The HI93764B-25 reagent kit contains 25 ready-to-use vials of HI93764B-0 and 1 bottle HI93764-0 Nessler reagent. These high quality reagents follow an adaptation of the ASTM Manual of Water and Environmental Technology, D1426-92, Nessler method. In this method, the reaction between ammonia and reagents causes a yellow tint in the sample. The amount of ammonia is then measured colorimetrically. The intensity of color is determined by a compatible photometer and the concentration is displayed in mg/L (ppm) of ammonia nitrogen. These reagents are designed to be used with samples that have an expected range of 0 to 100 mg/L (ppm) ammonia nitrogen.Hanna vials contain pre-dosed reagent so the user simply needs to add a small quantity of the sample to use as the blank, followed by the addition 4 drops of the Nessler reagent to measure the concentration. With pre-dosed vials, test preparation time is dramatically reduced and there is no time-consuming reagent preparation procedure or glassware cleaning. The vials and caps of the reagents have been designed to avoid accidental reagent spills. Due to the pre-dosed reagents, the amount of chemicals and handling time is also minimized.
Out of stock
Ammonia High Range Reagents – HI93764B-25
The HI93764B-25 are reagents that follow an adaptation of the ASTM Manual of Water and Environmental Technology, D1426-92, Nessler method for the determination of high range ammonia 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.
- Pre-made reagents for ease of use
- Supplied with certificate of quality
- Marked with expiration date and lot number for traceability
332 AED
Estimated delivery: 15 - 16 September
Specifications
SKU | HI93764B-25 |
Name | Ammonia High Range Reagents – HI93764B-25 |
Package | Vials and bottle |
Quantity | 25 tests |
Method | Adaptation of the ASTM Manual of Water and Environmental Technology, D1426-92, Nessler method |