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Reports published by Gulf R&D Co. and Battelle Columbus Laboratories under contract to the Coordinating Research Council's APRAC project group CAPE-24 were reviewed. Both studies failed to verify the accuracy of polynuclear aromatic hydrocarbon (PNA) emission measurements from heavy-duty diesel engines. Thermal decomposition and chemical reactions of the PNA occur in raw exhaust at temperatures above 500°F. Therefore, pipes which transfer exhaust to dilution tunnels can significantly reduce the apparent emission values. Dilution tunnel conditions have comparatively little effect on PNA measurements. However, vapor traps are required behind particle filters to assure complete collection of 4-ring PNA compounds. Guidelines are presented for controlling and testing sampling systems for accurate PNA emission measurements.

The United States Council of Automotive Research (USCAR) under the Vehicle Recycling Partnership (VRP) along with our collaborators Argonne National Laboratory (ANL), American Plastic Council (APC) and the Association of Plastic Manufactures in Europe (APME) has been conducting research on automated recovery of plastics from shredder residue. A Belgium company Salyp NV located in Ypres, Belgium has been contracted by the VRP to demonstrate a recovery process that can separate several plastic types including polyurethane foam out of the shredder residue waste stream. One hundred metric tons of shredder residue was supplied from three different metal recycling companies (shredders) including a US metal recycler as well as two different European metal recyclers/shredders. This shredder residue was evaluated and processed by Salyp. This paper explains the separation processes along with processing efficiencies, material characterization, mass balances and the amount of plastics recovered.

A life cycle inventory (LCI) study evaluates the environmental performance of the ULSAB-AVC (UltraLight Steel Auto Body - Advanced Vehicle Concepts) vehicle product system. The LCI quantifies the inputs and outputs of each life cycle stage of the ULSAB-AVC PNGV-gas engine vehicle (998 kg) over the 193,000 km service lifetime of the vehicle. The use phase of the ULSAB-AVC PNGV-diesel engine variant (1031 kg) is also quantified. The data categories measured for each life cycle phase include resource and energy consumption, air and water pollutant emissions, and solid waste production. The ULSAB-AVC LCI study is based on the methods, model and data from the 1999 study by the United States Automotive Materials Partnership (USAMP), a consortium within the United States Council for Automotive Research. This model was modified to represent the ULSAB-AVC PNGV-gas engine vehicle for each life cycle phase as well as the use phase of the PNGV-diesel engine variant.