Hach Iron Reagent Set

Iron reagent set, EDTA method, 10-100 mg/L, 100 tests

Features

  • EDTA titration method for determining high levels of iron
  • Range: 10 - 100 mg/L as Fe
  • Powder pillows and titration cartridge
Your Price $154.00
Usually ships in 3-5 days
Hach
Government and Educational PricingGovernment and Educational Pricing
Free Lifetime Tech SupportFree Lifetime Tech Support
ImagePart#Product DescriptionPriceStockOrder
Hach Iron Reagent Set2449200 Iron reagent set, EDTA method, 10-100 mg/L, 100 tests
$154.00
Usually ships in 3-5 days
Hach Iron Reagent Set 2449300 Iron reagent set, EDTA method, 100-1,000 mg/L, 100 tests
$154.00
Usually ships in 3-5 days
Hach Iron Reagent Set
2449200
Iron reagent set, EDTA method, 10-100 mg/L, 100 tests
Usually ships in 3-5 days
$154.00
Hach Iron Reagent Set
2449300
Iron reagent set, EDTA method, 100-1,000 mg/L, 100 tests
Usually ships in 3-5 days
$154.00
ImagePart#Product DescriptionPriceStockOrder
Hach Digital Titrator 1690001 Digital titrator
$198.00
Usually ships in 3-5 days
Digital titrator
Usually ships in 3-5 days
$198.00
Iron (Fe2+) is oxidized by sodium periodate to the ferric ion (Fe3+). When sulfosalicylic acid is present, the ferric ion forms a red complex, coloring the solution. The red complex is destroyed
by titration with EDTA. Citric acid is used to buffer the solution and to stabilize the ferric ion in solution.
  • Range: 10 - 100 mg/L as Fe
  • (100) Citrate buffer powder pillows
  • (100) Sodium periodate powder pillows
  • (100) Sulfosalicylic acid powder pillows
  • (1) TitraVer standard solution titration cartridge, 0.0716 M
Questions & Answers
No Questions
Please, mind that only logged in users can submit questions

In The News

Lake Superior Algal Blooms Surprise, Highlight Need for More Monitoring

In 2012, for maybe the first time, Lake Superior got scummy. Visitors to the Apostle Islands National Lakeshore reported algae washing up on shore around the park.  It was a marked shift for the park, made up of a portion of the Lake Superior lakeshore and nearby islands. The water surrounding the park is cold, clear and typically low in nutrients: a combination unlikely to result in algal blooms. But, in 2012 and again in 2018 after violent storms, major algal blooms—ones observed over multiple days—washed ashore and clogged the beaches with unsightly, scummy algae. Not the usual suspects The algal blooms of Lake Superior are not the algal blooms of warmer, more nutrient-rich lakes like Lake Erie.

Read More

Unprecedented Changes are a New Challenge for Lake Tanganyika

*This is part two of a series on changing ancient lakes. See part one, Lake Baikal, here . Ancient lakes are facing a suite of rapid, unprecedented anthropogenic changes. While ancient lakes are spread around the world and vary widely from lake to lake, their incredible age, which can reach into the tens of millions of years, makes them unique resources to science. They host incredible biodiversity and long sediment records. They are vital sources of food and water for millions of people. In a changing world, ancient lakes’ value as scientific and natural resources and the incredibly diverse life they contain is under threat.

Read More

After Millions of Years, Ancient Lakes Face New Challenges

*This is part one of a two part story on ancient lakes. Part two , Lake Tanganyika, available here. Lakes that have supported human settlements for thousands of years are starting to feel humans’ effects in rapidly developing and significant ways. From climate change to nutrient loading to plastic pollution, ancient lakes are straining under some of the least welcome contributions of humanity. The changes could have consequences for the diversity of life within the lakes and the human populations that rely on it. And, while ancient lakes have been around long enough to weather past climatic changes, the changes occurring now are so rapid, the end result is uncertain.

Read More