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Waste management extraction

The geologic aspects of waste disposal (24—26), proceedings of an annual conference on high level waste management (27), and one from an annual conference on all types of radioactive waste (28) are available. An alternative to burial is to store the spent fuel against a long-term future energy demand. Uranium and plutonium contained in the fuel would be readily extracted as needed. [Pg.230]

Shah, D.B. and Phadke, A.V., Lead removal of foundry waste by solvent extraction, Journal of Air and Waste Management, 45, 150-155, 1995. [Pg.194]

Campagnolo, J.F. and Akgerman, A., Modeling of soil vapor extraction (SVE) systems—Part I, Waste Management, 15, 379-389, 1995. [Pg.568]

LCI, where the system is quantified in a strict format of linked processes. Each process is described in terms of the physical inputs and outputs, both economic (raw materials, materials, products) and environmental (extractions from and emissions to the environment). Out of the total, an ecological profile is compiled listing and adding up all extractions and emissions of the system. An important methodological issue is allocation how to deal with multi-output processes This issue is especially important when dealing with waste management processes and will be dealt with below. [Pg.9]

Kim K-R, Owens G, Ok YS, Park W-K, Lee DB, Kwon S-I (2012) Decline of extractable antibiotics in manure-based composts during composting. Waste Manage 32 110-116... [Pg.136]

Solvent exposure tests, on plastics, 79 583 Solvent extraction, 70 744-746, 781-782 advantage of, 70 746 for aroma isolation, 77 518 in food processing, 70 787 in hazardous waste management,... [Pg.870]

Two-phase vacuum extraction (TPVE) in hazardous waste management, 25 845 Two-phase zeolite-based alkylation, 23 331-332... [Pg.979]

Yuan, D., Schuring, J. R., and Chan, P. C., 1999, Volatile Contaminant Extraction Enhanced by Pneumatic Fracturing Practice Periodical of Hazardous, Toxic, and Radioactive Waste Management, April, pp. 69-76. [Pg.328]

Clausen, C.A. (2004a). Inproving the two-step remediation process for CCA-treated wood part I. Evaluating oxalic acid extraction. Waste Management, 24(4), 401-405. [Pg.205]

Kazi, E.K.M. and Cooper, P.A. (2002). Rapid extraction oxidation process to recover and reuse copper chromium and arsenic from industrial wood preservative sludge. Waste Management, 22(3), 293-301. [Pg.212]

Nami Kartal, S. (2003). Removal of copper, chromium, and arsenic from CCA-C treated wood by EDTA extraction. Waste Management, 23(6), 537-546. [Pg.219]

The European Union passed the Extractive industries waste directive in 2006. The fuii titie of the directive is Directive 2006/21/EC of the European Pariiament and of the Councii on the management of waste from extractive industries and amending Directive 2004/35/EC ... [Pg.547]

Moses, J. Abrishamian, R. Case study SITE program puts critical fluid solvent extraction to the test. Hazardous Waste Management Magazine 1988, JanjFeb. [Pg.304]

T0782 Terra-Kleen Response Group, Inc., Solvent Extraction Technology T0867 Waste Management, Inc., DeChlor/KGME Process... [Pg.96]

Nzihou, A. Sharrock, P. 2002. Calcium phosphate stabilization of fly ash with chloride extraction. Waste Management, 22, 235-239. [Pg.471]

Babain, V.V., Shadrin, A.Yu. 1999. New extraction technologies for management of radioactive wastes. In Chemical Separation Technologies and Related Methods of Nuclear Waste Management Application, Problems and Research Needs. Choppin, G.R., Khankhasayev, M.Kh. Eds. Kluwer Academic, Netherlands, pp. 135-154. [Pg.38]

Mahajan, G.R. Prabhu, D.R. Manchanda, V.K. Badheka, L.P. Substituted malon-amides as extractants for partitioning of actinides from nuclear waste solutions, Waste Management 18 (1998) 125-133. [Pg.107]

Wai, C.M. Supercritical fluid extraction of radionuclides A green technology for nuclear waste management, ACS Symposium Series 943 (2006) 161-170. [Pg.114]

Figure 5.4. 13C CPMAS TOSS NMR spectra of free and bound fulvic and humic acids extracted from the woodland and stubbed sections of the Broadbalk experiment before and after incubation for about 5 months at 25 °C. Areas in black and gray indicate, respectively, a decrease and an increase of the corresponding signals after incubation. Reprinted from De Nobili, M., Contin, M., Mahieu, N., Randall, E. W., and Brookes, R C. (2008). Assessment of chemical stabilization of organic C in soils from the long-term experiment at Rothamsted (UK). Waste Management 28, 723-733, with permission from Elsevier. Figure 5.4. 13C CPMAS TOSS NMR spectra of free and bound fulvic and humic acids extracted from the woodland and stubbed sections of the Broadbalk experiment before and after incubation for about 5 months at 25 °C. Areas in black and gray indicate, respectively, a decrease and an increase of the corresponding signals after incubation. Reprinted from De Nobili, M., Contin, M., Mahieu, N., Randall, E. W., and Brookes, R C. (2008). Assessment of chemical stabilization of organic C in soils from the long-term experiment at Rothamsted (UK). Waste Management 28, 723-733, with permission from Elsevier.

See other pages where Waste management extraction is mentioned: [Pg.2000]    [Pg.249]    [Pg.313]    [Pg.263]    [Pg.67]    [Pg.488]    [Pg.41]    [Pg.556]    [Pg.325]    [Pg.4]    [Pg.42]    [Pg.938]    [Pg.959]    [Pg.959]    [Pg.285]    [Pg.410]    [Pg.411]    [Pg.21]    [Pg.66]    [Pg.100]    [Pg.173]    [Pg.618]    [Pg.619]    [Pg.637]    [Pg.206]    [Pg.347]   
See also in sourсe #XX -- [ Pg.68 , Pg.69 , Pg.70 ]




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