Диссертация (Системы учета и управления отходами), страница 76
Описание файла
Файл "Диссертация" внутри архива находится в папке "Системы учета и управления отходами". PDF-файл из архива "Системы учета и управления отходами", который расположен в категории "". Всё это находится в предмете "технические науки" из Аспирантура и докторантура, которые можно найти в файловом архиве РТУ МИРЭА. Не смотря на прямую связь этого архива с РТУ МИРЭА, его также можно найти и в других разделах. Архив можно найти в разделе "остальное", в предмете "диссертации и авторефераты" в общих файлах, а ещё этот архив представляет собой докторскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени доктора технических наук.
Просмотр PDF-файла онлайн
Текст 76 страницы из PDF
Environ. Res. 2008. V. 2. N 1. P. 13-22.Kahhat R, Williams E. Materials flow analysis of e-waste: Domestic flows and exports of usedcomputers from the United States // Resources, Conservation and Recycling. 2012. V. 67. P. 67-74.Karaca F., Özkaya B. NN-LEAP: A neural network-based model for controlling leachate flowrate in a municipal solid waste landfill site // Environ. Model. Software.
2006. V.21. N 8. P.1190-1197.Katsamaki A., Willems S., Diamadopoulos E. Time series analysis of municipal solid waste generation rates // Journal of Environmental Engineering. 1998. V. 124. P. 178–183.Kerzee R., Cailas M., Swager R. Using Demographics to Predict Future Waste // Waste Age.1994. N 1.Khajuria A., Yamamoto Y., Morioka T. Estimation of municipal solid waste generation and landfill area in Asian developing countries // Journal of Environmental Biology.
September 2010.V.31. N 5. P. 649-654.398613. Khan M.Z.A., Burney F.A. Forecasting solid waste composition – an important consideration inresource recovery and recycling // Resources, Conservation and Recycling. 1989. V. 3. P. 1–17.614. Kim S. Estimating the amount of WEEE generated in South Korea by using the population balance model / S. Kim [et al.] // Waste Manag. 2013. Feb. 33(2). P. 474-83.615.
Kleijn R., Van der Voet E., Udo de Haes H.A. Controlling substance flows: the case of chlorine // Environ. Manage. 1994. V. 8. N 4. P. 523-542.616. Kontos D.T., Komilis D.P., Halvadakis C.P. Siting MSW landfills with a spatial multiple criteriaanalysis methodology // Waste Management. 2005.
V. 25(8). P. 818-832.617. Koushki P.A, AI-Khaleefi A.L. An Analysis of Household Solid Waste in Kuwait: Magnitude,Type, and Forecasting Models // Journal of Air & Waste Management Association. 1998. V. 48.N 3. P. 256-263.618. Kumar J.S., Subbaiah K.V., Prasada Rao P.V.V. Prediction of Municipal Solid Waste with RBFNet Work- A Case Study of Eluru, A.P, India // International Journal of Innovation, Managementand Technology. 2011.
V. 2. N 3. P. 238-243.619. Kytzia S. Material Flow Analysis as a Tool for Sustainable Management of the Built Environment / The Real and Virtual Worlds of Spatial Planning / Eds. M. Koll-Schretzenmayr et al.,2004. P. 281-298.620. Lankey R.L. Davidson C.I., McMichael F.C. Mass balance for lead in the California South CoastAir Basin: an update // Environ. Res. 1998. V. 78. N 2. P. 86-93.621. Lau W.K., Chung S.S., Zhang C. A material flow analysis on current electrical and electronicwaste disposal from Hong Kong households // Waste Manag. 2013. V. 33. N 3. P. 714-721.622. Lawal O.
Wasteful disposition: analysis of municipal household waste using geodemographicclassification // Waste Manag Res. 2014. V. 32. N 2. P. 170-174.623. Lawless J.F. Statistical models and methods for lifetime data. Second Edition. CA-USA: WileyInterscience. 2002. – 630 p.624. Ligthart T.N., Ansems T.(A.)M.M. Modelling of Recycling in LCA.
// Post-Consumer WasteRecycling and Optimal Production / E. Damanhuri (Ed.). Rijeka, Croatia, 2012. P. 185-210.625. Liu С., Wu Х.-w. Factors influencing municipal solid waste generation in China: A multiple statistical analysis study // Waste Manag Res.
2011. V. 29. N 4. P. 371-378.626. Liu Z.F. Recycling strategy and a recyclability assessment model based on an artificial neuralnetwork / Z.F. Liu [et al] // J. Mater. Proces. Tech. 2002. V.129. N 1-3. P. 500-506.627. Lü Y. Industrial solid waste flow analysis of eco-industrial parks: implications for sustainablewaste management in China / Y. Lü [et al.] // Frontiers of Environmental Science & Engineering.2012.
V. 6. N 4. P. 575-587.628. Mainieri T. Green buying: The influence of environmental concern on consumer behavior / T.Mainieri [et al.] // The Journal of Social Psychology. 1997. V. 137. N 2. P. 189-204.629. McBean E.A., Fortin M.H.P. A Forecast Model of Refuse Tonnage with Recapture and Uncertainty Bounds // Waste Management & Research. 1993. N 11. P. 373-385.630.
Measuring material flows and resource productivity: Volume I. The OECD Guide. Paris, France:OECD, 2008. – 162 р.631. Measuring Recycling: A Guide for State and Local Governments. United States EnvironmentalProtection Agency – USEPA, 1997. 171 р. – Режим доступа: http://www.epa.gov.632. Minx J.C. Input–output analysis and carbon footprinting: an overview of applications / J.C. Minx[et al.] // Economic Systems Research.
2009. V. 21 N 3. P. 187-216.633. Monahan D.J. Estimation of hazardous wastes from employment statistics: Victoria, Australia //Waste Manag Res. 1990. V. 8. N 2. P. 145–149.634. Müller D.B. Stock dynamics for forecasting material flows – case study for housing in the Netherlands // Ecological Economics. 2006. V. 59. N 1. P. 142-156.635. Mutha N.H., Patel M. Premnath V. Plastics materials flow analysis for India // Resources, Conservation and Recycling. 2006.
V. 47. N 3. P. 222-244.636. Nagelhout D., Joosten M., Wieringa K. Future Waste Disposal in The Netherlands // Resources,Conservation and Recycling. 1990. V. 4. N 4. Р. 283-295.399637. Nakamura S., Nakajima K. Waste Input–Output Material Flow Analysis of Metals in the Japanese Economy // Materials Transactions. 2005. V. 46. N 12. P. 2550-2553.638. Nakamura S. The Waste Input-Output Approach to Materials Flow Analysis / S. Nakamura [etal.] // Journal of Industrial Ecology. 2007. V. 11. N 4.
P. 50–63.639. Navarro-Esbrı J., Diamadopoulos E., Ginestar D. Time series analysis and forecasting techniquesfor municipal solid waste management // Resources, Conservation and Recycling. 2002. V. 35. N3. P. 201–214.640. Nayman S., Ovchinnikov V. The agricultural Waste of Tatarstan Republic in Russia is EffectiveBiogas Potential // Research Journal of Pharmaceutical, Biological and Chemical Sciences. 2014.V. 5.
N 3. P. 1232-1243. – Режим доступа: http://rjpbcs.com/pdf/2014_5(3)/[128].pdf.641. Newcombe K., Kalma I.D., Aston A.R. The metabolism of a city: the case of Hong Kong // Ambio. 1978. V. 7. N 1. P. 3-15.642. Niessen W.R. Estimation of Solid-Waste-Production Rates. In: Handbook of Solid Waste Management / D.G. Wilson ed. New York, USA: Van Nostrand Reinhold Co. 1977. P. 544-574.643.
Noori R, Abdoli MA, Ameri A, Jalili Ghazizade M. Prediction of municipal solid waste generation with combination of support vector machine and principal component analysis: a case studyof Mashhad // Environ. Prog. Sustain. 2009. V. 28. P. 249–258.644. Noori R, Abdoli MA, Farokhnia A, Abbasi M (2009). Results uncertainty of solid waste generation forecasting by hybrid of wavelet transform-ANFIS and wavelet transform-neural network //Expert Systems with Applications. 2009. V. 36. N 6. P. 9991-9999.645. Noori R, Abdoli MA, Jalili Ghazizade M, Samieifard R. Comparison of Neural Network andPrincipal Component-Regression Analysis to Predict the Solid Waste Generation in Tehran //Iranian J Publ Health. 2009. V.38. N 1.
P. 74-84.646. Ogwueleka T.Ch., Ogwueleka F.N. Modelling energy content of municipal solid waste using artificial neural network // Iran. J. Environ. Health. Sci. Eng. 2010. V. 7. N 3. P. 259-266.647. Ohri.A., Singh.P.K. Development of Decision Support System for Municipal Solid Waste Management in India: A Review // International Journal of Environmental Sciences. 2010.
V. 1. N 4.P. 440-453.648. Orccosupa J., Arellano J., Figueroa E. Relationship between Domestic Production of Solid Wasteand Socioeconomic Factors in the Santiago Province of Chile // XXVIII Inter American Congressof Sanitary and Environmental Engineering. October 27-31-2002. Cancún, México. P. 1-12.649. Oribe-Garcia I. Identification of influencing municipal characteristics regarding household wastegeneration and their forecasting ability in Biscay / I. Oribe-Garcia I [et al] // Waste management.2015.
V. 39. P. 26-34.650. Owens E., Zhang Q., Mihelcic J. Material Flow Analysis Applied to Household Solid Waste and Marine Litter on a Small Island Developing State // J. Environ. Eng. 2011. V. 137. N 10. P. 937–944.651. Pamnani A., Meka S. Forecasting of Municipal Solid Waste Generation for Small-Scale Townsand Surrounding Villages Located in the State of Gujarat, India // International Journal of Current Engineering and Technology. 2015. V. 5. N 1.
