Municipal Solid Waste Composition and Recycle Process

International Journal of Geoinformatics and Geological Science
© 2016 by SSRG - IJGGS Journal
Volume 3 Issue 3
Year of Publication : 2016
Authors : G. Akhilesh ready, M.Suren Rao
MLA Style:

G. Akhilesh ready, M.Suren Rao, "Municipal Solid Waste Composition and Recycle Process" SSRG International Journal of Geoinformatics and Geological Science 3.3 (2016): 32-35.

APA Style:

G. Akhilesh ready, M.Suren Rao,(2016).Municipal Solid Waste Composition and Recycle Process. SSRG International Journal of Geoinformatics and Geological Science 3(3), 32-35.


Solid waste management is a experiment for the establishments in evolving nations essentially due to the accumulative generation of waste, the problem posed on the metropolitan economical as a outcome of the high costs connected to its administration. Information of numerouscategories of waste requirements like polythene gears, construction wastelands, and regular solid wastes from households remained obtained. It was experimental that the persons living in this area have poor health like allergy, asthma, skin irritation and other gastro colonic diseases. The focus of this study is to assess the influence of open waste in soil adulteration and its conclusion on vegetal diversity in one of the renowned green cities. Everywhere the biosphere as kingdoms are harassed to attain at an actualmonitoringadministration to accomplish the Solid Waste of DetachedInternal into their ecosystem. Indian holds a binarytrimmedblade of budgetary growth and networkfailure. The indicators transported is useful to mention the proper administration of waste.


1) Bency, K. T., Suresh, V. M., Kumaran, V., Jansy, J., Thakappan, B., Kumar, B., Centre, R. C. (2003). A study on the air pollution related human diseases in thiruvananthapuram city, kerala, 15–17.
2) Central Pollution Control Board (CPCB), (2004); Management of Municipal Solid Waste. Ministry of Environment and Forests, New Delhi, India.
3) Draft report for the 12th Finance Commission Management of Solid Waste in Indian Cities, Government of India.
4) Gupta, P.K., Jha, A.K., Koul, S., Sharma, P., Pradhan, V., Gupta, V., Sharma, C., Singh, N., (2007); Journal of Environmental Pollution 146 (1), 219–224.
5) Hazra T., Goel S. (2009)Solid waste management in Kolkata, India: Practices and challenges Waste Management; 29 (1) pp. 470–478
6) Hoornweg. Lam, D. P., Chaudhry, M., 2005, Waste Management in China: Issues and Recommendations. Urban Development WorkingPapers No. 9.
7) Jha, M.K., Sondhi, O.A.K., Pansare, M., (2003); Indian Journal of Environmental Protection 23 (10), 1153–1160
8) Kansal, A., (2002); IndianJournal of Environmental Protection 22 (4), 444–448.
9) Singh, R.P., Singh, P., Arouja, A.S.F., Ibrahim, M.H., Sulaiman, O., 2011. Management of urban solid waste: vermicomposting a sustainable option. Resourc. Conserv. Recycl. 55, 719–729.
10) Smith, C.J., Hopmans, P., Cook, F.J., 1996. Accumulation of Cr, Pb,Cu, Ni, Zn and Cd in soil following irrigation with treated urban effluent in Australia. Environ. Pollut. 94 (3), 317–323.
11) Subbiah, B.V., Asija, G.L., 1976. A rapid procedure for estimation of available nitrogen in soils. Curr. Sci. 25, 259–260.
12) Udom, B.E., Mbagwu, J.S.C., Adesodun, J.K., Agbim, 2003. Distri-butions of zinc, copper, cadmium and lead in a tropical ultisol after long term disposal of sewage sludge. Environ. Int. 30, 467–470.
13) Qdais, A. H., Abdulla, F. and Qrenawi, L., 2009, Solid Waste Landfills as a Source of Green Energy: Case Study of Al Akeeder landfill, presented at the International Conference and Exhibition on Green Energy & Sustainability for Arid Regions & Mediterranean Countries, Amman, Jordan.
14) Turner, R., 1983, Waste management: Planning, evaluation, technologies, Resources Policy, vol. 9, pp. 143-143,
15) Tchobanoglous, G., H. Thiesen, and Vigil, S., 1993, Integrated Solid Waste Management: Engineering Principles and Management Issues. McGraw-Hill, Inc. New York, USA.
16) Shekdar, A., 2009, Sustainable solid waste management: An integrated approach for Asian countries, Waste Management 29:1438-1448
17) Boyle C.A (2000) Solid Waste Management in New Zealand. Waste Management 20, Issue 7, 517526.
18)Iqbal, M.Z., Shafiq, M., Kausar, A.S., 2001. Toxic effects of lead and cadmium individually in combination in germination and growth of Leucaenaleucocephala. Pak. J. Bot. 33, 551–557.
19) Islamabad Census Report, 1998. Population Census Organization Statistics Division. Ministry of Economic Affairs and Statistics. Government of Pakistan.
20) Karishnamurti, G.S.R., Naidu, R., 2003. Solid-solution equilibria of cadmium in soils. Geoderma 113, 17–30.
21) Kent, M., Coker, P., 1992. Vegetation Description and Analysis: A Practical Approach. John Wiley and Sons Ltd, Chichester.
22) Khatoon, S., Ali, S.I., 1999. Alien Invasive Species in Pakistan.University of Karachi, Pres. Comm, Pakistan.
23) Heavy metal source analysis in municipal solid waste (MSW): case study on Cu and Zn. J. Haz. Mat. 186, 1082–1087.
24) Malik, R.N., Husain, S.Z., 2006. Classification and ordination of vegetation communities of the Lohiber reserve forest and its surrounding areas, Rawalpindi. Pakistan Pak. J. Bot. 38, 543–558.

Key Words:

Solid waste management, economical, landfill.