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Future directions of municipal solid waste management in Africa
Transformation and rapid population growth in Africa indicates that urbanisation is one of the key determinants of the future of social dynamics and development of the continent. Linked to these changes are increased production levels of Municipal Solid Waste. This book provides recommendations and solutions that derive from current situations, experiences and observations in Africa. This book is a 'must read' for urban planners, environmental engineering students and lecturers, environmental consultants and policy-makers. The book can also be of great help to municipal authorities, as it outlines future directions of Municipal Solid Waste management. These need to be considered by the municipal authorities of most African countries.
Book
Municipal Solid Waste Collection and Management Problems: A Literature Review
This paper presents a review of the available literature on solid waste management problems, with a particular focus on vehicle routing problems. The available papers are classified into different categories with the purpose of providing the reader with a guide that facilitates his or her search for papers in his or her field of interest. For each category, a table is presented that gives a summary of how each paper scores from that perspective. Additional explanation is presented about the characteristics of each category using some key references. Finally, this paper discovers unexplored areas of research and identifies trends in the literature.
Journal Article
Energy Use of Municipal Waste by Waste-to-Energy Technologies: Case Study of Slovakia
The aim of the paper is to quantify the energy potential of municipal waste in Slovakia disposed in landfills and to evaluate possible alternative ways of its utilization using waste to energy technologies, namely incineration, anaerobic digestion (AD) and landfill gas generation (LFG). This paper also analyses the current state of waste management in Slovakia, creates scenarios for waste to energy recovery and compares them with the current waste management. The aim is also to identify and compare the current options and to propose the most acceptable way of utilising municipal waste in accordance with the principles of circular economy and the fulfilment of environmental objectives in Slovakia.
Journal Article
Using remote sensing to detect, validate, and quantify methane emissions from California solid waste operations
Solid waste management represents one of the largest anthropogenic methane emission sources. However, precise quantification of landfill and composting emissions remains difficult due to variety of site-specific factors that contribute to landfill gas generation and effective capture. Remote sensing is an avenue to quantify process-level emissions from waste management facilities. The California Methane Survey flew the Next Generation Airborne Visible/Infrared Imaging Spectrometer (AVIRIS-NG) over 270 landfills and 166 organic waste facilities repeatedly during 2016-2018 to quantify their contribution to the statewide methane budget. We use representative methane retrievals from this campaign to present three specific findings where remote sensing enabled better landfill and composting methane monitoring: (1) Quantification of strong point source emissions from the active face landfills that are difficult to capture by in situ monitoring or landfill models, (2) emissions that result from changes in landfill infrastructure (design, construction, and operations), and (3) unexpected large emissions from two organic waste management methods (composting and digesting) that were originally intended to help mitigate solid waste emissions. Our results show that remotely-sensed emission estimates reveal processes that are difficult to capture in biogas generation models. Furthermore, we find that airborne remote sensing provides an effective avenue to study the temporally changing dynamics of landfills. This capability will be further improved with future spaceborne imaging spectrometers set to launch in the 2020s.
Journal Article
From trash to cash: How blockchain and multi-sensor-driven artificial intelligence can transform circular economy of plastic waste?
Virgin polymers based on petrochemical feedstock are mainly preferred by most plastic goods manufacturers instead of recycled plastic feedstock. Major reason for this is the lack of reliable information about the quality, suitability, and availability of recycled plastics, which is partly due to lack of proper segregation techniques. In this paper, we present our ongoing efforts to segregate plastics based on its types and improve the reliability of information about recycled plastics using the first-of-its-kind blockchain smart contracts powered by multi-sensor data-fusion algorithms using artificial intelligence. We have demonstrated how different data-fusion modes can be employed to retrieve various physico-chemical parameters of plastic waste for accurate segregation. We have discussed how these smart tools help in efficiently segregating commingled plastics and can be reliably used in the circular economy of plastic. Using these tools, segregators, recyclers, and manufacturers can reliably share data, plan the supply chain, execute purchase orders, and hence, finally increase the use of recycled plastic feedstock.
Journal Article
Production, characteristics, and biotechnological applications of microbial xylanases
Microbial xylanases have gathered great attention due to their biotechnological potential at industrial scale for many processes. A variety of lignocellulosic materials, such as sugarcane bagasse, rice straw, rice bran, wheat straw, wheat bran, corn cob, and ragi bran, are used for xylanase production which also solved the great issue of solid waste management. Both solid-state and submerged fermentation have been used for xylanase production controlled by various physical and nutritional parameters. Majority of xylanases have optimum pH in the range of 4.0–9.0 with optimum temperature at 30–60 °C. For biochemical, molecular studies and also for successful application in industries, purification and characterization of xylanase have been carried out using various appropriate techniques. Cloning and genetic engineering are used for commercial-level production of xylanase, to meet specific economic viability and industrial needs. Microbial xylanases are used in various biotechnological applications like biofuel production, pulp and paper industry, baking and brewing industry, food and feed industry, and deinking of waste paper. This review describes production, characteristics, and biotechnological applications of microbial xylanases.
Journal Article
Assessment of COVID-19 Waste Flows During the Emergency State in Romania and Related Public Health and Environmental Concerns
This paper provides a rapid assessment method of potentially infectious waste flow related to the coronavirus disease (COVID-19) pandemic in Romania focusing on the emergency state (from 16 March to 14 May 2020) where a national lockdown was in force with restrictive and social distancing measures concerning population mobility and economic activities. Medical and municipal waste management systems are critical services in combating the virus spread in the community. This assessment is useful due to poor available data of medical waste flow in environmental reports and it covers COVID-19 patients, quarantined, and self-isolated persons as the main potential infectious waste sources. The proposed model estimates that COVID-19 related waste flow is 4312 t at the national level from 25 February to 15 June of which 2633 t in the emergency state period. This assessment is correlated with deficiencies of medical and municipal waste management systems in Romania before the COVID-19 pandemic as stress factors of public health and environment. This study points out the main challenges of waste operators and reveals some best practices during this pandemic crisis. Based on the results and discussion section, several recommendations are proposed to COVID-19 waste-related issues and points out the crucial role of the reliable medical and municipal waste database in managing such biologic hazards at national and EU levels. Monitoring of COVID-19 waste flow through such models are important for decision-makers, particularly in low and middle-income countries which are facing waste management deficiencies and gaps in waste statistics, to reduce other contamination risks or related environmental threats.
Journal Article
Impacts of joint municipal agencification on the democratic governance of waste management
PurposeThe study examines how introducing joint municipal arm's length bodies (ALBs) into municipal waste management has influenced the preconditions of democratic governance.Design/methodology/approachThe authors describe and explain the democratic implications of joint municipal agencification by reviewing the perspectives of representative and participative democracy. Through this approach, the authors apply the exit–voice framework developed by Albert Hirschman to highlight the potential roles and rights of citizens. This research includes country case studies of Finland and Norway. The authors analyse and systematize Finnish and Norwegian waste and organizational policies by reviewing national regulatory documents, commentaries and guidance materials to identify the fundamental missions and institutional traditions of the alternative organizational forms of joint ALBs.FindingsThe study findings highlight that joint agencification has an adverse effect on the democratic governance of waste management policy and services even though these are public monopoly services. They also demonstrate that all joint municipal ALBs limit the classic elements of representative democracy in general, and that private-law ALBs limit residents' rights to influence and participate.Originality/valueThis study contributes to local public management studies by applying Hirschman's theory to comparative reviews of joint agencification and ALBs. It revealed the similarities and differences between the different organizational forms of joint ALBs applied in Finland and Norway. It also demonstrated how the democratic rights of residents depend on how municipalities collaborate.
Journal Article
Circular Economy: A Bibliometric Review of Research in Emerging Economies (2010-2024)
The study “Circular Economy: A Bibliometric Review of Research in Emerging Economies” examines the growing literature on circular economy practices, particularly within environmental science, business, management, and engineering. Utilizing a bibliometric tool and quantitative approach, the research analyzed patterns and trends in publications on circular economy research in emerging economies from 2010 to 2024. The study observed a notable increase in publications since 2019, reflecting a global shift towards sustainable development and heightened awareness of circular economy principles in emerging economies. Key themes identified include sustainability, waste management, and innovative business models, highlighting efforts to address implementation challenges. The significant contributions from countries like India, the UK, and China, along with strong collaborative networks, underscore the importance of international partnerships. The study suggests that future research should strengthen interdisciplinary collaboration and incorporate regional and local contexts to develop tailored strategies. Furthermore, it emphasizes the need for expanded global cooperation.
Journal Article
Circular economy: Municipal solid waste and landfilling analyses in Slovakia
The pursuit of shifting Slovakia towards a circular economy is met with a multitude of obstacles, including the pervasive consumerist mindset among Slovakians. This mindset favors packaged food, leading to its improper disposal in municipal waste instead of being recycled. Furthermore, the inclination towards landfills poses a significant challenge in the management of municipal solid waste (MSW). To address this issue, a quantitative analysis was conducted using developed and validated models, incorporating various factors related to MSW management in Slovakia. Our study confirmed the significance of parameters such as MSW management costs and population size in the amount of MSW generated. Furthermore, our findings include a short-term forecast for MSW generation in Slovakia for the next two years. These results, based on quantitative data, provide valuable insights for policymakers and waste management authorities in Slovakia, emphasizing the urgent need for a transition towards a more sustainable and circular economy.
Journal Article