627160

YSI ProDSS ODO/CT Optical Dissolved Oxygen Sensor Cap

YSI ProDSS ODO/CT Optical Dissolved Oxygen Sensor Cap

Description

The ProDSS ODO/CT optical DO sensor cap is designed for use with 627150-X ODO/CT probes when used with a ProDSS meter.

Features

  • 1-year and 2-year warranty options available
  • ODO/CT probe & cable assembly comes standard with 2-year warranty ODO cap membrane
List Price
$102.00
Your Price
$96.90
In Stock

Shipping Information
Return Policy
Why Buy From Fondriest?
Image Part # Product Description Price Stock Order
YSI ProDSS ODO/CT Optical Dissolved Oxygen Sensor Cap 627160 ProDSS ODO/CT optical dissolved oxygen sensor replacement cap, 1-year warranty
$96.90
In Stock
YSI ProDSS ODO/CT Optical Dissolved Oxygen Sensor Cap 627180 ProDSS ODO/CT optical dissolved oxygen sensor replacement cap, 2-year warranty
$166.25
Usually ships in 3-5 days
Image Part # Product Description Price Stock Order
Fondriest Environmental Zero Oxygen Standard FNZE4175-P Zero Oxygen Standard, 500mL bottle
$11.28
Usually ships in 3-5 days
Fondriest Environmental Zero Oxygen Standard FNZE4175-Q Zero Oxygen Standard, 1L bottle
$20.32
Usually ships in 3-5 days

Related Products

In The News

No Evidence of Natural Gas From Fracking In Ohio Drinking Water

A recent study of Appalachian Ohio drinking water from private wells found no evidence of natural gas contamination from “fracking” (drilling for oil and gas) despite concerns about the practice. University of Cincinnati geologists investigated drinking water in Carroll, Harrison, and Stark counties, a rural area in the northeast portion of the state, where private underground wells are the only source of drinking water for many residents. Associate professor of geology Amy Townsend-Small described the time-series study, which is the first to measure sources and concentrations of methane in the fracking region of Ohio, to EM.

Read More

Sedimentation Research Helps Determine Effects of Seabed Mining

Scientists from New Zealand's National Institute of Water and Atmospheric Research, NIWA , are engaging in sedimentation research to help determine the effects of seabed mining and fishing on the environment. This work represents some of the most challenging underwater research ever undertaken by the NIWA team. The need for the work arises from the controversy surrounding proposed seabed ventures—each of which was met with serious opposition based on presumed environmental effects such as drifting sediment plumes. In an effort to determine the full environmental impacts of such seabed activities, the NIWA team has undertaken an unusual project deploying high-tech instruments on the ocean floor. NIWA principal scientist and voyage leader Dr.

Read More

Marine Protected Areas Cannot Tolerate Climate Change

Marine Protected Areas (MPAs) are traditionally a haven for marine fauna under threat from human activities. However, new research confirms that greenhouse gases will continue to warm the world's oceans and reduce their oxygen concentrations, rendering most existing MPAs uninhabitable by 2100. John Bruno , the study’s lead author , is a marine ecologist and biology professor in the College of Arts and Sciences at UNC-Chapel Hill. Dr.

Read More