COD Digestion Vials, High Range, pk/150 Overview Details Parameter/Reagent Downloads Accessories Similar Products Product #: 2125915-CA CAD Price: Contact Hach Available EPA Approved Low Range (LR) and High Range (HR) vials are approved by the
2018/1/25 · Only the Low Range COD Digestion vials (Range of 3-150 mg/L COD) and High Range COD vials (Range of 20-1500 mg/L COD) are USEPA approved for wastewater analyses, utilizing Oxygen Demand, Chemical-Reactor Digestion COD Method 8000 ULR, LR.
The HI93754G-25 are reagent vials that follow the ISO approved method for the medium range determination of chemical oxygen demand (COD) using a compatible benchtop photometer. These high quality reagents are manufactured in our state-of-the-art facility and are clearly marked with the lot number and expiration date on each box for traceability.
Edition. COA-Technical Data - Validation of COD Digestion Vials (20-1500mg/L) 2125915 Quality Certificate. English US. 266 KB. 2015-08. Guides. Type. Language.
COD Digestion Vials, Ultra Low Range, 1 to 40 mg/L COD, pk/25. Product #: 2415825.
The HI93754D-25 COD kit contains 25 ready-to-use vials containing pre-measured reagents. These high quality reagents follow the mercury-free dichromate method for determination of COD. In this method, a heated digestion is required to oxidize organic matter in the sample. During the digestion, hexavalent chromium in the reagent is reduced to
COD (Chemical Oxygen Demand) method Distance Instr, Test Kit, etc. In accordance with USEPA? 8000 DR800 LR, MR, HR 0 - 150 mg / L COD Y 8000 Digestion Reactor 20 - 1500 mg / L Y 8000 Digestion Reactor 3 - 150 mg / L Y
Contains mercury. Dispose of according to local, state and federal regulations. For Ultra Low Range Chemical Oxygen Demand (COD) determination by the Reactor Digestion Method. Hach Method 8000. Range: 0.7 - 40.0 mg/L COD. Pack of 150 vials. NOTE: This method is not USEPA approved.
Available. Contains mercury. Dispose of according to local, state and federal regulations. 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.
16mm Hach vials for vials for Chemical Oxygen Demand ( COD ) determination. Results displayed as O2 mg/l. Please note a reactor is required for sample digestion. The tube tests are in high-quality glass and the reagent tubes are shipped in special packaging to protect them during transport. All COD tests are available in a box of 25 tubes.
COD Medium Range Reagent Vials with Barcode, EPA Method (25 tests) $39.20. Qty: Add to Cart. The HI94754B-25 are barcode reagent vials that follow the EPA approved method for the medium range determination of chemical oxygen demand (COD) using a compatible benchtop photometer. These high quality reagents are manufactured in our state-of-the-art
Dispose of according to local, state and federal regulations. For determination of high range Chemical Oxygen Demand (COD) by the Reactor Digestion method. US EPA approved for wastewater analysis using Hach Method 8000. Range: 20 -1500 mg/L COD. Pack of 150 vials.
COD Vials Kit. Catalog No.: K-7365*. Range: 0-1500 ppm (HR) USEPA-accepted. Method: Dichromate Reactor Digestion. Kit comes in a cardboard box and contains everything needed to perform up to 149 tests (except distilled water): 150 vials and instruction book. All COD Kits require the use of a Digestor Block and the V-2000 Photometer, a COD
The HI93754F-25 COD kit contains 25 ready-to-use vials containing pre-measured reagents. These high quality reagents follow the ISO approved method 15705 for determination of COD. In this method, a heated digestion is required to oxidize organic matter in the sample. During the digestion, hexavalent chromium in the reagent is reduced to
Dispose of according to local, state and federal regulations. For determination of high range Chemical Oxygen Demand (COD) by the Reactor Digestion method. US EPA approved for wastewater analysis using Hach Method 8000. Range: 20 -1500 mg/L COD. Pack of 25 vials.
