Recycling Europe

Noone, A., PET Recycling, Europe, Supply and Demand Report, 4th Edn, PET Packaging Resin and Recycling, Ltd, PCI, Derby, UK, 1999, Section 2. 

PETCORE, PET Recycling Europe, [http //www.petcore.org/envir-recprod-01.html], March, 2001. 

PET Container Recycling Europe, Eastman Announces Breakthrough in PET Packaging Recycling, PETCORE, 1(2), Dec. 1999. 

Polyamid 2000 in Germany was another large commercial carpet recycling facility. With a capacity to recycle 120 thousand tons of unsorted carpet each year, it was in operation from 2001 to 2003. A major source of carpet supply was Carpet Recycling Europe (CRE). It employed a process similar to the 6ix Again sequence to depolymerize nylon 6, and produced resin compounds from nylon 6,6 face fibers. 

Plasteurope. PET Recycling Europe, Press Release. Germany Plasteurope 2013. 

PET Container Recycling Europe, PET Container Recycling—Strong as Ever, PET-CORE, 3( ), April 2001. 

Liquid-phase oxidation of lower hydrocarbons has for many years been an important route to acetic acid [64-19-7]. In the United States, butane has been the preferred feedstock, whereas ia Europe naphtha has been used. Formic acid is a coproduct of such processes. Between 0.05 and 0.25 tons of formic acid are produced for every ton of acetic acid. The reaction product is a highly complex mixture, and a number of distillation steps are required to isolate the products and to recycle the iatermediates. The purification of the formic acid requires the use of a2eotropiag agents (24). Siace the early 1980s hydrocarbon oxidation routes to acetic acid have decliaed somewhat ia importance owiag to the development of the rhodium-cataly2ed route from CO and methanol (see Acetic acid). 

Economic Aspects. The 1992 MEK nameplate capacity for the United States, East Asia, and Western Europe is Hsted in Table 5. During the period 1980—1989 MEK achieved a negative growth rate as demand dropped from 311,000 (48) to 228, 000 t/yr (49). Stricter VOC regulations were largely responsible for the decline, and the trend will continue as solvent recovery and recycling, as well as substitution away from MEK, take effect. 

Supply Projections. Additional supphes are expected to be necessary to meet the projected production shortfall. A significant contribution is likely to come from uranium production centers such as Eastern Europe and Asia, which are not included in the capabihty projections (27). The remaining shortfall between fresh production and reactor requirements is expected to be filled by several alternative sources, including excess inventory drawdown. These shortfalls could also be met by the utili2ation of low cost resources that could become available as a result of technical developments or pohcy changes, production from either low or higher cost resources not identified in production capabihty projections, recycled material such as spent fuel, and low enriched uranium converted from the high enriched uranium (HEU) found in warheads (28). 

Canadian consumption of recovered paper is about 4 million t/yr, much of it imported from the United States. Paper recycling continues to grow worldwide, particularly in Europe and the Pacific Rim. Worldwide use of recycled paper is expected to increase from nearly 75 million tons in 1988 to 130 million tons in 2001 (58). 

Poly(ethylene terephthalate) (PET) is one of the most extensively recycled polymeric materials. In 1995, 3.5 x 104 tons of PET were recycled in Europe.1 The main reason for the widespread recycling of PET is its extensive use in plastic packaging applications, especially in the beverage industry as plastic bottles. The consistency in terms of volume and availability of postconsumer bottles from sorting facilities and its high material scrap value create an excellent economic environment for PET recycling. 

The eurrent and future levels of plastic packaging recycling is discussed with reference to the imminent updating of the 1994 Paekaging and Packaging Waste Directive. Data are ineluded relating to current recovery levels by eountry for western Europe, for mechanical and... 

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