Your search keyword '"Melymuk L"' showing total 2 results

1. Exposure of Canadian electronic waste dismantlers to flame retardants.

Author

Nguyen LV, Diamond ML, Venier M, Stubbings WA, Romanak K, Bajard L, Melymuk L, Jantunen LM, and Arrandale VH

Subjects

Canada, Dust analysis, Female, Halogenated Diphenyl Ethers chemistry, Halogenation, Humans, Male, Occupational Exposure, Organophosphates chemistry, Electronic Waste analysis, Flame Retardants analysis

Abstract

Exposure of e-waste workers to eight halogenated and five organophosphate ester flame retardant chemicals (FRs) was studied at a Canadian e-waste dismantling facility. FR concentrations were measured in air and dust samples collected at a central location and at four work benches over five-24 hour periods spanning two weeks. The highest concentrations in air from workbenches were of BDE-209 (median 156 ng m -3 ), followed by Tris(2-chloroethyl) phosphate (TCEP, median 59 ng m -3 ). Dust concentrations at the workbenches were higher than those measured at the central location, consistent with the release of contaminated dust during dismantling. Dust concentrations from the workbenches were also dominated by BDE-209 (median 96,300 ng g -1 ), followed by Triphenyl phosphate (TPhP, median 47,000 ng g -1 ). Most FRs were in coarse particles 5.6-18 μm diameter and ~30% were in respirable particles (<~3 μm). Exposure estimates indicated that dust ingestion accounted for 63% of total FR exposure; inhalation and dermal absorption contributed 35 and 2%, respectively. Some air and dust concentrations as well as some estimated exposures in this formal facility in a high-income country exceeded those from informal e-waste facilities located in low and middle income countries. Although there is demonstrated toxicity of some FRs, FR exposure in the e-waste industry has received minimal attention and occupational limits do not exist for most FRs., (Copyright © 2019. Published by Elsevier Ltd.)

Published

2019

2. Estimation of PCB stocks, emissions, and urban fate: will our policies reduce concentrations and exposure?

Author

Diamond ML, Melymuk L, Csiszar SA, and Robson M

Subjects

Canada, Polychlorinated Biphenyls toxicity, Environmental Exposure, Polychlorinated Biphenyls analysis, Urban Population

Abstract

PCBs, used to manage risks from the flammability of dielectric fluids and to increase the durability of elastic sealants, had declining environmental concentrations after legislation banning new production was passed during the 1970s and 1980s in Europe and North America. To answer why PCB temporal trends are now nearly stable and if current policies will further reduce concentrations and our exposure, we estimated PCB stocks in Toronto, Canada (population of approximately 2.5 million) of 437 (282-796) tonnes, of which 97 and 3% are in closed sources and building sealants, respectively. The greatest geographic density of PCBs is downtown, specifically in commercial, electricity-intensive skyscrapers. An unknown stock is within now-buried landfills and other waste-handling facilities as well as diffuse sources such as electrical wiring and paints. Using the Multimedia Urban Model, we estimated city-wide emissions of approximately 0.14-1.4 mg m(-2) y(-1) or 35-350 mg capita(-1) y(-1) of SigmaPCB(70), which is approximately 0.01-0.3% annually of total documented stocks. Canada, as one of 159 signatories of the Stockholm Convention and the 35 parties that have reported progress toward environmentally sound management of their PCB inventories by 2028, has passed national legislation with a timetable of inventory reductions. It is unclear whether this legislation will successfully reduce concentrations and exposures, however the analysis should inform our management of other contaminants.

Published

2010