- Robust titanium cell provides reliable performance
- Protected against harsh field conditions
- Heavy-duty electrode handle design optimized for field calibration and storage
|LZW5062.97.0002||sensION+ 5062 Portable Titanium Conductivity Cell, “difficult” applications|
|Usually ships in 3-5 days|
|FNCS1413-P||Conductivity standard, 1,413 uS, 500mL bottle|
The Hach sensION+ 5062 is a two-pole titanium conductivity cell with a titanium body and built-in temperature sensor. It has a fixed 1 meter cable and MP5 connector dedicated for use with Hach sensION+ Portable Conductivity meters. The 5062 is ideal for conductivity measurements in extreme conditions and for “difficult” applications, including dirty and viscous samples.
The 5062's robust titanium cell provides reliable performance in extreme conditions. It's heavy-duty electrode handle design is optimized for field calibration and storage, as the tubes screw directly onto the electrode handle. This design provides a secure interface between the electrode and calibration/storage tube, reducing risk of contamination.
- Material Sensor Body: Titanium
- Measuring range conductivity: 5 µS/cm to 50 mS/cm
- Parameter: Conductivity
- Temperature Range: 0 to 80 °C
- Temperature range: pH: 0 to 80 °C
- Temperature Sensor: Pt 1000
In The News
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
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
An unusual nuisance is slowly growing into an inexplicable problem for researchers at Montana’s Department of Environmental Quality .
For the last five years, a native species of algae called Cladophora has covered large portions of the Smith River, one of the state’s most popular waterways for boating, fishing and recreating. And scientists don’t know why.
“It’s just unusual. I don’t know if it’s extreme for the state of Montana as other systems have had Cladophora problems as well. But it’s most unusual due to the lack of land use changes,” said Chace Bell, a water quality assessment specialist with the Montana DEQ.Read More