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Metsorb® Arsenic & Lead Removal Media
Product Information
Heavy Metal Removal Powder
Comparison to Competitors
Disposal of Exhausted Metsorb

Download HMRP Datasheet




Metsorb® HMRP (Heavy Metal Removal Powder)
Effective, High Value Adsorbent for Reduction of Heavy Metals & Arsenic
MetSorb® HMRP adsorbent is a free-flowing powder designed for incorporation into pressed or extruded carbon blocks. The addition of Graver’s MetSorb® HMRP at relatively low levels to a carbon block design is very effective for the reduction of lead, and at higher HMRP usage levels effective for reduction of arsenic, to meet the requirements of NSF Standard 42. MetSorb® HMRP utilizes a patented material to adsorb not only cationic lead species, but also both forms of Arsenic: Arsenic III and Arsenic V, present as (neutral) arsenite and (anionic) arsenate respectively. ® HMRP will also reduce a wide range of other metal contaminants commonly present in drinking water or process water, and is effective in polishing low levels of metal contaminants from industrial waste streams.

Recommended MetSorb® HMRP Use
As a fine powder, the addition of MetSorb® HMRP is recommended as a component of pressed or extruded carbon blocks, where heavy metal reduction is desired. In blending HMRP with carbon and poly binder components, one must assure that both the starting mechanical blend and the unfinished block produced appear homogeneous. The following guidance is provided as a starting point. The performance of each specific design should be evaluated as to reduction for the specific contaminant in question using industry-standard methodologies by qualified laboratories.

Design Parameters for Improved Performance
A nominal 10 - inch carbon block, standard for most countertop and undercounter applications will provide more overall volume and more functional media than the 2 to 2-1/2 inch blocks typically used in end-of-tap (EOT) applications. For example, a nominal 10 - inch carbon block can easily perform for 1000 gallons or more of contaminant reduction, while the smaller EOT blocks are rated at several hundred gallons.

The larger block design also gives longer contact times (EBCT or Empty Bed Contact Time) for better contaminant reduction. For example, a nominal 10 - inch block will provide an EBCT of 10 -15 seconds, while a typical 21/2 inch EOT block gives only 3 seconds EBCT. Devices designed for slower flow rates, e.g., 0.5 gpm (gallons per minute) versus 1.0 gpm will provide longer contact times and better percentage contaminant reduction.


Use of higher concentrations of MetSorb® HMRP will also improve heavy metal reduction efficiencies. Uniform dispersion of MetSorb® HMRP in the carbon matrix is important for maximum performance. MetSorb® HMRP is thermally stable and nonorganic. It will not change characteristics, vent off-gases or odors or lose performance when used at typical carbon block processing temperatures. MetSorb® HMRP would remain thermally stable when processed under these manufacturing cycle times or in general kept below 575°F (300°C.).

MetSorb® HMRP Adsorbent Specifications
HMRP Powder
Appearance White powder
Moisture Content <10%
Average Particle Size ≤ 50 microns
Other Easily dispersed in carbon-poly binder matrix
Bulk Density 0.30 grams per cc
Peak Density 20 pounds/cubic foot
MetSorb® HMRP Adsorbent Product Features/Benefits
Use of HMRP affords high capacity, excellent kinetics and a low level of competing ion interference. HMRP’s adsorbent’s adsorptive capacity for lead is high, so that low concentrations– typically between 5% and 10% can be used for nominal 10 - inch carbon blocks, providing 1000 to 4000 gallons of performance. Higher concentrations of MetSorb® HMRP will provide longer useful life and significantly lower effluent contaminant levels. Higher concentrations of MetSorb® HMRP are also required for smaller carbon blocks typically used for EOT devices, because of reduced total volume and short contact time. Performance of MetSorb® HMRP is generally insensitive to pH–indicating no pH adjustment of influent water is required. Devices utilizing MetSorb® HMRP will provide good performance regardless of geographic area and local water pH. MetSorb® HMRP is very selective for lead in the presence of hardness ions, e.g., calcium and magnesium. Because of the rapid kinetics of lead reduction, use of MetSorb® HMRP in small carbon blocks can provide EOT device design with contact times as short as three seconds.

MetSorb® HMRP Adsorbent is Safe
• MetSorb® HMRP adsorbent is certified and listed under the ANSI/NSF Standard 42 as a component of drinking water systems.
• Removals of heavy metals to meet drinking water standards can be achieved without adding contaminants.
• High adsorbent capacity requires less frequent cartridge handling and replacement.
• MetSorb® HMRP will not “avalanche” lead or other contaminants.
• Spent cartridges have been determined to be nonhazardous and can typically be disposed of in a sanitary landfill as nonhazardous solid waste.

Since water influent quality and contaminants can vary, the user is urged to perform their own independent verification of the nonhazardous character of this spent product containing local contaminants. In addition, some states may have disposal criteria different from Federal guidelines (TCLP).

HMRP Reduces Many Contaminants
• Lead • Uranium
• Arsenic III and Arsenic V • Copper
• Mercury • Zinc
• Selenium • Chromium +6
• Cadmium • Antimony


The Adsorption isotherms for MetSorb’s HMRP measured at both pH 5 and 7 are nearly identical, demonstrating lead reduction performance is insensitive to water pH.

The above chart demonstrates the effectiveness of MetSorb® HMRP in reducing lead at 6.5 pH. Commercial applications of Graver’s MetSorb® adsorbent products have been certified under ANSI/NSF Standard 53 for lead reduction, requiring performance at both 6.5 and 8.5 pH.

© Graver Technologies, 2008.

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