Laboratory evaluation of amalgam separators

Autor:	Jim Sandrik, William Gasparac, Hwai-Nan Chou, P.L. Fan, Daniel M. Meyer, Hanu Batchu
Rok vydání:	2002
Předmět:	Dentistry Separator (oil production) chemistry.chemical_element Efficiency Dental Amalgam Dental Equipment Waste Disposal Fluid stomatognathic system Water Pollution Chemical Medical Waste Disposal Particle Size United States Environmental Protection Agency General Dentistry Effluent business.industry Dental Waste technology industry and agriculture Mercury Pulp and paper industry United States Additional research Mercury (element) stomatognathic diseases Wastewater chemistry Environmental science Particle size business Water Pollutants Chemical Waste disposal
Zdroj:	The Journal of the American Dental Association. 133:577-589
ISSN:	0002-8177
DOI:	10.14219/jada.archive.2002.0233
Popis:	Background Amalgam in dental wastewater is receiving increasing scrutiny from regulators because of national, state and local initiatives to reduce or virtually eliminate the discharge of mercury and mercury-containing items into the environment. Amalgam separators are considered to be one means of reducing the amount of amalgam that dental offices discharge into sewers. The purpose of this study was to evaluate the amalgam removal efficiency of commercially available amalgam separators and the total mercury concentration in the effluent from laboratory testing. Methods The authors evaluated the amalgam removal efficiency of 12 amalgam separators according to International Organization for Standardization, or ISO, Standard 11143 for Amalgam Separators. Total mercury concentration in the effluent was calculated using the mass of amalgam particles larger than 1.2 micrometers and the volume of effluent, together with U.S. Environmental Protection Agency, or EPA, Method 245.1 for amalgam particles smaller than 1.2 μm. Total dissolved mercury also was determined. Results The results show that all 12 amalgam separators exceeded the ISO 11143 requirement of 95 percent amalgam removal efficiency. Statistical differences were found in the efficiencies of the separators. Both the total mercury concentration and total dissolved mercury concentration in the effluent demonstrated large variations. Conclusions and Clinical Implications This laboratory evaluation shows that amalgam separators removed at least 96.09 percent of the amalgam in samples with particle-size distribution as specified in ISO 11143. Total mercury concentration and total dissolved mercury concentration in the effluent varied widely for each amalgam separator. Additional research is needed to develop test methods to evaluate the efficiency of amalgam separators in removing small amalgam particles, colloidal amalgam particles and ionic mercury in solution.
Databáze:	OpenAIRE
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