Hach Intellical LDO101 Laboratory Optical DO Sensors

The LDO101 is ideal for measuring dissolved oxygen in wastewater, drinking water and general water quality applications.

Features

  • Reliably test in the harshest environmental conditions
  • Alerts the user when re-calibration is needed
  • Can be moved between meters without the need to re-calibrate or re-enter measurement settings
$1,136.00
Stock Drop Ships From Manufacturer  
Intellical LDO101 is a digital, luminescent/optical dissolved oxygen (LDO) probe. The laboratory version is available with a 1 or 3 meter cable. The LDO101 is fitted with an automatic pressure sensor module and a temperature sensor. The DO sensing cap comes with an iButton to track days in use and remind remaining life of the sensing cap element. The LDO101 is ideal for measuring dissolved oxygen in wastewater, drinking water and general water quality applications.
Questions & Answers
No Questions
Did you find what you were looking for?

Select Options

  Products 0 Item Selected
Image
Part #
Description
Price
Stock
Quantity
Hach Intellical LDO101 Laboratory Optical DO Sensors
LDO10101
Intellical LDO101 Laboratory Luminescent/Optical Dissolved Oxygen (DO) Sensor, 1m Cable
$1,136.00
Drop Ships From Manufacturer  
Hach Intellical LDO101 Laboratory Optical DO Sensors
LDO10103
Intellical LDO101 Laboratory Luminescent/Optical Dissolved Oxygen (DO) Sensor, 3m Cable
$1,196.00
Drop Ships From Manufacturer  
  Accessories 0 Item Selected
Notice: At least 1 product is not available to purchase online
×
Multiple Products

have been added to your cart

There are items in your cart.

Cart Subtotal: $xxx.xx

Go to Checkout

In The News

Green Water in Green Bay: Using Data Buoys to Monitor the Southern Bay

While the bay of Green Bay has been referred to as the largest freshwater “estuary” in the world, the watershed hosts intensive agriculture and contributes one-third of Lake Michigan’s total phosphorus load.  The Fox River flows into the bay, carrying excess nutrients largely the result of non-point source runoff from the watershed. With a history of deterioration extending well into the last century, the bay ecosystem suffered significant declines in water quality.  This, in turn, stimulated major clean-up and ongoing restoration efforts to improve water quality. Tracking these changes is an important aspect of ecosystem management.

Read More

Cross-Border Sewage Contaminated Flows: Monitoring the Tijuana River

The Tijuana River runs across the US-Mexico boundary, flowing into and throughout southern California, carrying with it nutrients and contaminants throughout the estuary. In recent decades, the flows have been heavily polluted with untreated sewage from the City of Tijuana. The wastewater enters the greater Tijuana River estuary, impacting coastal communities and disrupting the natural environment. In order to better understand these cross-border flows, researchers out of San Diego University sought to monitor the waterway test the capabilities of in-situ sensors to measure the contaminated water. Natalie Mladenov and Trent Biggs were two of the researchers involved in the project, deploying a real-time monitoring system in May of 2021.

Read More

Using Data Buoys to Track Sharks in Cape Cod

Despite the bad rap sharks often get in the media, they are incredibly important to marine ecosystems. Still, sharks residing in coastal, high-traffic areas can pose a risk to public safety—as a result, shark tracking and monitoring projects are often conducted in these waters. Regardless of the bad press, biologists like Gregory Skomal, a Senior Fisheries Scientist with the MA Division of Marine Fisheries, have always been interested in learning more about shark behavior for the sake of informing conservation efforts. “I was passionate about sharks as a child. I wanted to be a marine biologist, and pursued it through my education and ended up where I am today,” recalls Skomal.

Read More