1Energy and Wetlands Research Group, Centre for Ecological Sciences [CES],
Indian Institute of Science, Bangalore – 560012, India.
2 Centre for Sustainable Technologies [CST], Indian Institute of Science.
3Centre for Infrastructure, Sustainable Transport and Urban Planning [CiSTUP],
Indian Institute of Science, Bangalore 560 012.
*Corresponding author:
trv@iisc.ac.in
Abstract
Developing country municipal solid waste management is complex, managed by multiple insti- tutions, prone to socio-political disruptions and often requires frequent and rapid estimates of good functioning. Estimating the quantity, composition and status of municipal solid waste found at unauthorized dump sites helps in diagnosis and in improving solid waste management system. The objective of this study was to find occurrences of unauthorized dump sites and to determine quantity, area, height of dumps, waste density and waste composition at these sites. A total of 452 locations were identified and quantification of solid wastes was carried out at 268 locations by determining waste spread area, measuring dump height and density by multiple techniques. Mixed dumped wastes at site was physically segregated into twelve waste catego- ries (organic fraction, plastic, construction debris, paper, cloth, glass, leather, metal, rubber, bi- omedical waste, burnt waste and industrial wastes). It was estimated about 213310 Mg of wastes were dumped in 452 unauthorized dump sites. The composition of waste dumped in unauthorized sites have 41.3% of construction debris followed by 28.9% of organic waste and other fractions constituted the remaining. The waste composition at dump site suggests less ef- ficient recycling systems and the possible direction for the system improvements.
Keywords: Unauthorized dump site, Illegal dumping, Dump site pattern, Waste quantity, Dump site composition
Citation :Kashyap, S., Chanakya, H.N. & Ramachandra, T.V. 2021. Pattern,
characterization and quantification of unauthorized waste dump sites: a case study of
Bangalore, Journal of Solid Waste Technology and Management, 47(2): 362-370