SOLID WASTE GENERATION AND COLLECTION EFFICIENCIES: ISSUES AND CHALLENGES
DOI:
https://doi.org/10.11113/jt.v75.5331Keywords:
Solid waste collection efficiency, countries according to income level, waste pickers, effect on environment.Abstract
Solid waste management is a big challenge throughout the world. It is becoming more complicated with the increased globalization and worldwide urbanization. Solid waste monitoring and management depends on the solid waste generation and collection efficiency. Without an efficient collection system, improvement of the solid waste monitoring and management system is a difficult task. Thus, it is a big hindrance on the way of development of solid waste management and sustainable environment. This paper deals with a comprehensive survey on the solid waste generation and their collection efficiencies. From the rigorous review, it is observed that the existing methods and system, however, not reliable and intelligent enough to monitor and manage the increased level of solid waste. Accordingly, this review is being highlighted on the issues and challenges for future efficient solid collection systems. This review paper may guide the reader about the basics of solid waste generation and their collection process to facilitate the planning and design of a sustainable new system
References
I. V. Poser, A.R Awad. 2006. Optimal Routing for Solid Waste Collection in Cities by Using Real Genetic Algorithm. J. IEE.221-226.
J. Beliën, L. D. Boeck. 2012. Municipal Solid Waste Collection and Management Problems: A Literature Review, Transportation Science. Articles in Advance. 1–25.
V.Sridevi, M.Modi, M.V.V.C. Lakshmi, L.kesavarao, 2012. A review on integrated solid waste management, International Journal Of Engineering Science & Advanced Technology. 2(5): 1491–1499.
S. Claudia. 2008. Assessment of impacts caused by the inefficiencies of the waste management systems: developing countries situation - State of the art in Colombia, ‘IAIA08 Conference Proceedings'. The Art and Science of Impact Assessment, 28th Annual Conference of the International Association for Impact Assessment, Perth Convention Exhibition Centre, Perth, Australia, May 2008.
W. A. Worrell, P. A. Vesilind. 2012. Solid Waste Engineering, second ed. 63-75.
T. E. Kanchanabhan, J. A. Mohaideen, S. Srinivasan, V. L. S. Kalyana. 2011a. Optimum municipal solid waste collection using geographical information system (GIS) and vehicle tracking for Pallavapuram municipality. Waste Management and Research. 29(3): 323–339.
Mr. A. Verma, Prof. B. K Bhonde. 2014 Optimization of Municipal Solid Waste Management of Indore City using GIS. International Journal on Emerging Technologies. 5(1): 194-200.
I. A. Khatib, Municipal Solid Waste Management in Developing Countries: Future Challenges and Possible Opportunities, Integrated Waste Management – Volume II.
S. S. Purohit, V. M. Bothale. 2012. RFID-Based Solid Waste Collection. IEEE,Recent Advances in Intelligent Computational Systems (RAICS). 22 (2)
M. F. Badran, S. M. El-Haggar. 2006. Optimization of municipal solid waste management in Port Said-Egypt. Waste Management. 26: 534–545.
D. Hoornweg, L. Thomas. 1999. What a Waste: Solid Waste Management in Asia, East Asia and Pacific Region, Urban and Local Government Working Paper, World Bank
M. A. A Mamun, M. A Hannan, A Hussain, and H. Basri. 2015.Integrated Sensing Systems and Algorithms for Solid Waste Bin State Management Automation. IEEE Sensor Journal. 15(1): 561-567.
DATO’ N. Bin Yahaya. 2012. Solid Waste Management in Malaysia: The Way Forward. Waste Management
E. Metin, A. Erozturk, C. Neyim. 2003. Solid waste management practices and review of recovery and recycling operations in Turkey. Waste Management. 23: 425–432.
L.H. Son. 2014. Optimizing Municipal Solid Waste collection using Chaotic Particle Swarm Optimization in GIS based environments: A case study at Danang city, Vietnam. Expert Systems with Applications. 41: 8062–8074.
2010. Trends in Solid Waste Management: Issues, Challenges and Opportunites, International Consultative Meeting on Expanding Waste Management Services in Developing Countries.
L. A. Guerrero, G. Maas, W. Hogland. 2013. Solid waste management challenges for cities in developing countries. Waste Management. 33: 220–232.
D. Hoornweg, P. Bhada-Tata. 2012. What a Waste: A Global Review of Solid Waste Management, Urban Development Series, Knowledge papers, World Bank, No. 15.
D. Hoornweg, P. Lam, and M. Chaudhry. 2005. Waste Management in China: Issues and Recommendations, Urban Development Working Papers, Working Paper No. 9, East Asia Infrastructure Department, World Bank,
B. Noche, T. Chinakupt, F. A. Rhoma, M. Jawale. 2010. Optimization Model for Solid Waste Management System Network Design Case Study, IEEE. 5: 230-236.
S. Vonolfen, M. Affenzeller, A. Beham, S. Wagner. 2011. Simulation-based evolution of municipalglass-waste collection strategies utilizing electric trucks, LINDI 2011, 3rd IEEE International Symposium on Logistics and Industrial Informatics. 117-182.
O. Apaydin, M. T. Gonullu. (2011) Route time estimation of solid waste collection vehicles based on population density. Global NEST Journal. 13(2): 162-169.
C. Chalkias, K. Lasaridi. 2009. A GIS based model for the optimization of municipal solid waste collection: the case study of Nikea, Athens, Greece. Wseas Transactions On Environment And Development. 5 (10): 640-650.
J. Liu, Y. He. 2012. Ant colony algorithm for waste collection vehicle arc routing problem with turn constraints. IEEE, Eighth International Conference on Computational Intelligence and Security. 35-39.
F. Bonomo, G. Durán, F. Larumbe, J. Marenco, A Method for Optimizing Waste Collection Using Mathematical Programming: A Buenos Aires Case Study.
D. Hall, T. A. (Jenny) Nguyen. 2012. Waste Management in Europe: Companies, Structure and Employment; A report commissioned by the European Federation of Public Service Unions (EPSU); Public Services International Research Unit (PSIRU).
Md. S. Islam, M A Hannan, H. Basri, A. Hussain, M. Arebey. 2014. Solid Waste Bin Detection and Classification using Dynamic Time Warping and MLP Classifier. Waste Management. 34: 281-290.
M A Hannan, M. Arebey, R A Begum and H. Basri. 2012. An automated solid waste bin level detection system using a gray level aura matrix. Waste Management. 32 (12): 2229-2238.
M A Hannan, M. Arebey, R A Begum, A Mustafa and H. Basri. 2013. An automated solid waste bin level detection system using Gabor wavelet filters and Multilayer perception, Resources, Conservation & Recycling. 72: 33-42.
Dr D. Hogg, Eunomia Research & Consulting, Costs for Municipal Waste Management in the EU, Final Report to Directorate General Environment, European Commission.
T. Nuortio, J. Kytöjoki, H. Niska, O. Bräysy. 2006. Improved route planning and scheduling of waste collection and transport. Expert Systems Appl. 30: 223–232.
M. Medina. 2007. The World’s Scavengers, Salvaging for Sustainable Consumption and Production. 54- 56.
L. Herbert, centenary history of waste and waste managers in London and south east England, the Chartered Institution of Wastes Management (CIWM).
M A Hannan, M. Arebey, R A Begum and H. Basri. 2011. RFID and communication technologies for solid waste bin and truck monitoring system. Waste Management. 31 (12): 2406-2413.
U.S. Environmental Protection Agency. 2002. Solid Waste Management: A Local Challenge with Global Impacts, Solid Waste and Emergency Response.
S. K. Nambiarl, Dr. S. M. Idicula. 2013. A Multi-Agent Vehicle Routing System for Garbage Collection, IEEE, Fifth International Conference on Advanced Computing (ICoAC)
A.V. Bhambulkar, I. P. Khedikar. 2011. Municipal solid waste (MSW) collection route for laxmi nagar by geographical information system. International Journal of Advanced Engineering Technology. II (IV): 48-53.
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