Recycling reprocessing

Also called regrind and reclaiming. Most processing plants have been reclaiming/ recycling reprocessable TP materials such as molding flash, rejected products, blown... 

Trends in legislation suggest that the costs associated with solvent storage, recycling, reprocessing, and disposal will increase relative to the other costs. 

Conversion of Natural / U Recycle Conversion of Uronyl Nitrate Recycle Reprocessing ... 

Beneficial use of waste by-products Recycling/reprocessing Production of secondary raw materials Terminal wastes disposal Prevention of secondary pollution... 

Purchase of activated carbon for removal of chlorinated solvents from vapor emissions is similar to purchase of cleaning solvents. One may purchase virgin material (solvent or carbon) from a manufacturer or distributor. Or one may purchase recycled (reprocessed) material... 

Recycle-reprocessing into useful materials and making new products,... 

IVfechamcally recycle. Reprocess to the same or secaidaiy applicatiai... 

Oil recycling Oil Recycling Act Oil Red [85-83-6] Oil refineries Oil reprocessing Oil re-refimng Oil resistance... 

Uranium-239 [13982-01 -9] has a half-life of 23.5 min neptunium-239 [13968-59-7] has a half-life of 2.355 d. Recycling or reprocessing of spent fuel involves separation of plutonium from uranium and from bulk fission product isotopes (see Nuclearreactors, chemical reprocessing). 

Neptunium has been recovered during the reprocessing of defense-related fuels. The is recycled back to a reactor where it is transmuted to... 

Concern about the potential diversion of separated reactor-grade plutonium has led to a reduction ia U.S. governmental support of development of both plutonium recycle and the Hquid metal reactor. This latter ultimately depends on chemical reprocessing to achieve its long-range purpose of generating more nuclear fuel than it bums ia generating electricity. 

Recycling of HDPE. Polyolefins, including HDPE, are the second most widely recycled thermoplastic materials after PET (110). A significant fraction of articles made from HDPE (mostly bottles, containers, and film) are collected from consumers, sorted, cleaned, and reprocessed (110—113). Processing of post-consumer HDPE includes the same operations as those used for virgin resins blow mol ding, injection molding, and extmsion. 

Furthermore, increased governmental scmtiny of chemical substances will make it more difficult to bring a new product to market. The choice of comonomers and copolymers maybe based pardy on EPA, EDA, OSHA, and TSCA rulings. In addition to these regulations, the thmst toward recycling polymers is expected to impact copolymer production. The abiUty to recover and reprocess these materials will be a key factor for economic success. 

This ammonia is recycled to the reactor via a compressor and a heater. Liquid ammonia is used as reflux on the top of the absorber. The net amount of carbon dioxide formed in the reactor is removed as bottom product from the absorber in the form of a weak ammonium carbamate solution, which is concentrated in a desorber-washing column system. The bottom product of this washing column is a concentrated ammonium carbamate solution which is reprocessed in a urea plant. The top product, pure ammonia, is Hquefted and used as reflux together with Hquid makeup ammonia. The desorber bottom product, practically pure water, is used in the quench system in addition to the recycled mother Hquor. 

When RPs are granulated, the lengths of the fibers are reduced. On reprocessing with virgin materials or alone, their processability and product performances are definitely change. So it is important to determine if the change will affect final product performances. If it will, a limit for the amount of regrind mix should be determined or no recycled RP is to be used. Use it in some other product such as simulated wood. 

Recent process development efforts have been devoted to more expeditious and less costly pyrochemical reprocessing of residues created by the metal preparation and purification process. We intend to establish an internal recycle which yields either reusable or discardable residues and recovers all plutonium for feed to the electrorefining purification system. This internal recycle is to be performed in a more timely and less costly operation than in the present reprocessing mode. 

The goal in any salt recycle system is to keep the system as simple as possible and to use compatible reagents for each of the steps processing, recovery, and reprocessing. In evaluating potential recycle schemes, these two considerations will play an important role. 

Polyurethane materials are extremely versatile in that it is possible to produce a large variety of structures which range in properties from linear and flexible to crosslinked and rigid. The crosslinked PURs are thermosets, which are insoluble and infusible and therefore cannot be reprocessed by extrusion without suffering extensive thermal degradation. At present, the main sources of recyclable waste are flexible PUR foams and automobile waste. Waste and scraps of these materials may consist of 15-25% by weight of total PUR foam production. 

Contamination problems act as a barrier to the recycling of PET bottle waste. The presence of impurities that generate acid compounds at the high temperatures reached during the extrusion process prior to blow molding is a major problem in the reprocessing of PET because chain cleavage reactions are acid catalyzed. EVA... 

A surprisingly low concentration of water can reduce the viscosity such that reclaimed PET cannot be used for the blow molding of bottles with acceptable physical properties. The established solution to the moisture problem is to dry the recycled PET in special dryers prior to use. However, the drying process is both time and energy intensive. Paper labels can cause problems in PET recycling if they decompose during washing and removal. The paper fibers formed can produce cellulose fibers that are difficult to remove from the reprocessed PET.1... 

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