Waters chemical oxygen demand vials

The chemical oxygen demand (COD) determines the amount of oxygen required forchemicaloxidation of organic matter using a strong chemical oxidant, such as, potassiumdichromate under reflux conditions. This metod is widely used to determine:

Chemical Oxygen Demand (COD Vials) LR COD: 0 - 150 mg/L HR COD: 0 - 1500 mg/L HR+ COD: 0 - 15,000 mg/L SAFETY INFORMATION COD reagent vials contain sulfuric acid,

Test tube rack, polyethylene, for 13-mm OD vials, 90 holes each 2497900 Water, deionized 4 L 27256 Oxygen Demand, Chemical, Reactor Digestion TNTplus Method (15,000 mg/L) 5

ence in the chemical oxygen demand test. J. Water Pollut. Control Fed. 37:1716. 2. BAUMANN, F.I. 1974. Dichromate reflux chemical oxygen demand: A proposed method for chloride correction in highly saline waters

Chemical Oxygen Demand (COD Vials) LR COD: 0 - 150 mg/L HR COD: 0 - 1500 mg/L HR+ COD: 0 - 15,000 mg/L SAFETY INFORMATION COD reagent vials contain sulfuric

Biochemical oxygen demand, otherwise known as biological oxygen demand, is an important parameter in water treatment. When effluent wastewaters are discharged into the environment, they can introduce pollution in the form of organic content to receiving waters. High concentrations of organics can deplete dissolved oxygen levels in water

The determination of chemical oxygen demand in waters and effluents 7 1 Introduction 7 2 Sample collection, preservation and storage 9 3 Hazards 10 4 Principle 11 5 Analytical quality control A A suppression 13 A4 Analytical

Biochemical oxygen demand, otherwise known as biological oxygen demand, is an important parameter in water treatment. When effluent wastewaters are discharged into the environment, they can introduce pollution in the form of organic content to receiving waters. High concentrations of organics can deplete dissolved oxygen levels in water

COD Digestion Vial, Low Range Hard Water. For determination of low range Chemical Oxygen Demand (COD) by the Reactor Digestion method. US EPA approved for wastewater analysis using Hach Method 8000. Range: 3-150 mg/L COD. Pack of 150 vials. EPA Approved Simpler and Safer Easy Disposal * Contains mercury. Dispose of.

Chemical oxygen demand (COD) is one of the most important parameters in effluent monitoring and treatment. The COD test is used to predict the requirement an effluent will have for oxygen and hence the effluent's likely impact on the aquatic life of the receiving water course. Camlab water COD can be measured in three ranges.

Oxygen Demand, Chemical DOC316.53.01525 USEPA Reactor Digestion Method Method 10212 5 to 60 g/L COD (UHR) TNTplus® 824 Scope and application: For wastewater and process waters; digestion is

Test tube rack, polyethylene, for 13-mm OD vials, 90 holes each 2497900 Water, deionized 4 L 27256 Oxygen Demand, Chemical, Reactor Digestion TNTplus Method (60 g/L) 5

CHEMetrics Chemical Oxygen Demand Vials are available from Osprey Scientific Inc. Order a quote for this product using our online quoting system.

Chemical Oxygen Demand (COD) Vials Instrumental Kits Range Method Kit Catalog No. No. of Vials 0-150 ppm (LR) USEPA-accepted Dichromate Reactor Digestion K-7350S* 25 0-150 ppm (LR) USEPA-accepted K-7355* 150

The chemical oxygen demand (COD) test is commonly used to indirectly measure the amount of organic compounds in water. Most applications of COD etermine the amountd of organic pollutants found in surface water (e.g2.1(K2