Lead Recovery Technology

USEPA. (2003). Innovative Technology Evaluation Report Electrochemical Design Associates (Formerly Geokinetics International, Inc.) Lead Recovery Technology Evaluation at the Building 394 Battery Shop. Pearl Harbor Naval Shipyard and Intermediate Maintenance Facility, Honolulu, HI. EPA/540/R-04/506. 

ERDC treatability study predictions of electrokinetic extraction performance EDAs lead recovery technology evaluation... 

Lead Recovery Technology, Electrochemical Design Associates (EDA)... 

Secondary Lead. The emphasis in technological development for the lead industry in the 1990s is on secondary or recycled lead. Recovery from scrap is an important source for the lead demands of the United States and the test of the world. In the United States, over 70% of the lead requirements are satisfied by recycled lead products. The ratio of secondary to primary lead increases with increasing lead consumption for batteries. WeU-organized collecting channels are requited for a stable future for lead (see BATTERIES, SECONDARY CELLS Recycling NONFERROUS METALS). 

The technological advances in the lead/acid accumulators field have made lead recovery easier and safer for the enviroiunent. At the same time, the lead metallurgy has become environmentally friendly as well. 

Wyman, C. E., Dale, B. E., Elander, R. T., Holtzapple, M, Ladisch, M. R., Lee, Y. Y. (2005). Comparative sugar recovery data from laboratory scale application of leading pretreatment technologies to com stover. Bioresource Technology, 96, 2026-2032. 

R. M. Reynolds, E. K. Hudson and M. Olper, "The Engitec CX Lead-Acid Battery Recovery Technology." 1st ISBWM, Florida, November 1989. 

Lead Photo KBR s SCORE (Selective Cracking Optimum REcovery) technology is used at the Olefins Plant of Saudi Kayan Petrochemical Complex (A project of SABIC) in Al Jubail, Kingdom of Saudi Arabia. The photo shows the ethane/ butane cracking furnaces, which are part of this 1.35 million tpy cracker scheduled to startup in second quarter 2010. Photo courtesy of Saudi Kayan. 

United States Environmental Protection Agency (EPA) SITE Program. (2003). Electrochemical Design Associates, lead recovery evaluation, building 394 battery shop Pearl Harbor Naval Shipyard and Immediate Maintenance Facility. Innovative Technology Evaluation Report. http //www.epa.gov/ORD/SITE/, EPA540/R-04/506 (accessed April... 

Wu RL, Wang XL, Li F, li HZ, Wang YZ (2009) Green eomposite films prepared from cellulose, starch and lignin in room-temperature ionic liquid. Bioresour Technol 100 2569-2574 Wyman CE, Dale BE, Elander RT, Holtzapple M, Ladisch MR, Lee YY (2005) Comparative sugar recovery data from laboratory scale application of leading pretreatment technologies to corn stover. Bioresour Technol 96 2026-2032... 

This is an extremely flexible technology, with a number of beneficial features. It can deal with a wide variety of feed and lead scrap materials can be directly charged into the reactor. It can use either coal or natural gas as a reducing agent. Lead recovery is high and a range of by-products can be produced. 

Other refining technologies, such as hydrometallurgical or aqueous processes, using chemical treatment or solvent extraction and electrolysis, are still in the development phase in the primary sector. They have made some inroads in secondary lead recovery, however, and are discussed in Chapter 6. 

Asahi Chemical Industries (ACl, Japan) are now the leading producers of cuprammonium rayon. In 1990 they made 28,000 t/yr of filament and spunbond nonwoven from cotton ceUulose (65). Their continuing success with a process which has suffered intense competition from the cheaper viscose and synthetic fibers owes much to their developments of high speed spinning technology and of efficient copper recovery systems. Bemberg SpA in Italy, the only other producer of cuprammonium textile fibers, was making about 2000 t of filament yam in 1990. 

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