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Six municipal solid waste management (MSWM) options (A1–A6) in Harare were developed and analyzed for their global warming, acidification, eutrophication and human health impact potentials using life cycle assessment methodology to determine the least impactful option in Harare. Study findings will aid the development of future MSWM systems in Harare. A1 and A2 considered the landfilling and incineration, respectively, of indiscriminately collected MSW with energy recovery and byproduct treatment. Source-separated biodegradables were anaerobically treated with the remaining non-biodegradable fraction being incinerated in A3 and landfilled in A4. A5 and A6 had the same processes as in A3 and A4, respectively, except the inclusion of the recovery of 20% of the recoverable materials. The life cycle stages considered were collection and transportation, materials recovery, anaerobic digestion, landfilling and incineration. A5 emerged as the best option. Materials recovery contributed to impact potential reductions across the four impact categories. Sensitivity analysis revealed that doubling materials recovery and increasing it to 28% under A5 resulted in zero eutrophication and acidification, respectively. Increasing material recovery to 24% and 26% under A6 leads to zero acidification and eutrophication, respectively. Zero global warming and human health impacts under A6 are realised at 6% and 9% materials recovery levels, respectively.

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Integrated and Consolidated Review of Plastic Waste Management and Bio-Based Biodegradable Plastics: Challenges and Opportunities

Mazhandu

Muzenda

Mamvura

et al. 2020

Sustainability

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Cumulative plastic production worldwide skyrocketed from about 2 million tonnes in 1950 to 8.3 billion tonnes in 2015, with 6.3 billion tonnes (76%) ending up as waste. Of that waste, 79% is either in landfills or the environment. The purpose of the review is to establish the current global status quo in the plastics industry and assess the sustainability of some bio-based biodegradable plastics. This integrative and consolidated review thus builds on previous studies that have focused either on one or a few of the aspects considered in this paper. Three broad items to strongly consider are: Biodegradable plastics and other alternatives are not always environmentally superior to fossil-based plastics; less investment has been made in plastic waste management than in plastics production; and there is no single solution to plastic waste management. Some strategies to push for include: increasing recycling rates, reclaiming plastic waste from the environment, and bans or using alternatives, which can lessen the negative impacts of fossil-based plastics. However, each one has its own challenges, and country-specific scientific evidence is necessary to justify any suggested solutions. In conclusion, governments from all countries and stakeholders should work to strengthen waste management infrastructure in low- and middle-income countries while extended producer responsibility (EPR) and deposit refund schemes (DPRs) are important add-ons to consider in plastic waste management, as they have been found to be effective in Australia, France, Germany, and Ecuador.

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Impacts of waste management practices on water resources in Harare

Nhubu

Mbohwa

Muzenda³

et al. 2019

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Comparative assessment of compositing and anaerobic digestion of municipal biodegradable waste in Harare, Zimbabwe

Nhubu

Muzenda

Mbohwa

et al. 2019

Env Prog and Sustain Energy

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Composting and anaerobic digestion (AD) of biodegradable waste were assessed for their benefits from literature and environmental impacts using the life cycle impact assessment (LCIA) procedure. Literature review findings indicate an overall edge for AD over composting largely due to its renewable energy production capabilities, reduced exhaust emissions, and cost effectiveness considering the entire municipal solid waste (MSW) life cycle. LCIA results show that both AD and composting lead to increases across the four impact categories considered namely, global warming, human health, eutrophication, and acidification. AD however showed lower contributions than composting to global warming, human health, and acidification. Composting only showed lower contribution than AD with regards to eutrophication. Overall study results indicate an edge for AD over composting in treating and managing biodegradable fraction of MSW generated in Harare and its surrounding urban and peri urban environments of Chitungwiza, Epworth, Norton, and Ruwa.

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A review of municipal solid waste data for Harare, Zimbabwe

Nhubu¹,

Mbohwa²,

Muzenda³

et al. 2019

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Determination of the Least Impactful Municipal Solid Waste Management Option in Harare, Zimbabwe

Integrated and Consolidated Review of Plastic Waste Management and Bio-Based Biodegradable Plastics: Challenges and Opportunities

Impacts of waste management practices on water resources in Harare

Comparative assessment of compositing and anaerobic digestion of municipal biodegradable waste in Harare, Zimbabwe

A review of municipal solid waste data for Harare, Zimbabwe

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