ABSTRACT
During the COVID-19 pandemic, essential workers such as waste collection crews continued to provide services in the UK, but due to their small size, maintaining social distancing inside waste collection vehicle cabins is impossible. Ventilation in cabins of 11 vehicles operating in London was assessed by measuring air supply flow rates and carbon dioxide (CO2) in the driver's cabin, a proxy for exhaled breath. The indoor CO2 indicated that air quality in the cabins was mostly good throughout a working day. However, short episodes of high CO2 levels above 1500 ppm did occur, mainly at the beginning of a shift when driving towards the start of their collection routes. This data indicated that the ventilation systems on the vehicles were primarily recirculating air and the fresh air supply made up only 10-20 % of the total airflow. Following recommendations to partly open windows during shifts and to maintain ventilation systems, a second monitoring campaign was carried out, finding on average, an improvement in ventilation on board the vehicles. © 2022 17th International Conference on Indoor Air Quality and Climate, INDOOR AIR 2022. All rights reserved.
ABSTRACT
Biodrying is an essential part of the mechanical–biological treatment process that minimizes moisture content and simultaneously maximizes heating value for refuse-derived fuel (RDF) production. Although the mechanical separation process operates effectively in Thailand's RDF production, high organic content levels and their degradation cause moisture contamination in RDF, producing wet RDF. Aeration is essential for an effective biodrying process, and can reduce RDF's moisture content as well as increase its heating value. To maximize the biodrying effect, aeration should be optimized based on the waste conditions. This study proposes a modified aeration-supplied configuration for wet RDF biodrying. The aeration rate was modified based on the period within the biodrying operation;the first period is from the beginning until day 2.5, and the second period is from day 2.5 to day 5. The optimal aeration supply configuration was 0.5 m3/kg/day in the first period and then 0.3 m3/kg/day until the end of the process;this configuration yielded the greatest moisture content decrease of 35% and increased the low heating value of the biodried product by 11%. The final moisture content and low heating value were 24.07% and 4787 kcal/kg, respectively. Therefore, this optimal aeration-supplied configuration could be applied to meet the moisture content and low heating value requirements of the RDF production standard for Thailand's local cement industry.
ABSTRACT
Sludge generation as an organic by-product of wastewater treatment has seen a consistent increase worldwide due to population growth and industrial activities. This poses a chronic challenge regarding management options and environmental concerns. The agricultural valorization of unconventional organic materials has become inevitable, especially in semi-arid and arid countries that suffer from depleted soils and shortages in farm manure supply. High-income countries have also been interested in this recycling practice to mitigate landfilling or incineration issues. Sewage and some industrial sludges contain a complex mixture of beneficial and harmful substances, which varies with the origin of effluents. Therefore, sludge land application should be well managed in order to achieve sustainable agro-environmental goals. This review paper focuses on different aspects related to sludge reuse in agriculture, starting by investigating the diversity of sludge types and composition. In addition to the preponderant urban sewage sludge, the less-studied industrial sludges, such as those generated from pulp and paper mills or gas-to-liquid industries, are hereby addressed as well. Then, post-land application effects are discussed in relation to sludge quality, dose, and reuse conditions. The present paper also examines the disparities between guidelines that determine sludge conformity for land application in various countries or regions. Accordingly, special attention is given to increasing risks related to emerging pollutants in sludge such as pharmaceuticals, which have been overused since the outbreak of COVID-19 pandemic. This exhaustive investigation will assist the establishment of sustainable strategies for the safe agricultural reuse of biosolids.
ABSTRACT
There is a great deficiency in the collection and disposal of solid waste, with a considerable amount disposed of in dumps instead of in landfills. In this sense, the objective of this research is to propose a solid waste mitigation plan through recovery in the District of Santa Rosa, Ayacucho. For this, a solid waste characterization plan was executed in eight days, and through ANOVA it was shown that there is a significant difference in means between business pairs except between a bakery and a hotel. Through clustering, zones A and B are highly correlated, reflecting that the amount of organic waste was greater than inorganic waste. In the organic waste valorization plan, the results through ANOVA indicate a significant difference for monthly and daily averages, and the clustering shows the different behavior of each month, drawing attention to August, concluding that the valorization pilot plan is viable due to the contribution of a large amount of organic solid waste to the valorization plant.
ABSTRACT
The onset of the COVID-19 pandemic triggered panic buying of food, face masks, gloves, cleaning products and hand sanitizers. Change in food practices, dynamics of plastic and biomedical waste generation during the pandemic has, however, stirred the woes of household solid waste management. The virus loaded waste from indiscriminately discarded face masks, gloves and other biomedical waste with the regular waste stream could cause serious health risks. The present study was undertaken to find out the situation of waste management systems during pandemic outbreak by the households. An online survey was conducted via Google form using well-structured questionnaire. The study covered a sample size of 100 homemakers using simple random sampling technique. Only 45% of households agree with the satisfaction in current waste management system. A majority of 59% of the respondents are burning the household medical waste, 70% of respondents saw the need to avoid mixing of household waste with the PPE products, 64% of respondents are not educated by local authorities on proper waste disposal, and 81% of respondents think there is no sufficient waste management information to the public. Of respondents 54% received awareness regarding the disposal of household medical waste during COVID19 outbreak via social media. Household solid waste management training is important to improve the hygiene and sanitation practices of community people. The current study showed that participants who received training on household solid waste management were significantly correlated with good hygiene practices.
ABSTRACT
Circular economy is gaining popularity across the world, but its implementation in Jaipur District, as in other developing nations, is lacking. The Covid-19 epidemic has resulted in massive volumes of hazardous trash that require specific handling. The goal of this study was to evaluate CE and waste management efforts in Jaipur District, India during the Covid-19 epidemic. Two quarantine healthcare centers in Jaipur District were used as case studies, with data collected using quantitative and qualitative approaches and evaluated to establish the problems of hazardous waste management in Jaipur District. A total of 220 questionnaires were sent to the employees, with 216 (98.18%) of them being returned. There were 118 males (55%) and 98 women (45%) among the respondents, who worked in a variety of fields, including health workers (n = 108;50%), maintenance personnel (n = 62;28.7%), and cleaners/waste handlers (n = 46;21.29%). The majority of the participants (94.44%) said Covid-19 wastes should be separated, whereas 116 people (53.7%) thought managing personal protective equipment during a pandemic was reasonable. According to the findings, training and retraining of personnel on hazardous waste management at the examined healthcare institutions is critical to the implementation and enforcement of national policies for solid waste management. Rajasthan's government must dispose of biological waste in one step, straight out of town, rather than in two steps, first in Jhalana, Jaipur, and then in Jamdoli, Jaipur. © 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
ABSTRACT
In the United States, public transit vehicles have a very low average load factor (10.1-12.4%), resulting in an excessive waste of seat capacity and poor fuel economy per passenger mile served. This problem is gravely exacerbated by the COVID-19 pandemic, which at its peak had caused more than 70% reduction in transit ridership nationwide. On the other hand, the rapid uptake of e-commerce, also accelerated by the pandemic, has put tremendous pressure on last-mile delivery. A co-modality system that integrates transit services with last-mile logistics offers a promising solution to better utilization/sharing of vehicle capacity and supporting infrastructure. Here we show such a system may be implemented based on Autonomous Modular Vehicle Technology (AMVT). At the core of AMVT is the ability to operate a fleet of modular autonomous vehicles or pods that can be moved, stationed, joined, and separated in real time. Coupling modularity with autonomy is poised to enable co-modality and beyond. We describe an AMVT bimodality system that provides integrated public transit and last-mile logistics services with a fleet of pods and discuss relevant research challenges and opportunities, research approaches, and real-world adoption issues. © 2009-2012 IEEE.
ABSTRACT
Accurate prediction of domestic waste generation is a challenging task for municipalities to implement sustainable waste management strategies. In the present study, domestic waste generation in the Kingdom of Bahrain, representing a Small Island Developing State (SIDS) case study, has been investigated during successive COVID-19 lockdowns due to the pandemic in 2020. Temporal trends of daily domestic waste generation between 2019 and 2020 and their statistical analyses exhibited remarkable variations highlighting the impact of consecutive COVID-19 lockdowns on domestic waste generation. Machine learning has great potential for predicting solid waste generation rates, but only a few studies utilized deep learning approaches. The state-of-the-art Bidirectional Long Short-Term Memory (BiLSTM) network model as a deep learning method is applied to forecast daily domestic waste data in 2020. Bayesian optimization algorithm (BOA) was hybridized with BiLSTM to generate a super learner approach. The performance of the BOA-BiLSTM super learner model was further compared with the statistical ARIMA model. Performance indicators of the developed models using ARIMA and BiLSTM showed that the latter yielded superior performance for short-term forecasts of domestic waste generation. The MAE, RMSE, MAPE, and R2 were 47.38, 60.73, 256.43, and 0.46, respectively, for the ARIMA model, compared to 3.67, 12.57, 0.24, and 0.96, respectively, for the BiLSTM model. Additionally, the relative errors for the BiLSTM model were lower than those of the ARIMA model. This study highlights that the BiLSTM can be a reliable forecasting tool for solid waste management policymakers during public health emergencies. © 2022 Elsevier B.V.
ABSTRACT
Energy crisis and increasing rigorous management standards pose significant challenges for solid waste management worldwide. Several emerging diseases such as COVID-19 aggravated the already complex solid waste management crisis, especially sewage sludge and food waste streams, because of the increasingly large production year by year. As mature waste disposal technologies, landfills, incineration, composting, and some other methods are widespread for solid wastes management. This paper reviews recent advances in key sewage sludge disposal technologies. These include incineration, anaerobic digestion, and valuable products oriented-conversion. Food waste disposal technologies comprised of thermal treatment, fermentation, value-added product conversion, and composting have also been described. The hot topic and dominant research foci of each area are summarized, simultaneously compared with conventional technologies in terms of organic matter degradation or conversion performance, energy generation, and renewable resources production. Future perspectives of each technology that include issues not well understood and predicted challenges are discussed with a positive effect on the full-scale implementation of the discussed disposal methods. © 2022 Elsevier Ltd
ABSTRACT
Solid waste management is one of the critical challenges seen everywhere, and the coronavirus disease (COVID-19) pandemic has only worsened the problems in the safe disposal of infectious waste. This paper outlines a design for a mobile robot that will intelligently identify, grasp, and collect a group of medical waste items using a six-degree of freedom (DoF) arm, You Only Look Once (YOLO) neural network, and a grasping algorithm. Various designs are generated before running simulations on the selected virtual model using Robot Operating System (ROS) and Gazebo simulator. A lidar sensor is also used to map the robot's surroundings and navigate autonomously. The robot has good scope for waste collection in medical facilities, where it can help create a safer environment.
ABSTRACT
Garbage disposal and collection is an ongoing global crisis amplified by the increasing world population, lack of funds and public awareness, and recently because of the Covid-19 pandemic. Information Technology can be utilized as a solution for the existing garbage collection methods that are old-fashioned, time-consuming, and energy-consuming due to the lack of a unified and consistent system that incorporates all the parties involved in garbage production and collection. A mobile-based garbage collection system is proposed to overcome the issues aforementioned through route and schedule optimization, AI chatbot, and optimized GPS tracking. The route and schedule optimization is achieved through vehicle routing problem with time windows(VRPTW) with synchronization and precedence that was optimized using LNS;the total travel cost went from 172 minutes to 144 minutes. The AI chatbot feature facilitates reporting garbage collection issues and complaints and enquiring about waste management tips (reduce, recycle, and reuse tips) to be used at home. The most prominent role of developing this AI chatbot is replacing the manual process of reporting garbage collection issues in Sri Lanka with an efficient and interactive way. The chatbot has waste management tips Q and A. In Optimized GPS Tracking, the user can use the map to find the nearest garbage disposal place based on the type of rubbish they generate. The truck driver can find the optimal path to the closest current garbage disposal centres and public trash bins and view the location of Homeowners on the map. The optimized path between two points is displayed based on distance, time, and fuel consumption. The main goal of the component is to show the location of garbage disposal bins and the optimal paths for truck drivers using Linear regression and the Node2vec algorithm. © 2022 IEEE.
ABSTRACT
Purpose>Studies have shown that managing household solid waste from low-cost housing in urban and sub-urban communities is challenging, especially in developing countries and COVID-19 era. Previous research proved that the fourth industrial revolution (4IR) technologies could be engaged to improve urban public services such as household solid waste. Thus, the study investigated 4IR role in improving low-cost housing solid waste management (LCHSWM) in the COVID-19 era across Malaysia's cities.Design/methodology/approach>The researchers selected four Malaysian cities (Pulau Pinang, Kuala Lumpur, Kuching and Putrajaya) to achieve the study's objectives via a qualitative research design. The study engaged forty experts through semi-structured virtual interviews. A thematic approach was used to analyse the collected data.Findings>Findings identified initial high implementation and maintenance costs, unwillingness to accept change, inadequate knowledge and skilled personnel to manage the operation, amongst others, as the perceived challenges facing 4IR technologies in managing low-cost housing solid waste across Malaysian cities in the COVID-19 era. Also, the study proffered measures to improve 4IR technologies usage.Research limitations/implications>This paper is limited to the perceived contributory challenges and proffered measures to improve 4IR technologies usage in managing LCHSW across Malaysian cities in the COVID-19 era.Practical implications>Proffered measures will stir policymakers and the political class (city councils) to start thinking of an all-inclusive approach to addressing the issue of LCHSW in the 21st century. As part of the practical implications, the possible outcome might enhance collaboration between the public and private sectors to better service delivery to mitigate environmental degradation.Originality/value>As revealed in the review, there is a paucity of literature regarding digital technology's roles in mitigating LCHSW across Malaysian cities in the COVID-19 era.
ABSTRACT
Community health centers are the frontliners of healthcare services which in its activities produces medical waste and non-medical waste both in solid and liquid form. This waste needs to be managed in accordance with existing regulations where environmental management must be carried out systematically and sustainably. Regarding the management of Covid-19 medical waste in the health facilities of North Toraja Regency, this study aims to determine the management process, management constraints and compare the management of wastewater and hazardous and toxic solid medical waste generated from handling Covid-19 patients at hospitals and health centers in Toraja Regency. North. The research method used is descriptive research method with case study design. Data collection techniques are carried out by observations, interviews, and documentation of secondary data. The results show that the management of hazardous and toxic solid medical waste water and waste for Covid-19 patients in private hospitals leaves the processing to third parties and government hospitals destroy solid hazardous medical waste with incinerators, while at community health center the wastewater is directly discharged into water bodies and medical hazardous waste. handed over to a third party. The process of treating waste water and hazardous and toxic solid medical waste for Covid-19 patients at the health facilities of North Toraja Regency has not been in accordance with the guidelines issued by the Indonesian Ministry of Health. The main obstacle in processing solid medical waste water and hazardous waste for Covid-19 patients at the health facilities of North Toraja Regency is the lacking of operational costs and delays in disbursing operational costs. Government-owned hospitals were found to be slow to comply the Covid-19 Health Facilities Waste Management Guidelines issued by the Ministry of Health of the Republic of Indonesia.
ABSTRACT
The onset of the COVID-19 pandemic triggered panic buying of food, face masks, gloves, cleaning products and hand sanitizers. Change in food practices, dynamics of plastic and biomedical waste generation during the pandemic has, however, stirred the woes of household solid waste management. The virus loaded waste from indiscriminately discarded face masks, gloves and other biomedical waste with the regular waste stream could cause serious health risks. The present study was undertaken to find out the situation of waste management systems during pandemic outbreak by the households. An online survey was conducted via Google form using well-structured questionnaire. The study covered a sample size of 100 homemakers using simple random sampling technique. Only 45% of households agree with the satisfaction in current waste management system. A majority of 59% of the respondents are burning the household medical waste, 70% of respondents saw the need to avoid mixing of household waste with the PPE products, 64% of respondents are not educated by local authorities on proper waste disposal, and 81% of respondents think there is no sufficient waste management information to the public. Of respondents 54% received awareness regarding the disposal of household medical waste during COVID19 outbreak via social media. Household solid waste management training is important to improve the hygiene and sanitation practices of community people. The current study showed that participants who received training on household solid waste management were significantly correlated with good hygiene practices.
ABSTRACT
Solid waste management is one of the critical challenges seen everywhere, and the coronavirus disease (COVID-19) pandemic has only worsened the problems in the safe disposal of infectious waste. This paper outlines a design for a mobile robot that will intelligently identify, grasp, and collect a group of medical waste items using a six-degree of freedom (DoF) arm, You Only Look Once (YOLO) neural network, and a grasping algorithm. Various designs are generated before running simulations on the selected virtual model using Robot Operating System (ROS) and Gazebo simulator. A lidar sensor is also used to map the robot's surroundings and navigate autonomously. The robot has good scope for waste collection in medical facilities, where it can help create a safer environment.
ABSTRACT
This investigation examines the potential, and the factors affecting the potential of network partners to manage solid waste in the epidemic control area for Coronavirus Disease 2019 (COVID-19). The study area was Mae Sot Municipality in Tak Province, Northern Thailand, which consists of twenty communities. This is an especially pressing study topic given the dearth of literature on solid waste management in Thailand during a pandemic. The sample group was purposively selected, and was composed of household representatives living within the coronavirus epidemic control area. Data was gathered using a quantitative research method. A questionnaire was presented to 400 household representatives. Data results led to the development of an equation to determine waste management potential: Logit(y) = 0.435 − 0.086(X1) − 0.203(X2) − 0.110(X3) + 0.086(X4) + 0.046(X5) − 0.056(X6) + 0.157(X7) + 0.132(X8) + 0.214(X9) − 0.212(X10) − 0.087(X11) + 0.022(X12). Factors affecting public participation in waste management of network partners in epidemic control areas can be written as a predictive equation: Logit(y) = −0.179 + 0.092(PAR1) + 0.177(PAR2) − 0.189(PAR3) + 0.008(PAR4). Potential factors affecting the waste management of network partners in epidemic control areas can be written as follows: Logit(y) = −0.724 + 0.220(POT1) + 0.045(POT2) − 0.234(POT3) + 0.185(POT4). Solid waste management models must be suitable for the context and current situation in the local community. This includes consideration of local participation and the impact on all stakeholders in the area. The key action is to minimize the amount of solid waste before it reaches the disposal stage by focusing on participation from all sectors.
ABSTRACT
Energy crisis and increasing rigorous management standards pose significant challenges for solid waste management worldwide. Several emerging diseases such as COVID-19 aggravated the already complex solid waste management crisis, especially sewage sludge and food waste streams, because of the increasingly large production year by year. As mature waste disposal technologies, landfills, incineration, composting, and some other methods are widespread for solid wastes management. This paper reviews recent advances in key sewage sludge disposal technologies. These include incineration, anaerobic digestion, and valuable products oriented-conversion. Food waste disposal technologies comprised of thermal treatment, fermentation, value-added product conversion, and composting have also been described. The hot topic and dominant research foci of each area are summarized, simultaneously compared with conventional technologies in terms of organic matter degradation or conversion performance, energy generation, and renewable resources production. Future perspectives of each technology that include issues not well understood and predicted challenges are discussed with a positive effect on the full-scale implementation of the discussed disposal methods.
ABSTRACT
This manuscript proposes an integrated system for treating hospital solid waste (H.S.W.) consisting of an incineration and frictional sterilization system capable of operating during normal and emergency situations. We analyzed the benefits of integrating different hospital solid waste (H.S.W.) treatment systems with the existing stand-alone incineration system, with a particular emphasis on the thermal friction sterilization integration system. The objective was to define the economic advantages and benefits in terms of resources recovery of using the thermal frictional sterilization–incineration integrated system during the hospital’s normal and emergency/pandemic operating conditions. We modeled three modeling scenarios based on normal and emergency operating conditions. The results show that the H.S.W. was composed of 74% general H.S.W. Existing incineration systems would be the most expensive process because the sanitary transportation cost represented approximately 96% of the H.S.W. costs. The hospital would realize 40–61% savings relative to the existing method if the integrated incineration–frictional systems were implemented to treat 50–70% of H.S.W.;the savings were better than in other scenarios. Proposed scenario 3 had a much better resources recovery factor than scenarios 1 and 2. This modeling study showed that a thermal frictional sterilization–incineration system could work well even under emergency conditions if the H.S.W. in-house sorting/transportation/storage process is modified to cater to other H.S.W. treatment/sterilization systems.
ABSTRACT
Waste management has been recognized as a real issue in the current situation due to the COVID-19 impact on people’s lifestyles. Therefore, serious actions need to be taken to control and manage this impact on the environment. One of these important environmental programs is the investigation and research of generated wastes during the pandemic. Due to the COVID-19 pandemic, the types and amounts of waste generation have changed, therefore a way forward to reduce this impact is to investigate the data that coming from landfill to devise an appropriate approach. The goal of this study is to predict the amount of construction and demolition (C&D), Grit, Asphalt waste, and Treated Biomedical waste (TBW) before, during, and after pandemic using grey systems theory. The grey model is a relatively new forecasting method that has been employed for prediction in a small amount of data and is also used for uncertain systems. In this study, the data coming from Regina landfill is used to predict the amount of wastes generated during the pandemic using the grey model. The results will be compared with the existing regression-based waste model. Different measures like mean absolute percent error (MAPE) and root mean square error (RMSE) will be used to compare and evaluate the performance of these models. Finally, the best forecasting model will be chosen to predict the amount of waste generation for the future generation. © 2023, Canadian Society for Civil Engineering.
ABSTRACT
Objetivo: O artigo buscou analisar os impactos e reflexos da pandemia de COVID-19 na gestão dos resíduos plásticos. Referencial teórico: A preocupação com a COVID-19 resultou em diversas medidas protetivas, como a determinação do uso de EPIs e restrições de circulação nos centros urbanos. Essas mudanças também impactaram padrões de geração e gestão de resíduos sólidos, especialmente de resíduos plásticos, cujos reflexos negativos nos aspectos socioambientais podem emergir, dado seu descarte inadequado. Método: Foi realizada uma revisão sistemática de literatura, nas bases de dados Scopus, Sage e Web of Science, com utilização do Methodi Ordinatio. Ao total, 22 estudos foram selecionados, compondo o portfólio de pesquisa. Resultados e conclusão: Os resultados demonstraram uma maior concentração de estudos que relacionam os resíduos plásticos nas regiões costeiras, especialmente provenientes de EPIs, e a poluição por microplásticos. Além disso, há uma preocupação com a geração de resíduos de embalagens pela alteração nos padrões de consumo, com o aumento da procura por serviços de e-commerce e delivery. Além de uma preocupação ambiental, destaca-se um problema de ordem social à longo prazo, devido à quebra de padrões de comportamentos sustentáveis na utilização de plástico descartável. Implicações da pesquisa: Soluções são propostas no sentido de utilização de plásticos biodegradáveis, reutilização de EPIs e novas tecnologias de tratamento de resíduos, além da mudança no comportamento social. Originalidade/valor: De um modo geral, o estudo fornece insights e promove reflexões sobre os desafios enfrentados no gerenciamento de resíduos plásticos durante a pandemia de COVID-19.Alternate :Purpose: The article aims to analyze the impacts and reflections of the COVID-19 pandemic on plastic waste management. Theoretical Framework: The concern with COVID-19 resulted in several protective measures, such as the use of PPE and movement restrictions in urban centers. These changes also affected patterns of generation and management of solid waste, especially plastic waste, whose negative effects on socio-environmental aspects may emerge due to its inadequate disposal. Method: We conducted a systematic literature review in the databases Scopus, Sage and Web of Science, employing the Methodi Ordinatio. The review selected 22 studies to compose the research portfolio. Results and conclusion: The results showed a higher concentration of studies on plastic waste in coastal regions, especially from PPE and microplastic pollution. Moreover, there is a concern with the generation of packaging waste by shifting consumption patterns with the increased demand for e-commerce and delivery services. Besides an environmental concern, a long-term social problem stands out regarding the breaking of sustainable behavior patterns in using disposable plastic. Research implications: We propose solutions involving the use of biodegradable plastics, reuse of PPE, and new waste treatment technologies, besides changes in social behavior. Originality/Value: Overall, the study provides insights and promotes reflections on the challenges faced in managing plastic waste during the COVID-19 pandemic.