Technologies, bridge

Oberacker, D.A. Incineration options for disposal of waste pesticides. In Pesticide Waste Disposal Technology Bridges, J.S., Dempsey, C.R., Eds. Noyes Data Corporation Park Ridge, NJ, 1988. Eckenfelder, W.W., Jr. Industrial Water Pollution Control, 2nd ed. McGraw-Hill New York, 1989. McNally, R. Tougher rules challenge future for injection wells. Petrol. Eng. Int. 1987, July, 28-30. Zimpro, Inc. Report on Wet Air Oxidation for Pesticide Chemical Manufacturing Wastes, prepared for G. M. Jett, USEPA Rothchild Wisconsin, 1980. 

Honeycutt, R. Paulson, D. LeBaron, H. Rolofson, G. Chemical treatment options for pesticide wastes disposal. In Pesticide Waste Disposal Technology Bridges, J.S., Dempsey, C.R., Eds. Noyes Data Corporation Park Ridge, NJ, 1988. 

Baestle, L. H., Wakabayashi, T. Sakurai, S. 1999. Status and assessment report on actinide and fission product partitioning and transmutation, an OECD Nuclear Energy Agency review. In Proceedings of the International Conference on Future Nuclear Systems Global 99 Nuclear Technology - Bridging the Millenia , Jackson Hole, CD-ROM. 

Heres, X., Nicol, C., Bisel, L., Baron, P, Ramain, L. 1999. PALADIN A one step process for actinide(III)/fission product separation. Proc. GLOBAL 99, Nuclear Technology - Bridging the Millennia, Jackson Hole, WY, August 29 to September 3, pp. 585-591. 

FIGURE 3.4 Universal extraction process flowsheet (UNEX). (From Law, J.D., Herbst, R.S., Todd, T.A., Wood, D.J., Romanovskiy, V.N., Esimantovskiy, V.N., Smirnov, I.V., Babain, V.A., Zaitsev, B.N. 1999. Global 1999 Nuclear Technology - Bridging the Millennia, August-September 1999, Jackson Hole, WY.)... 

J. Schwarz, E. Beaver and B. Beloff, Sustainability Metrics Making Decisions for Major Chemical Products and Facilities, final report to the U.S. Department of Energy Office of Industrial Technologies, BRIDGES to Sustainability, Houston, 2000. 

The first polymers were developed in 1862, known as semi-synthetics and formed a technological bridge between natural (those produced by trees, plants and insects) and fully synthetic polymers. Semi-synthetic plastics were made by treating a natural material chemically to modify its properties, usually with the aim of producing a mouldable product. In 1909, the first fully synthetic polymer was produced by reacting two chemicals (monomers) together. 

HART, R.S., The potential and justification for small nuclear power plants, GLOBAL 99 (Proc. Int. Conf Jackson Hole, Wyoming, USA, August 29-September 3,1999) Nuclear Technology-Bridging the Millennia ANS Order 700264 ISBN 0-89448-641-1. 

Ko, F. K., Nanoflber Technology Bridging the Gap between Nano and Macro World, iaNanoengineered Nanoflbrous Materials. 2004,1-18. 

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