AMS Interface Meters

AMS Interface Meters provide measurements of both floating and sinking hydrocarbons (non-aqueous product layers).

Features

  • Kynar-coated measurement tape
  • Electro-optic probe easily detects floating contaminants
  • Shipped in a padded carrying case
Your Price $1,379.17
Drop ships from manufacturer
ImagePart#Product DescriptionPriceStockOrder
AMS Interface Meters3012.95 Interface meter with 5/8" probe & imperial increments, 100 ft.
$1,379.17
Drop ships from manufacturer
AMS Interface Meters 3012.96 Interface meter with 5/8" probe & metric increments, 30m
$1,379.17
Drop ships from manufacturer
AMS Interface Meters
3012.95
Interface meter with 5/8" probe & imperial increments, 100 ft.
Drop ships from manufacturer
$1,379.17
AMS Interface Meters
3012.96
Interface meter with 5/8" probe & metric increments, 30m
Drop ships from manufacturer
$1,379.17
AMS Interface Meters provide measurements of both floating and sinking hydrocarbons (non-aqueous product layers). These battery powered, portable reel-mounted instruments uses include measuring oil and water levels in monitoring wells and detecting tank leakage. When the probe of the interface meter is lowered down a well and contacts the product layer, a solid tone and green light alarm is activated on the reel. When the probe detects water, the tone begins to oscillate and the light changes to green. The 100-foot Kynar-coated measurement tape has a is marked in engineering (standard/English) or metric unit increments. The 5/8-inch diameter probe is equipped with stainless steel conductors and stored on a rugged polypropylene reel with an aluminum frame. It is shipped in a padded carrying case.
  • (1) Interface meter
  • (1) Padded carrying case
Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Charles River Algal Blooms Stop Swimming and Launch a Floating Wetland

The Charles River used to be a swimming hotspot for Cambridge and Boston residents. Decades of industrial pollution and nutrient runoff have degraded water quality and eliminated public swimming in the Lower Charles, but a movement is afoot to get Boston and Cambridge back in the water. One step toward the goal of a safely swimmable river—without the need to obtain a permit, as is now necessary—is detecting and managing the harmful algal blooms that appear on the river. An experimental floating wetland and new research and analysis of water quality data that shows a possible effective detection system for algal blooms on the Charles River are two new steps toward the goal of safe, accessible swimming.

Read More

Harnessing the Gulf Stream for Renewable Energy

The Gulf Stream, the massive western boundary current off the east coast of North America, moves water from the Gulf of Mexico north and west across the Atlantic Ocean. There’s a lot of energy in that much moving water and researchers are trying to put it to use. Although the Gulf Stream’s path shifts (researchers say it acts like a wiggling garden hose), in a couple of spots, it stays relatively stable. At one such spot off the coast of Cape Hatteras, North Carolina, researchers have dropped moorings and research instruments to study the current with the eventual goal of harnessing it for renewable energy.

Read More

Buoys in the time of Covid: Delays to important information

In early 2020, Michigan found itself facing one of the worst outbreaks of Covid-19 in the country. Though it’s close to second nature now, businesses, schools and governments were suddenly forced to conduct business without close contact. Universities and research institutions had to pause some scientific research. Whatever was able to continue slowed to a crawl. Around the Great Lakes, a network of buoys monitors dozens of water quality parameters and lake conditions, reporting them in real time. This year, the monitoring season was cut a bit short as Covid-19 restrictions hit in the weeks before buoys were set to be deployed.

Read More