International Journal of Environmental Protection and Policy

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The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam

Received: 01 August 2014    Accepted: 25 August 2014    Published: 10 September 2014
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Abstract

Recycling and reuse of solid waste has a number of benefits in the overall process of solid waste management. First, it reduces the amount of waste that has to be disposed off; be it in landfills or otherwise. In this way, it reduces constraints on other resources needed in the management of solid waste. Secondly, it is an economic activity through which new enterprises can be created and thus creating employment through collection and reselling recyclable materials, or working directly in the enterprises. In a solid waste characterisation study carried out in Dar es Salaam, it was found that despite the fact that 98% of solid waste generated per day can be recycled or composted, only 10% is recycled leaving 90% to be disposed in dumpsites. This paper we present the results and recommend formalisation of recycling activities in order to reduce solid waste management load to the authorities.

DOI 10.11648/j.ijepp.20140205.11
Published in International Journal of Environmental Protection and Policy (Volume 2, Issue 5, September 2014)
Page(s) 147-152
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Recycling, Composting, Solid Waste Characterisation, Dar Es Salaam, Tanzania

References
[1] Read, A.D., 1999. “A weekly doorstep recycling collection, I had no idea we would!” Overcoming the local barriers to participation. Resources, Conservation and Recycling 26: 217-249
[2] Parsons, S., Kriwoken L.K (2010), Report: Maximising recycling participation to reduce waste lo landfill: a study of small and medium-sized enterprises in Horbat, Tasmania, Australia: Waste Management and Research: 28: 472-477
[3] Clarke, M.J., Read, A.D. & Phillips, P.S. (1998); Integrated waste management planning and decision-making in New York City, Resources, Conservation and Recycling , 26, 125-141.
[4] Supryadi, S., Kriwoken, L.K & Birley, I. (2000): Solid waste management solutions for Seramang, Indonesia: Waste Management nd Research, 18, 557-566.
[5] Armijo de Vega, C., Benitez, S.O., Barreto, E.R., (2008): Solid Waste characterisation and recycling potential for a university campus. Waste Management, 28 S21-S26.
[6] Farzadkia, M., Jorfi, S., Akbari, H. & Ghasemi, M. (2012). Evaluation of dry solid waste recycling from municipal solid waste: case of Mashhad City, Iran. Waste Management & Research 30(1) 106-112.
[7] United Republic of Tanzania Environmental Management Act (2004)
[8] United Republic of Tanzania Public Health Act (2009)
[9] Guerrero, L.A, Maas, G., Hogland, W., 2013. Solid waste management challenges for cities in developing countries. Waste Management 33,220-232
[10] Marshall, R.E., Farahbaksh, K., 2013. Systems approaches to integrated solid waste management in developing countries. Waste Management 33 (2013), 988-1003.
[11] Joseph, K (2002). Perspectives of Solid Waste Management in India. Proceedings of the International Symposium on the Technology and Management of the Treatment & Reuse of the Municipal Solid Waste, Shanghai, China
[12] African Development Bank, 2002. Study on the Waste Management Options for Africa. Unpublished Report
[13] Achankeng, E. (2003). Globalisation, Urbanisation and Municipality Solid Waste management in Africa. Proceedings of the African studies Association of Australasia and the Pacific, 2003, Africa on a Global Stage
[14] Kuniyal, J.C., Jain, A.P., Shannigrahi, A.S., 1998. Public involvement in solid waste management in Himalayan trials in and around the valley of Flowers, India. Resources, Conservation and Recycling 24: 299-322
[15] Okot-Okumu, J., Nyenje, R., (2011). Municipal solid waste management under decentralisation in Uganda. Habital International 35, 537-543.
[16] Damghani, A. M et al., 2008. Municipal solid waste management in Tehran: Current practices, opportunities and challenges. Waste Management 28: 929-934
[17] Turan, N.G. et al., 2009. Waste management strategies in Turkey. Waste Management 29:465-469
[18] He, L. et al., 2009. Identifying optimal regional solid waste management strategies through an inexact integer programming model containing infinite objectives and constraints. Waste Management 29: 21-31
[19] Mosler, H.J et al. 2006. Formulating waste management strategies on waste management practices of households in Santiago de Cuba, Cuba. Habitat International 30: 849-862
[20] Bovea, M.D et al., 2010. Environmental assessment of alternative municipal solid waste management strategies: A Spanish case study. Waste Management 30: 2383-2395
[21] Oteng-Ababio, M. 2010. Private sector involvement in solid waste management in Greater Accra Metropolitan Area ni Ghana. Waste Management and Research 28: 322-329
[22] Yedla. S., 2012. Replication of urban innovations – prioritisation of strategies for replication of Dhaka’s community-based composting model. Waste Management and Research 30(1): 20-31
[23] MacRae, G. 2012. Solid waste management in tropical Asia: What can we learn from Bali? Waste Management and Research 30(1): 72-79
[24] Espinosa, R.M et al. 2008. Integral urban solid waste management program in Mexican University. Waste Management 28: S27-S32
[25] Kaseva and Mbuligwe, 2005. Appraisal of solid waste collection following private sector involvement in Dar es Salaam city, Tanzania. Habitat International 29: 353-366
[26] Mbongwe, B., Mmereki, B.T., Magashula, A. 2008. Healthcare waste management: Current practices in selected healthcare facilities, Botswana. Waste Management 28: 226-233
[27] Morrisey, A. J and Phillips, P.S., 2007: Biodegradable municipal waste (BMW) management strategy in Ireland: A comparison with some key issues in the BMW strategy being adopted in England. Resources, Conservation and Recycling 49: 353-371
[28] Read, A.D., Phillips, P., Robinson, G., 1997. Landfill as a future waste management option in England: the view of landfill operators. Resources, Conservation and Recycling 20: 183-205
[29] El-Hamouz, A.M., 2008. Logistical management and private sector involvement in reducing the cost of municipal solid waste collection service in the Tubas area of the West Bank. Waste Management 28: 260-271.
[30] Tinmaz, E and Demir, I., 2006. Research on solid waste management system: To improve existing situation in Corlu Town of Turkey. Waste Management 26: 307-314
[31] Chung, S.S. and Lo, C.W.H., 2008. Local waste management constraints and waste administrators in China. Waste Management 28: 272-281
[32] Alvarez et al., 2008. Optimising the collection of used paper from small business through GIS technique: The Leganes case (Madrid, Spain). Waste Management 28: 282-293
[33] Van der Meulen, G.G., 2011.Geo-informatics aid to solid waste management for sustainable health safety in urban areas. Journal of Applied Technology in Environmental Sanitation Vol.1(1): 27-43.
[34] Kroneos, C.J. and Nanaki, E.A., 2012. Integrated solid waste management – a life cycle assessment approach: the case study of the city of Thessaloniki. Journal of Cleaner Production 27: 141-150
[35] Gunamantha, M. and Sato., 2012. Life cycle assessment of municipal solid waste treatment to energy options: Case study of KARTAMANTUL region, Yogyakarta. Renewable energy 41: 277-284
[36] McDougall, F.R., 2001. Life Cycle Inventory Tools: Supporting the Development of Sustainable Solid Waste Management Systems Vol. 8(2)
[37] Cherubini. F. et al., 2009. Life cycle assessment (LCA) of waste management strategies: Landfilling, sorting plant and incineration. Energy 34: 2116-2123
[38] Miliute, J. and Staniskis, J.K., 2010. Application of life-cycle assessment in optimisation of municipal solid waste management systems: the case of Lithuania. Waste Management and Research 28: 298-308
[39] Rimaitye, I et al., 2012. Application and evaluation of forecasting methods for municipal solid waste generation in an eastern-European city. Waste Management and Research 30(1): 89-98
[40] Dyson, B and Chang N.B., 2005. Forecasting solid waste generation in a fast-growing urban region with system dynamics modelling. Waste Management 25: 669-679
[41] Fell, D., Cox, J., Wilson, D.C., 2010. Future waste growth, modelling and decoupling. Waste Mnagement and Research 28: 281-286
[42] Najm, M.A and El-Fadel, M., 2004. Computer-based interface for an integrated solid waste management optimisation model. Environmental Modelling and Software 19: 1151-1164
[43] Benitez et al., (2008). Mathematical modelling to predict residential solid waste generation. Waste Management 28: S7-S13
[44] Senzige, J.P et al. 2014. Computational Dynamics of Solid Waste Generation and Treatment in the Presence of Population Growth. Asian Journal of Mathematics and Applications Volume 2014, Article ID ama0145, 14 pages ISSN 2307-7743
[45] Huai, X.L et al., 2008. Numerical simulation of municipal solid waste combustion in a novel two-stage reciprocating incinerator. Waste Management 28: 15-29
[46] Sufian, M.A and Bala, B.K., 2007. Modelling of urban solid waste management system: The case of Dhaka city. Waste Management 27: 858-868
[47] Vavilin, V.A. et al., (2004). Modelling Solid Waste Decomposition. Bioresource Technology 94: 69-81
[48] Beigl, P., Lebersorger, S., Salhofer S., 2008. Modelling municipal solid waste generation: A review. Waste Management 28: 200-214
[49] Calabro, P.S. et al., 2011. Modelling biogas extraction at an Italian landfill accepting mechanical and biologically treated municipal solid waste. Waste Management and Research 29(12) 1277-1285
[50] Borgonovo, E., Castings, W., Tarantola, S., 2012. Model emulation and moment-independent sensitivity analysis: An application to environmental modelling. Environmental modelling and Software 34: 105-115
[51] Arribas, C.A., Blazquez, C.A., Lamas, A., (2010). Urban solid waste collection system using mathematical modelling and tools for geographic information systems. Waste Management and Research 28: 355-363
[52] Minciardi, R et al., 2008. Multi-objective optimisation of solid waste flows: Environmentally sustainable strategies for municipalities. Waste Management 28: 2202-2212
[53] Hara, Y., et al., 2010. Current organic waste recycling and potential for local recycling through urban agriculture in Metro Manila. Waste Management and Research 29 (11): 1213-1221.
[54] Ramayah, T., Lee, J.W.C., L.W., 2012. Sustaining the environment through recycling: An empirical study. Journal of Environment Management 102: 141-147
[55] Chao, Y., 2008. Time series analysis of the effects of refuse collection on recycling: Taiwan’s “Keep Off the Ground” measure. Waste Management 28: 859-869.
[56] Troscinetz and Mihelcic, 2008. Sustainable recycling of municipal solid waste in developing countries. Waste Maanagement 29: 915-923.
[57] Snyman, J and Vorster, K. 2011. Sustainability of composting as an alternative waste management option for developing countries: A case study of Tshwane. Waste Management and Research 29(11): 1222-1231.
[58] Batool, S.A., Chaudhry, N., Majeed, K., 2008. Economic potential of recycling in Lahore, Pakistan. Waste Management 28: 294-298
[59] Ino, H., 2011. Optimal environmental policy for waste disposal and recycling when firms are not compliant. Journal of Environmental Economics and Management 62: 290-308
[60] Oliveira, C.R., Bernades, A.M., Gerbase, A.E., 2012. Collection and recycling of electronic scrap: A world overview and comparison with Brazilian situation. Waste Management
[61] Shukla, S.R, Harad A.M., Jawale, L.S., 2008. Recycling of PET into useful textile auxiliaries. Waste Management 28: 51-56.
[62] Gomez G, Meneses M, Ballinas L and Castells F (2008) Characterisation of urban solid waste in Chihuahua, Mexico. Waste Management 28 2465-2471
[63] Tchobanoglous G and Kreith F (2002) Handbook of Solid Waste Management, second edition, McGraw Hill.
[64] Al-Khatib I A, Maria M, Zahra A S F A, Shaheen H Q and Kassinos D (2010) Solid Waste characterisation, quantification and management practices: A case study: Nablus district – Palestine. Journal of Environmental Management 91 1131-1138
Author Information
  • School of Computational and Communication Science and Engineering - The Nelson Mandela African Institution of Science and Technology (NM-AIST), Arusha Tanzania

  • School of Computational and Communication Science and Engineering - The Nelson Mandela African Institution of Science and Technology (NM-AIST), Arusha Tanzania

  • Faculty of Military Science, Stellenbosch University, Private Bag X2, Saldanha 7395, South Africa

  • School of Materials, Energy, Water and Environmental Science - The Nelson Mandela African Institution of Science and Technology (NM-AIST), Arusha Tanzania

Cite This Article
  • APA Style

    Jonas Petro Senzige, Yaw Nkansah-Gyeke, Daniel O. Makinde, Karoli N. Njau. (2014). The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam. International Journal of Environmental Protection and Policy, 2(5), 147-152. https://doi.org/10.11648/j.ijepp.20140205.11

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    ACS Style

    Jonas Petro Senzige; Yaw Nkansah-Gyeke; Daniel O. Makinde; Karoli N. Njau. The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam. Int. J. Environ. Prot. Policy 2014, 2(5), 147-152. doi: 10.11648/j.ijepp.20140205.11

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    AMA Style

    Jonas Petro Senzige, Yaw Nkansah-Gyeke, Daniel O. Makinde, Karoli N. Njau. The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam. Int J Environ Prot Policy. 2014;2(5):147-152. doi: 10.11648/j.ijepp.20140205.11

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  • @article{10.11648/j.ijepp.20140205.11,
      author = {Jonas Petro Senzige and Yaw Nkansah-Gyeke and Daniel O. Makinde and Karoli N. Njau},
      title = {The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam},
      journal = {International Journal of Environmental Protection and Policy},
      volume = {2},
      number = {5},
      pages = {147-152},
      doi = {10.11648/j.ijepp.20140205.11},
      url = {https://doi.org/10.11648/j.ijepp.20140205.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijepp.20140205.11},
      abstract = {Recycling and reuse of solid waste has a number of benefits in the overall process of solid waste management. First, it reduces the amount of waste that has to be disposed off; be it in landfills or otherwise. In this way, it reduces constraints on other resources needed in the management of solid waste. Secondly, it is an economic activity through which new enterprises can be created and thus creating employment through collection and reselling recyclable materials, or working directly in the enterprises. In a solid waste characterisation study carried out in Dar es Salaam, it was found that despite the fact that 98% of solid waste generated per day can be recycled or composted, only 10% is recycled leaving 90% to be disposed in dumpsites. This paper we present the results and recommend formalisation of recycling activities in order to reduce solid waste management load to the authorities.},
     year = {2014}
    }
    

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    T1  - The Potential for Solid Waste Recycling in Urban Area of Tanzania: The Case of Dar Es Salaam
    AU  - Jonas Petro Senzige
    AU  - Yaw Nkansah-Gyeke
    AU  - Daniel O. Makinde
    AU  - Karoli N. Njau
    Y1  - 2014/09/10
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    DO  - 10.11648/j.ijepp.20140205.11
    T2  - International Journal of Environmental Protection and Policy
    JF  - International Journal of Environmental Protection and Policy
    JO  - International Journal of Environmental Protection and Policy
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    EP  - 152
    PB  - Science Publishing Group
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    UR  - https://doi.org/10.11648/j.ijepp.20140205.11
    AB  - Recycling and reuse of solid waste has a number of benefits in the overall process of solid waste management. First, it reduces the amount of waste that has to be disposed off; be it in landfills or otherwise. In this way, it reduces constraints on other resources needed in the management of solid waste. Secondly, it is an economic activity through which new enterprises can be created and thus creating employment through collection and reselling recyclable materials, or working directly in the enterprises. In a solid waste characterisation study carried out in Dar es Salaam, it was found that despite the fact that 98% of solid waste generated per day can be recycled or composted, only 10% is recycled leaving 90% to be disposed in dumpsites. This paper we present the results and recommend formalisation of recycling activities in order to reduce solid waste management load to the authorities.
    VL  - 2
    IS  - 5
    ER  - 

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