Why Choose CHEMetrics Vacuettes kits?
VACUettes ampoules are designed for highly concentrated samples. They employ a patented auto-dilution feature that eliminates the need for a time-consuming and error-prone preliminary dilution. As a result, the entire test takes only 2 to 3 minutes, with a rate of accuracy comparable to a volumetric procedure. The basic design of these 7 mm ampoules is the same as CHEMets ampoules, however, a capillary tip is attached to the tip of each ampoule.
Safe and Reliable Results
While traditional methods often require multiple steps and thorough preparation, these test kits allow you to obtain dependable results with a few simple steps. By simplifying the testing method, Vacuettes test kits reduce the potential for operator error. Additionally, each of the ampoules contained in the test kits is vacuum sealed which helps eliminate the problem of obtaining inaccurate results from stale or unstable reagents. These reagents are stored right in the tip of each ampoule and sealed in glass, thereby minimizing direct contact with the chemicals.
The K-8510D Phosphate Kit was designed to accurately measure the levels of Phosphate in water from 0-30 ppm and 30-300 ppm. K-8510D uses the Stannous Chloride Method. Test kits employing this chemistry utilize a stannous chloride reduction. Phosphate reacts with ammonium molybdate and is then reduced by stannous chloride to form a blue complex. Results are expressed as ppm (mg/L) PO4.
Phosphorus occurs naturally in rock formations in the earth's crust, usually as phosphate. High phosphate concentrations in surface waters may indicate fertilizer runoff, domestic waste discharge, or the presence of industrial effluents or detergents. Although phosphates from these sources are usually poly-phosphates or organically bound, all will degrade to ortho or reactive phosphates with time.
Phosphate measurement is used to control scale and corrosion inhibitor levels in boilers and cooling towers. Both methods described below measure reactive phosphate, which will give a positive reaction prior to hydrolysis, and is usually termed ortho-phosphate.
How to Use:
|1. Fill the diluter snapper cup to the -ml- mark with distilled water. Add two drops of Activator Solution. Cap the cup and shake to mix the contents.||2. Fill the micro-test tube approximately halfway with the sample to be tested.|
|3. Holding the VACUette almost horizontally,
touch the tip to the contents of the micro-test
|4. Place the VACUette between the vertical tip
guides on the inside of the dilutor snapper
cup and snap the ampoule tip.
|5. To mix the ampoule, invert it several times,
allowing the bubble to travel from end to end.
|6. Dry the ampoule and wait 2 minutes for color development.|
|7. Place the ampoule into the center of the round comparator and hold it toward a source of light, viewing from the bottom. Rotate the comparator until the color below the ampoule shows the closest match.||8. For higher concentrations, use flat comparator. Place the ampoule between the color standards, moving it along the comparator until you can determine the closest match.|
For more detailed instructions, see the link at the bottom of the page.
More CHEMetrics Kits for Phosphate
|K8513||Stannous Chloride||0-8.00 ppm or 0-5.00 ppm (depending on reader)||$30.00|
|K5803||Vanadomolybdophosphoric Acid||0-80.0 ppm||$30.00|
|K8510||Stannous Chloride||0.05 ppm||0-1 & 1-10 ppm||$66.00|
|K8530||Vanadomolybdophosphoric Acid||2 ppm||2-30 ppm||$47.00|
|K8515||Vanadomolybdophosphoric Acid||5 ppm||0-120 ppm||$56.00|
|K8510D||Stannous Chloride||5 ppm||0-50 & 60-600ppm||$71.00|
|K8510A||Stannous Chloride||10 ppm||0-120 & 120-1200ppm||$71.00|
|K8510B||Stannous Chloride||20 ppm||0-1000 & 1000-10,000ppm||$71.00|
|K8510C||Stannous Chloride||200 ppm||0-30 & 30-300ppm||$72.00|
|Call For Price||No|
|4-20 mA Output||No|
|Power Requirements||4 AAA Batteries|