Сорбция Np и Pu на коллоидных частицах оксидов Fe (III) и Mn (IV) в присутствии гуминовых кислот
Диссертация
Важной характеристикой описания свойств ГК относительно металла является константа устойчивости комплексов Д определение которой является нетривиальной задачей в связи с трудностью определения концентрации лигапда. Полиэлектролитическая природа ГК ведет к невозможности установления стехиометрии их взаимодействия с металлом, к влиянию концентрации металла на значение константы устойчивости… Читать ещё >
Список литературы
- Kim J.I. Aclinide colloid generation in groundwater. // Radiochim.Acta. 1991, Vol.52 (3), P. 71−81
- Degueldre C., Triay I., Kim J.I., Vilks P., Laaksoharji M., Miekeley N. Groundwater Colloid Properties: a Global Approach. // Appl. Geochem. 2000, Vol. 15(7), P. 1043−1051
- Marquardt C.M., Seibert A., Artinger R., Denecke M.A., Kuczewski В., Schild D., Fanghanel Th. The redox behaviour of plutonium in humic rich groundwater. // Radiochim.Acta. 2004, Vol. 92, P. 617−623
- Reiller P., Casanova F., Moulin V. Influence of addition order and contact time on Thorium (IV) retention by hematite in the presence of Humic Acids. //Environ. Sci. Technol. 2005, Vol. 39, P. 1641−1648
- Morse J.W., Choppin G.R. The Chemistry of Transuranic Elements in Natural Waters. // Reviews in Aquatic Sciences. 1991, Vol. 4(1), P. 1−22
- Kersting A.B., Efurd D.W., Finnegan D.L. Rokop D.J., Smith D.K., Thompson J.L. Migration of plutonium in Ground Water at Nevada Test Site. // Nature (London). 1999, Vol. 396 (6714), P. 56−59
- Penrose W.R., Polzer W.L., Essington E.H., D. M. Nelson, K.A. Orlandini. Mobility of Plutonium and Americium Through a Shallow Aquifer in a Semiarid Region. //Environ. Sci. Technol. 1990, Vol. 24 (2), P. 228−234
- McCarthy J.F., Zachara J.M. Subsurface Transport of Contaminant. // Environ. Sci. Technol. 1989, Vol. 23, P. 496−502
- Myasoedov B.F., Novikov A.P. Main sources of radioactive contamination in Russia and methods for their determination and speciation. // J.Radioanal.NucI.Chem. 1998, Vol. 229, P. 33−38
- Sanchez A.L., Murray J.W., Sibley Т.Н. The adsorption of plutonium IV and V on goethite. // Geochim.Cosmochim.Acta. 1985, Vol. 49, P. 2297−2307
- Waite T.D., Davis J.A., Payne Т.Е., Waychunas G.A., Xu N. Uranium (VI) adsoption to ferrihydrite: application of a sufface complexation model. // Geochim.Cosmochim.Acta. 1994, Vol. 58 (24), P. 5465−5478
- Powell B.A., Fjeld R.A., Kaplan D.I., Coates J.T., Serkis S.M., Pu (V)02+ adsorption and reduction by synthetic hematite and goethite. // Environ. Sci. Technol. 2005, Vol. 39, P. 2107−2114
- Shaughnessy D.A., Nitshe H., Shuh D. Complexation and Redox Interactions between aqueous Plutonium and Manganese Oxide Interfaces. // J.Nucl.Sci.Technol. 2002, Suppl.3, P. 274−277
- Morgenstern A., Choppin G.R. Kinetics of the oxidation of Pu (IV) by manganese dioxide. // Radiochim.Acta. 2002, Vol. 90, P. 69−74
- Keeney-Kennicutt W.L., Morse J.W. The redox chemistry of Pu (V)02+ interaction with common mineral sarfaces in dilute solutions and seawater. //Geochim.Cosmochim.Acta. 1985, Vol. 49, P. 2577−2588
- Nagasaki Sh., Tanaka S., Todoriki M., Suzuki A. Surface sorption and surface diffusion of Np02+ with poorly crystallized ferric oxide. // J. Alloys and Compounds. 1998, Vol. 271−273, P. 252−256
- Stehhouse M.J., Pottinger J. Comparison of Sorption Databases Used in Recent Performance Asssessments Involving Crystalline Host Rock. // Radiochim.Acta. 1994, Vol. 66(7), P. 267−275
- Орлов Д. С, Садовникова JI.K., Саврова А. Л. Сравнительное изучение сорбционного поглощения тяжелых металлов гуминовыми кислотамиразличного происхождения. // Докл. РАН, сер. Теохимия". 1995, Т. 345(4)
- Thurman Е.М. Organic geochemistry of natural waters. // Martinus Nijhof, Dr. W. Junk Publishers. Dordrecht, The Netherlands. 1985, P. 451−455
- Artinger R., Marquardt C.M., Kim J.I., Seibert A., Trautmann N., Kratz J.V. Humic colloid-borne Np migration: influence of the oxidation state. // Radiochim.Acta. 2000, Vol. 88, P. 609−612
- Andre C., Choppin G.R. Reduction of Pu (V) by humic acid. // Radiochim.Acta. 2000, Vol. 88, P. 613−616
- Artinger R., Kienzler В., Schuessler W., Kim J.I. Effects of Humic Substances on the 24lAm Migration in Sandy Aquifer: Column Experiments with Gorleben Groundwater/Sediment Systems. // J. Contaminant Hydrology. 1998, Vol. 35(1−3), P. 261−275
- Kim J.I., Delakowitz В., Zeh P., Klotz D., Lazik D. A Column Experiment for Study of Colloidal Radionuclide Migration in Gorleben Aquifer Systems. //Radiochim.Acta. 1994, Vol. 66 (7), P. 165−171
- Choppin G.R. Role of humics in actinide behavior in ecosystems. // In: Chemical separation technologies and related methods of nuclear waste management. Ed. G.R. Choppin and M.Kh. Khankhasayev. Kluwer Academic Publishers. 1999, P. 247−260
- Nash K., Fried Sh., Friedman A.M., Sullivan J.C. Redox Behavior, Complexing, and Adsorption of Hexavalent Actinides by Humic Acid and Selected Clays. //Env.Sci.Tech. 1981, Vol. 15(7), P. 834−837
- Rao L., Choppin G.R. Thermodynamic Study of the Complexation of Neptunium (V) with Humic Acids. // Radiochim.Acta. 1995, Vol. 69, P. 8795
- Kim J.I., Sekine T. Complexation of Neptunium (V) with Humic Acid. // Radiochim.Acta. 1991, Vol. 55, P. 187−192
- Shcherbina N.S., Perminova I.V., Kalmykov St.N., Kovalenko A.N., Haire R.G., Novikov A.P. Redox and Complexation Interaction of Neptunium (V)with Quinonoid-Enriched Ilumic Derivatives. // Environ. Sei. Tech. 2007. (DOI: 10.1021/es0704150
- Сапожников Ю.А., Алиев P.A., Калмыков C.H. Радиоактивность окружающей среды. Москва. БИНОМ, Лаборатория знаний. 2006
- Hanson W.C. Transuranic Elements in the Environment. // U.S.Department of Energy. Springfield, VA. 1980, P. 728−735
- Мясоедов Б.Ф. Радиоактивное загрязнение окружающей среды и возможности современной радиохимии в области мониторинга. // Вопросы радиационной безопасности. 1997, Т. 1, С. 3−16
- Choppin G.R., Wong P.J. The chemistry of actinide behavior in marine systems. //Aquatic Geochemistry. 1998, Vol. 4(1), P.77−101
- Fukuda K., Danker W., Lee J.S., Bonne A., Crijns M.J. IAEA Overview Global Spent Fuel Storage. IAEA-CN-102/60. 2003, P. 3−11
- Nuclear Technology Review 2006. IAEA, Vienna 2006
- Ewing R.C. Plutonium and «minor» actinides: safe sequestration. // Earth and Planetary Science Letters. 2005, Vol. 229, P. 165−181
- Кочкин Б.Т. Геологический подход к выбору районов захоронения радиоактивных отходов. Москва, Наука. 2005, С. 4−6,43−50
- Geological Disposal of Radioactive Waste review of developments in the last decade. OECD NEA. 1999
- Global Nuclear Energy Partnership Strategic Plan. GNEP-167 312, U.S. Department of Energy, Office of Nuelear Energy, Office of Fuel Cycle Management. January 2007, P. 1−10
- Спицин В.И., Пименов M.K., Балуком В. Д. Основные предпосылки и практика использования глубоких водоносных горизонтов для захоронения жидких радиоактивных отходов. // Атомная энергия. 1978, Т. 44(2), С. 161−163
- Подземное захоронение радиоактивных отходов. Серия изданий по безопасности. Вена: МАГАТЭ. 1981, Т. 54.
- Hoffman D.C., Choppin G.R. Chemistry related to isolation of high level nuclear waste. //J.Chem.Education. 1986, Vol. 63(12), P. 1059−106 445. www.andra.fr46. www.nagra.ch
- Choppin G.R., Rydberg J. Nuclear Chemistry: Theory and Applications. // Pergamon Press, Elmsford, NY, P. 667−678
- Seltborg P. Source Efficiency and High-Energy Neutronics in Accelerator-Driven Systems. Doctoral Thesis. Royal Institute of Technology, Stockholm, 2005
- Vitorge P., Capdevila II., Maillard S., Faure M.-H., Vercouter Th. Thermodynamic Stabilities of M02+x (s) (M = U, Np, Pu and Am), Pourbaix diagrams. // International Conference Hayama. Japan. 2001
- Choppin G.R. Environmental behavior of actinides. // Czech. J. Phys. 2006, Vol.56, Suppl. D, P. 13−21
- Neck V., Kim J.I., Seidel B.S., Marquardt C.M., Dardenne K., Jensen M.P., Hauser W. A spectroscopic Study of the Hydrolysis, Colloid Formation and Solubility ofNp (IV). // Radiochim.Acta. 2001, Vol. 89, P. 436−446
- Flury M., Harsh J.B. Fate and Transport of Plutonium and Americium in the Subsurface of OU 7−13/14. Washington State University, Pullman. 2003
- Choppin G.R. Actinide speciation in the environment. // Radiochim. Acta. 2003, Vol. 91, P. 645−649
- Neck V., Kim J.I. Solubility and Hydrolysis of Tetravalent Actinides. // Radiochim.Acta. 2001, Vol. 88, P. 1−16
- Lemire R.J., Fuger J., Nitsche H. Chemical Thermodynamics of Neptunium and Plutonium. 2001, Vol. 4. Edited by OECD Nuclear Energy Agency, Data Bank, Elsevier.
- Haschke J.M., Allen Т.Н., Morales L.A. Equilibrium and thermodynamic properties of the РиОг+х solid solution. // J. Alloys Сотр. 2002, Vol. 336(1), P. 124−131
- Fanghanel Th., Altmaier M., Cho H.R., Marquardt C.M., Neck V., Seibert A., Walther C., Yun J.-I. Solubility and Redox Equilibria of Plutonium. // Conference «Plutonium Futures The Science» Manuscripts. 2006
- Lieser K.H., Muhlenweg U. Neptunium in the hydrosphere and in the geosphere. // Radiochim. Acta. 1988, Vol. 43, P. 27−35
- Katz J.J., Seaborg G.T. The Chemistry of the Actinide Elements. New York, Chapman and Hall. 1986
- Чоппин Г. Р., Бонд A.X. Определение форм существования актинидов в различных степенях окисления. //ЖАХ. 1996, Т. 51(12), С. 1240−1251
- Runde W. The chemical interactions of actinides in the environment. // Chall. Plutonium Sci. 2000, Vol.11 (26), P. 392- 411
- Kaminski M.D., Dimitrijevic N.M., Mertz C.J., Goldberg M.M. Colloids from the aqueous corrosion of uranium nuclear fuel. // J. Nucl. Mat. 2005, Vol. 347(1−2), P. 77−87
- Buck E.C., Bates J.K. Microanalysis of colloids and suspended particles from nuclear waste glass alteration. // Appl. Geochem. 1999, Vol. 14(5), P. 635−653
- Finn P.A., Buck E.C., Gong M., Hoh J.C., Emery J.W., Hafenrichter L.D., Bates J.K. Colloidal Products and Actinide Species in Leachate From Spent Nuclear-Fuel. // Radiochim.Acta. 1994, Vol. 66(7), P. 189−195
- Marty R.C., Bennett D., Thullen P. Mechanism of plutonium transport in a shallow aquifer in Mortandad Canyon, Los Alamos National Laboratory, New Mexico. // Env.Sci.Technol. 1997, Vol. 31, P. 2020−2027
- Litaor M.I., Barth G., Zika E.M., Litus G., Moffitt J., Daniels H. The Behavior of Radionuclides in the Soil of Rocky Flats, Colorado. // J.Environ. Radioactivity. 1998, Vol. 38, P. 17−46.
- Nagasaki S., Tanaka S., Suzuki A. Interfacial Behavior of Actinides with Colloids in the Geosphere. // J. Nuclear Materials. 1997, Vol. 248, P. 323 327
- Degueldre C., Baeyans В., Goerlich W., Riga J, Verbist J, Stadelmann P. Colloids in Water from a Subsurface Fracture in Granitic Rock, Grimsel Test Site, Switzerland. // Geochim.Cosmochim.Acta. 1989, Vol. 53, P. 603 610
- Santschi P.M., Roberts K.A., Guo L. Organic Nature of Colloidal Actinides Transported in Surface Water Environments. // Environ. Sci. Technol.2002, Vol. 36, P. 3711−3719
- Colloid-Facilitated Transport of Low-Solubility Radionuclides: A Field, Experimental, and Modeling Investigation. Ed. by A.B. Kersting, P.W. Reirmus. Lawrence Livermore National Laboratoiy, UCRL-ID-149 688.2003, P. 67−88
- Myasoedov B.F., Drozko E.G. Up-to-date radioecological situation around the 'Mayak' nuclear facility. //J. Alloy. Сотр. 1998, Vol. 271−273, P. 216 220
- Loyland S.M., LaMont S.P., Ilerbison S.E., Clark S.B. Actinide partitioning to an acidic, sandy lake sediment. // Radiochim.Acta. 2000, Vol. 88, P. 793−798
- Warwick P., Allinson S., Beckett K., Eilbeck A., Fairhurst A., Russel-Flint K., Verrall K. Sampling and analyses of colloidal at the Drigg low level radioactive waste disposal site. // J.Environ.Monit. 2002, Vol. 4, P. 229−234
- Kaplan D.I., Powell B.A., Gumapas L., Coates J.T., Fjeld R.A., Diprete D.P. Influence of pi I on Plutonium Desorption/Solubilization from Sediment. // Env.Sci.Technol. 2006, Vol. 40(19), P. 5937−5942
- Wilk P.A., Shaughnessy D.A., Wilson R.E., Nitsche II. Interfacial Interactions between Np (V) and Manganese Oxide Minerals Manganite and Hausmannite. // Environ. Sci. Technol. 2005, Vol. 39, P. 2608−2615
- Sposito G. The Surface Chemistry of Soils. // Oxford University Press, New York. 1984, P. 5−47
- Rabung Th., Geckeis H., Kim J.I., Beck H.P. Sorption of Eu (III) on a Natural Hematite: Application of a Surface Complexation Model. // J.Coll.Interf.Sci. 1998, Vol. 208, P. 153−161
- Ames L.L., McGarrah J.E., Walker B.A., Salter P.F. Sorption of Uranium and Cesium by Hanford Basalts and Associated Secondary Smectite. // Chem.Geol. 1982, Vol. 35, P. 205−225
- Aksoyoglu S. Sorption of U (VI) on granite. // J.Radioanal.Nucl.Chem. 1989, Vol. 134(2), P. 393−403
- Davis J.A., Kent D.B. Surface complexation modeling in aqueous geochemistry in Mineral-Water Interface Geochemistry: Reviews in mineralogy. // Miner. Soc. Am., Washington, DC. 1990, 23, P. 177−260
- Stumm W. Chemistry of the Solid-Water Interface. John Wiley & sons, Inc., New York. 1992
- Щукин Е.Д., Перцев A.B., Амелина E.A. Коллоидная химия. Москва. «Высшая школа». 1992, С. 71−77,209−216, 316−324
- The Kd Model, Methods of Measurement, and Application of Chemical Reaction Codes. // EPA (U.S. Environmental Protection Agency). 1999, P. 2.16−2.26,5.45−5.50
- Hayes K.F., Papelis Ch., Leekie J.O. Modeling Ionic Strength Effects on Anion Adsorption at Hydrous Oxide/Solution Interfaces. // J.Colloid.Interface Sci. 1987, Vol. 125(2), P. 717−726
- Jenne E.A. Adsorption from Aqueous Solutions. // Advances in Chemical Series, 79. Am.Chem.Soc. Washington, DC. 1968
- Krepelova A., Sachs S., Bernhard G. Uranium (VI) sorption onto kaolinite in the presence and absence of humic acid. // Radiochim.Acta. 2006, Vol. 94, P. 825−833
- Banik N.L. Speciation of tetravalent plutonium in contact with Humic Substances and Kaolinite under Environmental Conditions. // Thesis. Johannes Gutenberg-University Mainz, Mainz, 2006
- Fjeld R.A., Serkiz S.M., McGinnis P.L., Elci Al., Kaplan D.I. Evaluation of a conceptual model for the subsurface transport of plutonium involving surface mediated reduction of Pu (V) to Pu (IV). // J. Contam.IIydrol. 2003, Vol. 67, P. 79- 94
- Berner, U. Project Opalinus Clay: Radionuclide Concentration Limits in the Near Field of Repository forSpent Fuel and Vitrified High-Level Waste. // Report of the Paul Scherrer Inst. 2002, P. 02−22
- Sabodina M.N., Kalmykov S.N., Artem’eva K.A., Zakharova E.V., Sapozhnikov Yu.A. Behavior of Cs, Np (V), Pu (IV), and U (VI) in Pore Water of Bentonite. // Radiochemistry. 2006, Vol. 48(5), P. 488−492
- Tsukamoto M., Fujita T. Sorption of Actinides on magnetite and goethite under reducing conditions. // Czechoslovak J.Phys. 2006, Vol. 56, Suppl. D, P. 339−348
- Nakayama Sh., Sakamoto Y. Sorption of Neptunium on Naturally-Occurring iron-containing minerals. // Radiochim.Acta. 1991, Vol. 52/53, P.153−157
- Ермолаев B.M., Захарова E.B., Мироненко M.B., Калмыков С. Н., Власова Н. Э. Изменение состава и свойств радиоактивных пульп в процессе длительного хранения в емкостях. // Радиохимия. 2006, Т. 48(3), С. 272−277
- Pivovarov S. Structure of the oxide-solution interface. // Encyclopedia of Surface and Coloid Science. 2002, P. 1−9
- Pivovarov S. Surface and site density of the oxide solution interface. // J. Colloid Interface Sci. 1997, Vol. 196, P. 321−323
- Hunter K.A., Hawke D.J., Choo L.K. Equilibrium adsorption of thorium by metal oxides in marine electrolytes. // Geochim.Cosmochim.Acta. 1988, Vol. 52, P. 627−636
- Westall J., Zachary J., Morel F. MINEQL: a computer program for calculation of chemical equilibrium composition of aqueous systems. In Technical Note nol8. Ralph M. Parsons Laboratory. 1976
- Kohler M., Honeyman B.D., Leckie J.O. Neptunium (V) sorption on hematite (a-Fe203) in Aqueous Suspension: The effect of C02. // Radiochim.Acta. 1999, Vol. 85, P. 33−48
- Herbelin A.L., Kent D.B. FITEQL, A Computer Program for Determination of Equilibrium Constants from Experimental Data. // Department of Chemistry, Oregon State University, Corvallis. 1994, Ver.3.1, Report 94−01
- Hsi Ch.D., Langmuir D. Adsorption of uranyl onto ferric oxyhydroxides: Application of the surface complexation site-binding model. // Geochim.Cosmochim.Acta. 1985, Vol.45, P. 1931−1941
- Duff M.C., Amrhein C. Uranium (VI) adsorption on goethite and soil in carbonate solutions. // Soil Sci.A.J. 1996, Vol. 60, P. 1393−1400
- Костов И. Минералогия. // «Мир». 1971, С. 218−233
- Marmier N., Fromage F. Comparing electrostatic and non-electrostatic surface complexation modeling of the sorption of lanthanum on hematite. // J. Colloid Interface Sci. 1999, Vol. 212, P. 252−263
- Murphy R.J., Lenhart J J., Honeyman B.D. The binding of thorium and uranium to hematite in the presence of natural organic matter. // Coll.Surf. A Physicochem.Eng.Aspects. 1999, Vol. 157, P. 47−62
- Lenhart J.J., Honeyman B.D. Uranium (VI) sorption to hematite in the presence of humic acid. // Geochim.Cosmochim.Acta. 1999, Vol. 63(19/20), P. 2891−2901
- Cromieres L., Moulin V., Fourest В., Guillaumont R., Giffaut E. Sorption of Thorium onto hematite colloids. // Radiochim.Acta. 1998, Vol. 88, P. 249−255
- Ledin A., Karlsson S., Duker A., Allard B. The adsorption of Europium to Colloidal Iron Oxyhydroxides and Quartz The impact of pH and an aquatic fulvic acid. // Radiochim.Acta. 1994, Vol. 66/67, P. 213−220
- Penners N.H.G., Koopal L.K. Preparation and optical properties of homodisperse haematite hydrosols. // Colloid.Surf. 1986, Vol. 19, P. 337 349.
- Parks G.A., De Bruyn P.L. The zero point of charge of oxides. // J. Phys.Chem. 1962, Vol. 66, P. 967−973.
- Atkinson R.J., Posner A.M., Quirk J.P. Adsorption of potential -determining ions at the ferric oxide aqueous electrolyte interface. // J.Phys.Chem., 1967, Vol. 71(3), P. 550−558
- Baes C.F., Mesner R.E. The hydrolysis of cations. // Wiley-Interscience Publication, New York. 1976, P. 158−162
- Robouch P. Contribution a la prevision du comportement de. l’americium, du plutonium et du neptunium dans la geosphere- donnees chimiques // PhD Thesis. University Louis Pasteur. Strasbourg, 1987
- Nakata K., Fukuda Т., Nagasaki S., Tanaka S., Suzuki A., Tanaka Т., Muraoka S. Sorption of neptunium on iron-containing minerals. // Czech.J.Phys. 1999, Vol. 49, Supp. SI, P. 159−166
- Merchant P., Collins R., Kershaw R., Dwight K., Wold A. The electrical, optical and photoconducting properties of Fe2-xCrx03 (0
- Bargar J.R., Reitmeyer R., Lenhart J.J., Davis J.A. Characterization of U (VI)-carbonato ternary complexes on hematite: EXAFS and electrophoretic mobility measurements. // Geochim.Cosmochim.Acta. 2000, Vol. 64(16), P. 2737−2749
- Payne Т.Е. Uranium (VI) interaction with minerals surfaces: controlling factors and surface complexation modeling. // Ph.D.Thesis, University of New South Wales. 1999, P. 40−101, 173−230
- Viani B.E., Torretto P.C. Sorption and Transport of Uranium on Hematite. // Lawrence Livermore National Laboratory. Report UCRL-ID-129 848. 1998
- Post J.E. Manganese oxide minerals: Crystal structures and economical and environmental significance. // Proc. Natl. Acad. Sci. USA. 1999, Vol. 96, P. 3447−3454
- O’Reilly S.E. Lead Sorption Efficiencies of Natural and Synthetic Mn and Fe-oxides. // Doctor of Philosophy in Geological Sciences. Blacksburg, VA. 2002,
- Matocha Ch.J., Elzinga E.J., Sparks D.L. Reactivity of Pb (II) at the Mn (III, IV) (Oxyhydr)Oxide-Water Interface. // Environ.Sci.Technol. 2001, Vol. 35, P. 2967−2972
- Manning B.A., Fendorf S.E., Bostick В., Suarez D.L. Arsenic (III) Oxidation and Arsenic (V) Adsorption Reactions on Synthetic Birnessite. // Env.Sci.Technol. 2002, Vol. 36(5), P. 976−981
- Villalobos M., Bargar J., Sposito G. Mechanisms of Pb (II) sorption on a biogenic manganese oxide. // Environ.Sci.Technol. 2005, Vol. 39, P. 569 576
- Healy T.W., Herring A.P., Fuerstenau D.W. The effect of crystal structure on the surface properties of a series of manganese oxides. // J.Colloid. Interface Sci. 1966, Vol. 55(2), P. 281−288
- Balistrieri L.S., Murray J.W. The surface chemistry of 8Mn02 in major ion seawater. // Geochim.Cosmochim.Acta. 1982, Vol. 46, P. 1041 -1052
- Al-Attar L., Dyer A., Paajanenb A., llarjula R. Purification of nuclear wastes by novel inorganic ion exchangers. // J. Mater. Chem. 2003, Vol. 13, P. 2969−2974
- Tournassat C., Charlet L., Bosbach D., Manceau A. Arsenic (III) Oxidation by Birnessite and Precipitation of Manganese (II) Arsenate. // Environ. Sci. Technol. 2002, Vol. 36(3), P. 493−500
- Dyer A., Pillinger M., Ilarjulab R., Amin S. Sorption characteristics of radionuclides on synthetic birnessite-type layered manganese oxides. // J. Mater. Chem. 2000, Vol. 10, P. 1867−1874
- Silvester E., Charlet L., Manceau A. Mechanism of Chromium (III) Oxidation by Na-Buserite. // J. Phys. Chem. 1995, Vol. 99, P. 16 662−16 669
- Morgan J.J., Stumm W. Colloid-chemical properties of manganese dioxide. //J.Coll.Sci. 1961, Vol. 19, P. 347−359
- Appelo C.A.J., Postma D. A consistent model for surface Complexation on birnessite (Mn02) and its application to a column experiments. // Geochim.Cosmochim.Acta. 1999, Vol. 63(19/20), P. 3039−3048
- Scott M.J., Morgan J.J. Reactions at oxide surfaces. 2. Oxidation of Se (IV) by synthetic birnessite. // Env.Sci.Technol. 1996, Vol. 30, P. 1990−1996
- Choppin G.R. Humics and Radionuclide Migration. // Radiochim. Acta. 1988, Vol. 44/45, P. 23−28
- Кононова M.M. Органическое вещество почвы. // M., Изд-во МГУ. 1963
- Орлов Д.С. Химия почв. // М., Изд-во МГУ. 1992, С. 259−265
- Орлов Д.С. Свойства и функции гуминовых веществ. // В сб.: Гуминовые вещества в биосфере. М.: Паука. 1993, С. 16−27
- Stevenson F.J. Geochemistry of Soil Humic Substances. // In: Humic substances in soil, sediment and water. Aiken G.R., McKnight D.M., Wershaw R.L., MacCarthy P. (Eds.). N.Y., John Wiley «fe Sons. 1985, P. 13−52
- McDonald S., Bishop A.G., Prenzler P.D., Robards K. Analytical chemistry of freshwater humic substances. // Anal. Chim. Acta. 2004, Vol. 527(2), P. 105−124
- Орлов Д.С. Гумусовые кислоты почв. // М.: Изд-во МГУ. 1974
- Kinniburgh D.G., Milne C.J., Benedctti M.F., Pinheiro J.P., Filius J., Koopal L.K., Von Riemsdijk W.H. Metal ion binding by humic acid: Application of the NICA-Donnan model. // Environ. Sci. Technol. 1996, Vol.30, P. 1687−1695
- Dierckx A., Maes A., Vancluysen J. Mixed complex formation of Eu3+ with humic acid and a competing ligand. // Radiochim. Acta. 1994, Vol. 66/67, P. 149−155
- Paulenova A., Rajec P./Kandrac J., Saskoiova G., Totthova E., Bartos P., Svec V., Gora R. The study of americium, yttrium and lead complexation by humic acids of different origin. // J. Radioanal. Nucl. Chem. 2000, Vol. 246, P. 617−622
- Kim J.I., Czerwinski K.R. Complexation of metal ions with humic acid: metal ions charge neutralization model. // Radiochim. Acta. 1996, Vol. 73, P. 5−10
- McCarthy J.F., Czerwinski K.R., Sanford W.E., Jardine P.M., Marsh J.D. Mobilization of Actinides from disposal trenches by natural organic matter. //J.Contam.Hydrol, 1998, Vol. 30, P. 49−77
- Choppin G.R., Allard В. Handbook on the Physics and Chemistry of the Actinides. A.J. Freeman, C. Keller (Eds.). Elsevier Science Publ., New York. 1986, Ch. 11
- Lieser K.H., Hill R., Muhlenweg U.,. Singh R. N, Shu-De Т., Steinkopff Т. Actinides in Environment and Waste Disposal Problem. // J. Radioanal. Nucl. Chem. 1991, Vol. 147, P. 117−125
- Reiller P., Moulin V., Casanova F., Dautel C. On the study of Th (IV)-humic acid interactions by competition sorption studies with silica and determination of global interaction constants. // Radiochim. Acta/ 2003, Vol. 91(9), P. 513−524
- Nash K. L, Choppin G.R. Interaction of Humic and Fulvic Acids with Th (IV). // J.Inorg.Nuclear Chem. 1980, Vol.42, P. 1045−1050
- Pirlet V. The investigation of the Neptunium Complexes Formed upon Interaction of High level Waste Galss and Boom Clay Medium. // Doctoral Thesis. University of Leige, Belgium, 2003
- Czerwinski K., Kim J.I. Complexation of Transuranic Ions by Humic Substances: Application of Laboratory Results to the Natural Systems. // Mat.Res.Soc.Symp.Proc. 1997, Vol. 465, P. 743−744
- Калмыков C. I I. Миграция радионуклидов через геохимические барьеры. // Диссертация на соискание ученой степени кандидата химических наук. МГУ им М. ВЛомоносова, Химический факультет. Москва, 2000
- Marquardt С., Herrmann G, Trautmann N. Complexation of Np (V) with Humic Acid at very Low Concentration. // Radiochim.Acta. 1996, Vol. 73, P. 119−125
- Sullivan J.C. In Plutonium Chemistry (Carnall, W. Т., Choppin, G. R., eds.). //ACS Symposium Series. No. 216. Washington, DC. 1983
- Perminova I.V., Kovalenko A.N., Schmitt-Kopplin Ph., Hatfield K., Hertkorn N., Belyaeva E.Y., Petrosyan V.S. Design of Quinonoid-Enriched Humic Materials with Enchanced Redox Properties. // Environ. Sci. Technol. 2005, Vol. 39(21), P. 8518−8524
- Schmeide K., Geipel G., Bernhard G. Redox stability of neptunium (V) in the presence of humic substances of varying functionality. // Migration 2005, P. 89−90
- Buckau G. Humic Substances in Performance Assessment of Nuclear Waste Disposal: Actinide and Iodine Migration in the Far-Field. // Third Technical Progress Report, Forschungszentrum Karlsruhe GmbH. Karlsruhe 2005, P. 9−18, 19−33
- Sachs S., Geipel G., Mibus J., Bernhard G. Impact of humic acid on the uranium migration in the environment. // Uranium in the Environment, Broder J. Merkel and Andrea Hasche-Berger. Springer Berlin Heidelberg
- Choppin G.R. The role of natural organics in radionuclide migration in natural aquifer systems. // Radiochim. Acta. 1992, Vol. 58/59, P. 113−120
- Silva R.J., Nitsche H. Actinide Environmental Chemistry. // Radiochim. Acta. 1995, Vol. 70/71, P. 377−396
- Davis J. Complexation of trace metals by adsorbed natural organic matter. // Geochim.Cosmochim.Acta. 1984, Vol. 48(4), P. 679−691
- Liang L., Morgan J.J. Chemical aspects of iron oxide coagulation in water: Laboratory studies and implication for natural systems. // Aquatic Sci. 1990, Vol.52, P. 32−55
- Gu В., Schmitt J., Chen Zh., Liang L., McCarthy J.F. Adsorption and desorption of different organic matter fractions on iron oxide. // Geochim. Cosmochim. Acta. 1995, Vol. 59 (2), P. 219−229.
- Tipping E., Cooke D. The effects of adsorbed humic substances on the surface charge of goethite in freshwaters. // Geochim.Cosmochim.Acta. 1982, Vol. 46, P. 75−80,
- Murphy E.M., Zachara J.M., Smith S.C., Phillips J.L. The sorption of humic acids to mineral surfaces and their role in the contaminant binding. // The Science of the Total Environment. 1992, Vol. 117/118, P. 413−423
- Christl I., Kretzschmar R. Interaction of copper and fulvic acid at the hematite-water interface. // Geochim.Cosmochim.Acta. 2001, Vol. 65(20), P. 3435−3442
- Fu H., Quan X. Complexes of fulvic acid on the surface of hematite, goethite and akaganeite: FTIR observation. // Chemosphere. 2006, Vol. 63, P. 403−410
- McBride M.B., Environmental chemistry in soils. // Oxford Univ., Press, Oxford 1994
- Alcacio Т.Е., Hesterberg D., Chou J.W., Martin J.D., Beauchemin S., Sayers D.E. Molecular scale characteristics of Cu (II) bounding in goethitc-humate complexes. // Geochim.Cosmochim.Acta. 2001, Vol. 65(9), P. 1355−1366
- Payne Т.Е. Uranium (VI) interaction with minerals surfaces: controlling factors and surface complexation modeling. // Ph.D.Thesis, University of New South Wales, 1999, P. 173−230
- Payne Т.Е., Davis J.A., Waite T.D. Uranium adsorption on ferrihydrite-effects of phosphates and humic acids. // Radiochim.Acta. 1996, Vol. 74, P. 239−243
- Несмеянов Ан.Н. Руководство к практическим занятиям по радиохимии. // «Химия», Москва, 1968, С. 460−465
- Келлер К. Химия трансурановых элементов. // «Атомиздат», 1976, С.234−244
- Raming Т.Р., Winnubst A.J.A, van Kats C.M., Philipse A.P. The synthesis and magnetic properties of nanosized hematite (a-Fe203) particles. // J. Colloid Interface Sci. 2002, Vol. 249, P. 346−350
- Бурухин A.A. Синтез нанокристаллических оксидных материалов из гидротермальных и сверхкритических растворов. // Диссертация на соискание ученой степени кандидата химических наук. Москва 2001
- Murray J.W. The surface chemistry of hydrous manganese dioxide. // J.ColIoid. Interface Sci. 1974, Vol. 46, P. 357−371
- Dzombak D.A., Morel F.M.M. Surface Complexation Modeling, Hydrous Ferric Oxide, John Wiley&Sons. 1990, P. 90−106
- Swift R.S. Organic matter characterization. Part 3. Chemical methods. // In Methods of soil analysis. 1996, P. 1036−1040
- Matthiessen A. Determining the redox capacity of humic substances. // Vom Vasser. 1995, Vol. 84, P. 229−231
- Тетерин А.Ю., Маслаков К. И., Тетерип Ю. А., Калмыков С. Н., Иванов К. Е., Вукчевич Л.Дж., Новиков А. П., Сапожников Ю. А., Хасанова А. Б., Щербина Н. С. Изучение взаимодействия нептунила с гетитом (а
- FeOOH), магемитом (y-Fe203) и гематитом (a-Fe203) в водной среде методом РЭС. // Журнал неорганической химии. 2006, Т. 51(12), С. 2056−2064
- Axe L., Anderson P. R. Experimental and Theoretical Diffusivities of Cd and Sr in HFO. // J Colloid Interface Sci. 1997, Vol. 185, P. 436−448.
- Hydrochemical Equilibrium-Constant Database, Ignasi Puigdomenech, Inorganic Chemistry, Royal Institute og Technology. Stockholm, Sweden, Vers.2004
- Make Equilibrium Diagram Using Sophisticated Algorithms, Ignasi Puigdomenech, Inorganic Chemistry, Royal Institute og Technology. Stockholm, Sweden, Vers.2004
- Zeh P., Kim J.I., Marquardt C.M., Artinger R. The reduction, of Np (V) in groundwater rich in humic substances. // Radiochim.Acta. 1999, Vol. 87, P. 23−28
- Assemi Sh, Hartley P.G., Scales P.J., Beckett R. Investigation of adsorbed humic substances using atomic force microscopy. // Coll. Surfaces A: Physicochem. Eng. Aspects. 2004, Vol. 248, P. 17−23
- Balnois E, Wilkinson K.J. Sample preparation techniques for the observation of environmental biopolymers by atomic force microscopy. // Coll. Surfaces A: Physicochem. Eng. Aspects. 2002, Vol. 207, P. 229−242
- Schwertmann U., Cornell R.M. Iron Oxides in the laboratory. // VCH, Weinheim. 1991, P. 137−139