A Comprehensive Review on E-Waste Management Strategies and Prediction Methods: A Saudi Arabia Perspective

Electronic waste generation is increasing dramatically throughout the world. Consequently, this increase in E-waste harms the environment, health, and other aspects of human life. Moreover, hazardous substances and the informal disposal of E-waste severely threaten human health and the environment. Saudi Arabia is the largest Arab country in terms of electronic waste generation and is the Arab country that generates the most E-waste. Over the past few decades, several initiatives and policy implementations have been undertaken in the country. However, the management of E-waste is still a source of distress and an unresolved issue. Sustainable development requires much more effort, primarily efficient E-waste management, which can only be achieved by establishing a formal collection system, early forecasting, and accurate estimations. The purpose of this study is to provide an overview of the fundamental and emerging trends in E-waste production worldwide and in Saudi Arabia. This paper aims to summarize the hazardous elements present in E-waste, their dangerous effects, and the economic potential for recycling E-waste as a means of developing sustainable communities. This study explores the practices regarding efficient E-waste management and E-waste estimation and prediction globally, specifically in Saudi Arabia and other Arab countries. This study suggests that more than the use of a single management probe will be needed to achieve significant results. Instead, a complementary approach can be used to achieve the most effective results. Additionally, people should be aware of the importance of handling and recycling E-waste. This study emphasizes the importance of formal collection and documentation to ensure effective monitoring and sustainable development in any developed country.

[1]  S. Luthra,et al.  Assessing Supply Chain Innovations for Building Resilient Food Supply Chains: An Emerging Economy Perspective , 2023, Sustainability.

[2]  Nurul Hidayana Mohd Noor,et al.  To Recycle or Not to Recycle? Factors Affecting Malaysian Residents’ Intention for Recycling E-Waste , 2023, Malaysian Journal of Social Sciences and Humanities (MJSSH).

[3]  M. Pandey,et al.  Concepts of circular economy for sustainable management of electronic wastes: challenges and management options , 2023, Environmental Science and Pollution Research.

[4]  Jiadong Yu,et al.  A global perspective on e-waste recycling , 2023, Circular Economy.

[5]  Liandong Zhu,et al.  Pollutant removal and toxic response mechanisms of freshwater microalgae Chlorella sorokiniana under exposure of tetrabromobisphenol A and cadmium , 2023, Chemical Engineering Journal.

[6]  K. El-Absy,et al.  Evaluation of Awareness about Electronic Waste and Concern for the Environment in Tayma Governorate, Tabuk Region, Saudi Arabia , 2023, Asian Journal of Environment & Ecology.

[7]  S. Luthra,et al.  Green logistics driven circular practices adoption in industry 4.0 Era: A moderating effect of institution pressure and supply chain flexibility , 2023, Journal of Cleaner Production.

[8]  Manu Sharma,et al.  Overcoming barriers to circular economy implementation in the oil & gas industry: Environmental and social implications , 2023, Journal of Cleaner Production.

[9]  Manu Sharma,et al.  Sustainable Performance through Digital Supply Chains in Industry 4.0 Era: Amidst the Pandemic Experience , 2022, Sustainability.

[10]  Manu Sharma,et al.  Implementation challenges of blockchain technology in closed-loop supply chain: A Waste Electrical and Electronic Equipment (WEEE) management perspective in developing countries , 2022, Supply Chain Forum: An International Journal.

[11]  D. Barceló,et al.  E-waste management, treatment options and the impact of heavy metal extraction from e-waste on human health: Scenario in Vietnam and other countries. , 2022, Environmental research.

[12]  Manu Sharma,et al.  Enhancing supply chain performance using RFID technology and decision support systems in the industry 4.0-A systematic literature review , 2022, Int. J. Inf. Manag. Data Insights.

[13]  Manu Sharma,et al.  A Literature Survey on Vaccine Supply Chain Management Amidst COVID-19: Literature Developments, Future Directions and Open Challenges for Public Health , 2022, World.

[14]  Hridoy Roy,et al.  Electronic waste management scenario in Bangladesh: policies, recommendations, and case study at Dhaka and Chittagong for a sustainable solution , 2022, Sustainable Technology and Entrepreneurship.

[15]  K. Cho,et al.  Advances in Biodegradable Electronic Skin: Material Progress and Recent Applications in Sensing, Robotics, and Human–Machine Interfaces , 2022, Advanced materials.

[16]  S. Luthra,et al.  Challenges to agile project management during COVID-19 pandemic: an emerging economy perspective , 2022, Operations Management Research.

[17]  S. Luthra,et al.  Analysing the impact of sustainable human resource management practices and industry 4.0 technologies adoption on employability skills , 2022, International Journal of Manpower.

[18]  Rakesh D. Raut,et al.  Assessing Effectiveness of Humanitarian Activities against COVID-19 Disruption: The Role of Blockchain-Enabled Digital Humanitarian Network (BT-DHN) , 2022, Sustainability.

[19]  S. Luthra,et al.  The impact of environmental dynamism on low‐carbon practices and digital supply chain networks to enhance sustainable performance: An empirical analysis , 2022, Business Strategy and the Environment.

[20]  S. Mangla,et al.  Overcoming barriers to cross-sector collaboration in circular supply chain management: a multi-method approach , 2022, Transportation Research Part E: Logistics and Transportation Review.

[21]  S. Luthra,et al.  Implementing challenges of artificial intelligence: Evidence from public manufacturing sector of an emerging economy , 2021, Gov. Inf. Q..

[22]  S. Luthra,et al.  Managing Disruptive Industry 4.0 Technologies to Enhance Circular Performance Outcomes: An Emerging Economy Perspective , 2022, SSRN Electronic Journal.

[23]  Abdulaziz I. Almulhim Household's awareness and participation in sustainable electronic waste management practices in Saudi Arabia , 2022, Ain Shams Engineering Journal.

[24]  Manu Sharma,et al.  Impact of sustainable supply chain management on performance of SMEs amidst COVID-19 pandemic: an Indian perspective , 2022, International Journal of Logistics Economics and Globalisation.

[25]  Zahir Rayhan Salim,et al.  Forecasting e-waste recovery scale driven by seasonal data characteristics: A decomposition-ensemble approach , 2021, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[26]  Manu Sharma,et al.  Digital technologies (DT) adoption in agri-food supply chains amidst COVID-19: an approach towards food security concerns in developing countries , 2021, Journal of Global Operations and Strategic Sourcing.

[27]  J. J. Roy,et al.  Green Recycling Methods to Treat Lithium‐Ion Batteries E‐Waste: A Circular Approach to Sustainability , 2021, Advanced materials.

[28]  P. K. Soori,et al.  Analysis of Households’ E-Waste Awareness, Disposal Behavior, and Estimation of Potential Waste Mobile Phones towards an Effective E-Waste Management System in Dubai , 2021, Toxics.

[29]  S. Luthra,et al.  Managing disruptions and risks amidst COVID-19 outbreaks: role of blockchain technology in developing resilient food supply chains , 2021, Operations Management Research.

[30]  S. Wibowo,et al.  An assessment of e-waste generation and environmental management of selected countries in Africa, Europe and North America: A systematic review. , 2021, The Science of the total environment.

[31]  K. Govindan,et al.  Issues and solutions of electronic waste urban mining for circular economy transition: An Indian context. , 2021, Journal of environmental management.

[32]  K. Tse,et al.  Electronic waste generation, economic values, distribution map, and possible recycling system in Indonesia , 2021 .

[33]  Hyunjung Kim,et al.  O2-enriched microbial activity with pH-sensitive solvo-chemical and electro-chlorination strategy to reclaim critical metals from the hazardous waste printed circuit boards. , 2021, Journal of hazardous materials.

[34]  A. Pugazhendhi,et al.  Electronic waste generation, recycling and resource recovery: Technological perspectives and trends. , 2021, Journal of hazardous materials.

[35]  Sudhanshu Joshi,et al.  Enhancing resiliency of perishable product supply chains in the context of the COVID-19 outbreak , 2021, International Journal of Logistics Research and Applications.

[36]  Frederick Oporia,et al.  Knowledge, Perceptions, and Practices of Electronic Waste Management among Consumers in Kampala, Uganda , 2021, Journal of environmental and public health.

[37]  Ki‐Hyun Kim,et al.  E-waste management and its effects on the environment and human health. , 2021, The Science of the total environment.

[38]  B. Ádám,et al.  From inequitable to sustainable e-waste processing for reduction of impact on human health and the environment. , 2021, Environmental research.

[39]  Manu Sharma,et al.  Barriers to blockchain adoption in health-care industry: an Indian perspective , 2021 .

[40]  Muhittin Sagnak,et al.  A proposed sustainable and digital collection and classification center model to manage e-waste in emerging economies , 2020, J. Enterp. Inf. Manag..

[41]  Y. Patil,et al.  An Integrated and Sustainable Model for E-Waste Management for Pune City Households , 2021, Journal of Physics: Conference Series.

[42]  Lean Yu,et al.  Forecasting the electronic waste quantity with a decomposition-ensemble approach. , 2020, Waste management.

[43]  Manu Sharma,et al.  Modeling Circular Economy Dimensions in Agri-Tourism Clusters: Sustainable Performance and Future Research Directions , 2020 .

[44]  Manu Sharma,et al.  Digital supplier selection reinforcing supply chain quality management systems to enhance firm's performance , 2020 .

[45]  Kannan Govindan,et al.  Internet of Things (IoT) adoption barriers of smart cities’ waste management: An Indian context , 2020 .

[46]  Megan K. Jaunich,et al.  Life-cycle modeling framework for electronic waste recovery and recycling processes , 2020 .

[47]  K. Pant,et al.  Environmentally friendly approach for the recovery of metallic fraction from waste printed circuit boards using pyrolysis and ultrasonication. , 2020, Waste management.

[48]  S. Luthra,et al.  Developing a framework for enhancing survivability of sustainable supply chains during and post-COVID-19 pandemic , 2020, International Journal of Logistics Research and Applications.

[49]  N. Huda,et al.  Waste mobile phones: A survey and analysis of the awareness, consumption and disposal behavior of consumers in Australia. , 2020, Journal of environmental management.

[50]  Yesim Deniz Ozkan-Ozen,et al.  Risk assessment for sustainability in e-waste recycling in circular economy , 2020, Clean Technologies and Environmental Policy.

[51]  Motasem N. Saidan,et al.  Estimation of E-waste Generation, Residential Behavior, and Disposal Practices from Major Governorates in Jordan , 2020, Environmental Management.

[52]  Xinping Xiao,et al.  Fractional grey model based on non-singular exponential kernel and its application in the prediction of electronic waste precious metal content. , 2020, ISA transactions.

[53]  L. Ma,et al.  Policy adjustment impacts Cd, Cu, Ni, Pb and Zn contamination in soils around e-waste area: Concentrations, sources and health risks. , 2020, The Science of the total environment.

[54]  Markus Bick,et al.  Exploring gamified persuasive system design for energy saving , 2020, J. Enterp. Inf. Manag..

[55]  Sudhanshu Joshi,et al.  Performance Evaluation of Agro-tourism Clusters using AHP–TOPSIS , 2020, Journal of Operations and Strategic Planning.

[56]  Manu Sharma,et al.  Modelling Supply Chain Flexibility in the Indian Personal Hygiene Industry: An ISM-Fuzzy MICMAC Approach , 2020, Global Business Review.

[57]  Urszula Boryczka,et al.  Combining an artificial intelligence algorithm and a novel vehicle for sustainable e-waste collection. , 2020, The Science of the total environment.

[58]  Chi-Min Shu,et al.  Inconsistencies of e-waste management in developing nations - Facts and plausible solutions. , 2020, Journal of environmental management.

[59]  Elif Kongar,et al.  Predictive analysis of electronic waste for reverse logistics operations: a comparison of improved univariate grey models , 2020, Soft Comput..

[60]  M. Hanafiah,et al.  A review of sustainable e-waste generation and management: Present and future perspectives. , 2020, Journal of environmental management.

[61]  Manu Sharma,et al.  Sustainable Agri-food Supply Chain Practices: Few Empirical Evidences from a Developing Economy , 2020, Global Business Review.

[62]  Abenezer Wakuma Kitila,et al.  Electronic waste management in Addis Ababa: The case of Bole and Nefas Silk Lafto sub-cities , 2020 .

[63]  Manu Sharma,et al.  Assessing enablers of e-waste management in circular economy using DEMATEL method: An Indian perspective , 2020, Environmental Science and Pollution Research.

[64]  Omprakash Kaiwartya,et al.  Characteristic of enterprise collaboration system and its implementation issues in business management , 2019, Int. J. Bus. Intell. Data Min..

[65]  Pankaj Kumar,et al.  A review on the sources, occurrence and health risks of per-/poly-fluoroalkyl substances (PFAS) arising from the manufacture and disposal of electric and electronic products , 2020 .

[66]  Kamaruzzaman Sopian,et al.  An overview of solar photovoltaic panels’ end-of-life material recycling , 2020 .

[67]  N. Huda,et al.  Assessing the recycling potential of “unregulated” e-waste in Australia , 2020 .

[68]  Mingzhou Jin,et al.  Bi-objective design of household E-waste collection with public advertising and competition from informal sectors. , 2020, Waste management.

[69]  Sudhanshu Joshi,et al.  Adoption barriers in engaging young consumers in the Omni-channel retailing , 2019, Young Consumers.

[70]  Seyyed Mohammad Mousavi,et al.  Advances in bioleaching as a sustainable method for metal recovery from e-waste: A review , 2019, Journal of Industrial and Engineering Chemistry.

[71]  Surendra M. Gupta,et al.  Estimation of electronic waste using optimized multivariate grey models. , 2019, Waste management.

[72]  T. Cooper,et al.  Assessing barriers to reuse of electrical and electronic equipment, a UK perspective , 2019, Resources, Conservation & Recycling: X.

[73]  Imran Hussain,et al.  Assessing the generation, recycling and disposal practices of electronic/electrical-waste (E-Waste) from major cities in Pakistan. , 2019, Waste management.

[74]  Luis Parrilla,et al.  Reconfigurable electronics: Addressing the uncontrolled increase of waste electrical and electronic equipment , 2018, Resources, Conservation and Recycling.

[75]  Manu Sharma,et al.  Co-Creation Among Small Scale Tourism Firm: Role of Information Communication and Technology in Productivity and Sustainability , 2018, Int. J. Strateg. Inf. Technol. Appl..

[76]  A. AlOmari,et al.  Medical waste management and production rate in the Eastern Province of the Kingdom of Saudi Arabia , 2018, Euro-Mediterranean Journal for Environmental Integration.

[77]  Sudhanshu Joshi Social network analysis in smart tourism driven service distribution channels: evidence from tourism supply chain of Uttarakhand, India , 2018 .

[78]  S. Ghosh,et al.  Sustainability of metal recovery from E-waste , 2018, Frontiers of Environmental Science & Engineering.

[79]  O. Ouda,et al.  E-waste environmental and information security threat: GCC countries vulnerabilities , 2018, Euro-Mediterranean Journal for Environmental Integration.

[80]  Bader A. Hakami Electronic Waste Management Approaches, Saudi Arabia , 2018 .

[81]  Mahdi Ikhlayel,et al.  An integrated approach to establish e-waste management systems for developing countries , 2018 .

[82]  Mahdi Ikhlayel,et al.  Environmental impacts and benefits of state-of-the-art technologies for E-waste management. , 2017, Waste management.

[83]  Amit Kumar,et al.  E-waste: An overview on generation, collection, legislation and recycling practices , 2017 .

[84]  Sigrid Kusch,et al.  The Link between e-Waste and GDP—New Insights from Data from the Pan-European Region , 2017 .

[85]  Eng. Hoda Shakra,et al.  A model for E-Waste Recycling System Case Study in EGYPT , 2017 .

[86]  Ali Hassanpour,et al.  The potential of Saudi Arabian natural zeolites in energy recovery technologies , 2016 .

[87]  Sadhan Kumar Ghosh,et al.  Waste electrical and electronic equipment management and Basel Convention compliance in Brazil, Russia, India, China and South Africa (BRICS) nations , 2016, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[88]  Gyu-Hyeok Kim,et al.  Bioleaching of spent Zn-Mn or Ni-Cd batteries by Aspergillus species. , 2016, Waste management.

[89]  Xijin Xu,et al.  Children with health impairments by heavy metals in an e-waste recycling area. , 2016, Chemosphere.

[90]  Vijay Kumar Garlapati,et al.  E-waste in India and developed countries: Management, recycling, business and biotechnological initiatives , 2016 .

[91]  Atsushi Terazono,et al.  E-waste recycling processes in Indonesia, the Philippines, and Vietnam: A case study of cathode ray tube TVs and monitors , 2016 .

[92]  Raffaello Cossu,et al.  Food waste generation and industrial uses: A review. , 2015, Waste management.

[93]  G. A. Assumaning,et al.  Estimation of Future Generated Amount of E-Waste in the United States , 2015 .

[94]  Lili Liu,et al.  Development potential of e-waste recycling industry in China , 2015, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[95]  Daniel Froelich,et al.  Characterizing plastics originating from WEEE: A case study in France , 2015 .

[96]  Lili Liu,et al.  Systematic characterization of generation and management of e-waste in China , 2015, Environmental Science and Pollution Research.

[97]  Devin Perkins,et al.  E-waste: a global hazard. , 2014, Annals of global health.

[98]  Naohiro Goto,et al.  Potential e-waste generated from households in Indonesia using material flow analysis , 2014 .

[99]  Melvin Samuel,et al.  Electronic waste – an emerging threat to the environment of urban India , 2014, Journal of Environmental Health Science and Engineering.

[100]  Suthipong Sthiannopkao,et al.  Handling e-waste in developed and developing countries: initiatives, practices, and consequences. , 2013, The Science of the total environment.

[101]  Ravi Naidu,et al.  Electronic waste management approaches: an overview. , 2013, Waste management.

[102]  Atsushi Terazono,et al.  Estimating the amount of WEEE generated in South Korea by using the population balance model. , 2013, Waste management.

[103]  Miloš Polák,et al.  Estimation of end of life mobile phones generation: the case study of the Czech Republic. , 2012, Waste management.

[104]  Adnan Omar,et al.  Electronic Waste: A Growing Concern in Today's Environment , 2011 .

[105]  Keiichi N. Ishihara,et al.  Use and disposal of large home electronic appliances in Vietnam , 2009 .

[106]  J. Ioannidis,et al.  The PRISMA Statement for Reporting Systematic Reviews and Meta-Analyses of Studies That Evaluate Health Care Interventions: Explanation and Elaboration , 2009, Annals of Internal Medicine [serial online].

[107]  Oladele Osibanjo,et al.  Overview of electronic waste (e-waste) management practices and legislations, and their poor applications in the developing countries , 2008 .

[108]  O Osibanjo,et al.  The challenge of electronic waste (e-waste) management in developing countries , 2007, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[109]  C. Cheeseman,et al.  Role of informal sector recycling in waste management in developing countries , 2006 .

[110]  Patrick Wäger,et al.  Does WEEE recycling make sense from an environmental perspective?: The environmental impacts of the Swiss take-back and recycling systems for waste electrical and electronic equipment (WEEE) , 2005 .