Plasticwaste management and disposal techniques - Indian scenario
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SME report 2012. ( http://www.dnb.co.in/BusinessGauravSMEAwards2012/Plastic_Products.as )
USWM, School of Forest Resources &Environmental Science Master’s International Program, Michigan Technological University. http://www.cee.mtu.edu/peacecorps
CPCB (2013) Website Material on Plastic Waste Management. Central Pollution Control Board. ( http://www.cpcb.nic.in/divisionsofheadoffice/pcp/management_plasticwaste.pdf. )
Sen S, Mishra U (2010) Usage of industrial waste products in village road construction. Int J Environ Sci Dev 1(2):122–126
Sarker M, Rashid MM, Rahman MS, Molla M (2012) Alternative diesel grade fuel transformed from polypropylene (PP) municipal waste plastic using thermal cracking with fractional column distillation. Energy Power Eng 4:165
Subramanian PM (2000) Plastics recycling and waste management in the US. Resour Conserv Recycl 28:253
Panda AK, Singh RK, Mishra DK (2010) Thermolysis of waste plastics to liquid fuel: a suitable method for plastic waste management and manufacture of value added products—a world prospective. Renew Sust Energ Rev 14:233
UNEP (2009) Converting waste plastics into resource: compendium of technologies. United Nations Environment Programme, Osaka
Ali MF, Siddiqui MN (2005) Thermal and catalytic decomposition behaviour of PVC mixed plastic waste with petroleum residue. J Anal Appl Pyrolysis 74:282
Bhaskar T, Azharuddin M, Kaneko J, Kusaba T, Matsui T, Muto A, Sakata Y, Murata K (2003) Liquefaction of mixed plastics containing PVC and dechlorination by calcium-based sorbent. Energy Fuel 17:75
Ruj B, Punčochář M, Chatterjee PK (2012) Development of process for disposal of plastic waste using plasma pyrolysis technology and option for energy recovery. Procedia Eng 42:420
Zadgaonkar UA, Zadgaonkar AU (2002) A process and apparatus for manufacture of liquid fuel from waste plastic and refinery waste. Patent no. - WO 2002061015 A1, https://www.google.co.in/patents/WO2002061015A1?cl=en&dq=ininventor:%22Zadgaonkar+Alka+Umesh%22&hl=en&sa=X&ved=0CBwQ6AEwAGoVChMIhN7_9YGZyAIVDdSOCh0vngWF
Zadgaonkar U, Arora AK, Sarkar B, Parkash S, Swami KK, Sarin R, Krishnan V, Makhija S, Verma RP, Ghosh S, Raje NR, Zadgaonkar AU (2005) A catalyst composition for catalytic cracking of waste plastic. Patent no.- WO 2005094990 A1, https://www.google.co.in/patents/WO2005094990A1?cl=en&dq=ininventor:%22Zadgaonkar+Alka+Umesh%22&hl=en&sa=X&ved=0CCMQ6AEwAWoVChMIhN7_9YGZyAIVDdSOCh0vngWF
Thiyagarajan C (2013) Plastic to Fuel Device. (Patent in process) http://www.eai.in/club/scrap/i/24029
Delhi waste collection system. ( http://www.delhi.gov.in/wps/wcm/connect/environment/Environment/Home/Environmental+Issues/Waste+Management )
http://www.plasticstechnology.com/articles/fa3.html
Narayan P, Lindhqvist T, Tojo T (2001) Analysing plastic waste management in India, M.Sc.(Environmental Management and Policy) Thesis, Lund, Sweden
Buekens AG, Huang H (1998) Catalytic plastics cracking for recovery of gasoline range hydrocarbons from municipal plastic wastes. Resour Conserv Recycl 23:163–181
Waste Management in China: Issues and recommendations; May 2005[ http://siteresources.worldbank.org/INTEAPREGTOPURBDEV/Resources/China-Waste-Management1.pdf ]
Muthaa NH, Patel M, Premnath V (2006) Plastics materials flow analysis for India. Resour Conserv Recycl 47:222–244
Gupta S, Mohan K, Prasad R, Kansal A (1998) Solid waste management in India: options and opportunities. Resour Conserv Recycl 24:137–154
Dodbiba G, Fujita T (2004) Progress in separating plastic materials for recycling. Phys Sep Sci Eng 13:165
IPTS (2013) Seville, Spain. End of waste criteria for waste plastic for conversion: Technical proposals. http://susproc.jrc.ec.europa.eu/activities/waste
New Avenues in Recycling: NIR and Other Technologies Sort PET and Bioresin Bottles, 2009 http://www.natureworksllc.com .
Masoumi H, Safavi SM, Khani Z (2012) Plastic debris in the Laurentian great lakes: a review. Int J Mech Ind Eng 6:213
Wienaah MM (2007) Sustainable plastic waste management – A case of Accra. Ghana.
Luo G, Suto T, Yasu S, Kato K (2007) Catalytic degradation of high density polyethylene and polypropylene into liquid fuel in a powder-particle fluidized bed. Polym Degrad Stab 70:97
Miskolczi N, Bartha L, Angyal A (2006) High energy containing fractions from plastic wastes by their chemical recycling. Macromol Symp 245:599
Käufer H (1995) Information. TU-Berlin
Sikka P (2012) Plastic waste management in India. Department of Science & Technology, Government of India
Garforth AA, Ali S, Martínez JH, Akah A (2004) Feedstock recycling of polymer wastes. Curr Opinion Solid State Mater Sci 8(6):419
Mantia PL (2002) Handbook of plastic recycling. Francesco 2002, ISBN:1859573258,9781859573259
Scott G (1997) Antioxidants in science, technology, medicine and nutrition, Chapter 3. Albion Publishing, Chichester
Scott G (1999) Polymers and the environment. Royal Society of Chemistry. ISBN:978-0-85404-578-5 [online]
DEFRA (2011) Waste Data Overview
Kaminsky W, Predel M, Sadiki A (2004) Feedstock recycling of polymers by pyrolysis in a fluidised bed. Polym Degrad Stab 73:1045
Butler E, Devlin G, McDonnell K (2011) Waste polyolefins to liquid fuels via pyrolysis: review of commercial state-of-the-art and recent laboratory research. Waste Biomass Valorization 2(3):227
Saha B, Ghoshal AK (2005) Thermal degradation kinetic s of poly(ethylene terepthalate) from waste soft drink bottle. Chem Eng J 111(1):39
Sami M, Annamalai K, Wooldridge M (2001) Co-firing of coal and biomass fuel blends. Prog Energy Combust Sci 27(2):171–214
Victoria Navarro M, Juan D, Martínez RM, García T, López JM, Soledad Callén M, Mastral AM (2012) Application of a particle model to pyrolysis. Comparison of different feedstock: plastic, tyre, coal and biomass. Fuel Process Technol 103:1–8
Keane MA (2009) Catalytic transformation of waste polymers to fuel oil. Chem Sustain Chem 2(3):207–214
Scheirs J, Arena U, Mastellone ML, Kaminsky W, Bhaskar T, Sakata Y, Behzadi S, Farid M, Hornung A, Seifert H, Ludlow-Palafox C, Chase HA, Dispons J, Bilgesü AY, Koak MÇ, Karaduman A (2006) Reactor types. In: Scheirs J, Kaminsky W (eds) Feedstock recycling and pyrolysis of waste plastic, 1st edn. Wiley, Chichester, pp 381–623
Aguado J, Serrano DP, Escola JM (2006) Catalytic upgrading of plastic wastes. In: Scheirs J, Kaminsky W (eds) Feedstock recycling and pyrolysis of waste plastic, 1st edn. Wiley, Chichester, pp 73–104
White RL (2006) Acid catalyzed cracking of polyolefin’s: primary reaction mechanism. In: Scheirs J, Kaminsky W (eds) Feedstock recycling and pyrolysis of waste plastic, 1st edn. Wiley, Chichester, pp 45–67
Lin YC, Huber GW (2009) The critical role of heterogeneous catalysis in lignocellulosic biomass conversion. Energy Environ Sci 2:68
Vaidyanathana A, Mulhollanda J, Ryua J, Smith MS, Louis J, Jr C (2007) Development of a laboratory scale air plasma torch and its application to electronic waste treatment. J Environ Manag 82:77
Huang H, Tang L, Zhao ZL, Wu CZ, Chen Y (2003) Pyrolysis of polypropylene in a nitrogen plasma reactor. Ind Eng Chem Res 26:1145
Guddeti RR, Knight R, Grossmann ED (2000) Depolymerization of polyethylene using induction-coupled plasma technology. Plasma Chem Plasma Process 20:37–64
Guddeti RR, Knight R, Grossmann ED (2000) Depolymerization of polypropylene in an induction-coupled plasma (ICP) reactor. Ind Eng Chem Res 39:1171
Sobhy A, Chaouki J (2010) High temperature solid-catalized transesterification for biodiesel production. Chem Eng Trans 19:25
Palafox CL, Chase HA (2006) Microwave pyrolysis of plastic waste. In: Scheirs J, Kaminsky W (eds) Feedstock recycling and pyrolysis of waste plastic, 1st edn. Wiley, Chichester, pp 569–594
Sharobem TT (2010) Tertiary Recycling of Waste Plastics: An Assessment of Pyrolysis by Microwave Radiation. Columbia University
Fernández Y, Arenillas A, Menéndez JA (2011) Advances in Induction and Microwave Heating of Mineral and Organic Materials. 31:724