Safe Waste Disposal Research Articles

Boosting cesium retention efficiency with polyoxometalate-ionic liquid composites: Insights into {WO6} octahedral affinity

Commonly used polyoxometalate (POM) adsorbents exhibit high cesium (Cs) adsorption capacity. However, its impotent ability to sequester adsorbates poses a risk of Cs migration in radioactive waste decontamination and disposal. By leveraging the cesium affinity of POMs and the regulatory properties of ionic liquids (ILs), POM-IL composites hold promise for mitigating the risk of cesium migration through efficient adsorption and retention. Herein, we designed two POM-ILs composed of the phosphotungstate anion (PW) and tetrabutylammonium cation (TBA), i.e., the {WO6}-saturated TBA-PW12 and mono-lacunary TBA-PW11, for the capture and retention of aqueous Cs. The composites were then characterized, and the performance and mechanism of Cs uptake were investigated. TBA-PW12 exhibited ∼300 nm aggregate of particles around 20–60 nm. TBA-PW12 retained the Keggin structural features of PW12O403−, which was proven essential for the binding of Cs+. With a retention efficiency of 97.3% in an NH4Cl eluent and a maximum adsorption capacity of 400.9 mg/g at 338 K, TBA-PW12 exhibited superior Cs capture and retention compared to the POM-IL derived from common Cs adsorbent phosphomolybdate. The Cs adsorption onto TBA-PWs achieved equilibrium within 180 min. Cs uptake by TBA-PWs was monolayer chemisorption of Cs+ accompanied by H+ release, and the removal efficiencies stabilized around initial pH 5–10. Due to intense affinity between {WO6} and Cs+, TBA-PW12 efficiently sequestered Cs + through {WO6} octahedra so that the {WO6}-saturated TBA-PW12 presented better Cs uptake performance than the mono-lacunary TBA-PW11. The IL anion [N(C4H9)4]+ provided a composite-water biphasic interface for aqueous Cs adsorption, while retaining the ability of POM cation PW12O403− to form a stable structure with Cs via its affinity to {WO6} octahedra. These findings support the design of POM-IL composites as efficient adsorbents for capturing and retaining Cs, aiding in the decontamination and safe disposal of radioactive waste, thereby minimizing the risk of nuclide leakage into the environment.

Disposal practices, knowledge and attitude of adult patients visiting outpatient pharmacy services towards unused medicines in Debre Tabor, Northwest Ethiopia: a descriptive cross-sectional study

ObjectiveAccumulation at home and improper disposal of unused medicines pose a major public health problem. Knowledge and attitude of patients may contribute to accumulation and disposal practice of unused medicines....

Novel approach of thionyl chloride detection and disposal using a benzimidazole-based derivative: perspectives and proposals

AbstractBenzimidazoles are important heterocyclic compounds that exhibit a wide range of pharmacological and biological properties. Among all, sensitivity to Lewis acids provide a possibility to act as a fluorescent detectors for senzing the cathions, radicals, highly reactive low-molecular species with hazardous effects to environment and human health. Herein, we present the design and synthesis of N-((1H-benzo[d]imidazol-2-yl)methyl)cinnamamide (I) for the detection of readily reactive thionyl chloride (SOCl2). Treatment of SOCl2 with a novel benzimidazole-based compound I is accompanied by immediate color change. Although the process is irreversible the change noticeable by eye is profitable for a simple and rapid protection against the SOCl2 exposure at amounts harmful for surroundings and body. In the context of environmental issue, the chemical reaction between the detector I and thionyl chloride is beneficial for the safe waste disposal. Thionyl chloride is recaptured in the structure of I throughout the reaction leading to a formation of stable compound II. Incorporation of residual traces of SOCl2 into the structure of organic-type detector I represents effective route to achieve non-reactive and non-damaging derivatives. Accordingly, the organic non-liquid waste is subsequently stored and disposed in a safe manner.

Effective methods for the decontamination of healthcare waste: Ozone and UV-C radiation process

ABSTRACT Human-generated waste, including infectious healthcare waste, poses significant risks to public health and the environment. The COVID-19 pandemic has increased the global production of infectious waste, emphasizing the need for safe and sustainable waste management practices. While autoclaves are commonly used for on-site disposal, alternative methods like ozone gas and UV-C radiation offer environmentally friendly options that effectively eliminate pathogens without leaving toxic residues. Inadequate waste management can contribute to disease transmission, while open burning releases harmful pollutants. This study investigated the effectiveness of different disinfection agents – ozone gas and UV-C radiation – on infectious solid waste contaminated with bacteria. The bacterial indicators examined were Staphylococcus aureus, Bacillus subtilis, and Pseudomonas aeruginosa. The experimental methods included operating each ozone and UV-C radiation individually and simultaneously using ozone gas and UV-C radiation. The study also investigated exposure times and various concentrations of ozone gas. The findings demonstrated that the simultaneous application of ozone gas and UV-C radiation was the most effective method for decontaminating infectious solid waste and targeting the selected bacteria. The concentration of ozone gas ranged from 165 to 5000 ppm, depending on generation time and treatment chamber volume, while exposure times varied from 1 to 180 minutes. In applying UV-C rays, complete elimination of S. aureus was observed after 60 minutes up to 6-log, while the reduction of B. subtilis and P. aeruginosa were 2-log and 3-log, respectively. Ozone gas had the ability to inactivate all strains, but when ozone gas and UV-C rays were used simultaneously, this process was accelerated and improved. The total reduction in the bacterial load was 8-log. Considering the increase in population and the subsequent increase in waste generation, adopting an environmentally friendly waste management method can be very advantageous. Implications: This study highlights the effectiveness of simultaneously applying ozone gas and UV-C radiation for decontaminating infectious solid waste, offering an environmentally friendly alternative to traditional thermal treatments like autoclave and incineration. By optimizing ozone concentrations and exposure times, this method reduces disease transmission risks and minimizes environmental impact. These findings are crucial, especially during outbreaks such as the COVID-19 pandemic, providing scalable, sustainable waste management solutions for healthcare facilities. Implementing these techniques can protect public health and the environment, setting a new standard for safe infectious waste disposal worldwide, mitigating hazardous pollutants, and reduce the exposure risk of bio-hazardous residues.

Logistics of Medical Waste Management: A Systematic Review of Quantitative Models

Background: Medical waste poses various risks to public health, with heightened importance post-COVID-19. The pandemic escalated the ever-growing generation of medical waste, which demands meticulous handling to mitigate potential risks to the healthcare system and the public. Medical waste management relies heavily on logistics, ensuring the safe and proper disposal of medical waste. Objective: Quantitative models play an integral part in establishing effective, flexible, and costefficient logistics in medical waste management. They enable precise planning, optimizing routes, and determining the most efficient disposal methods. This paper provides a systematic review of quantitative models for the logistics of medical waste management. Methods: Through comprehensive search, filtering, and screening, we identify 96 documents for detail review. Results: We present a structural review covering key aspects of modeling: entities involved, objectives, constraints, solution methods, uncertainties and stochastic input, multi-criteria decision analysis, and post-optimality analysis. Conclusion: This state-of-the-art review provides a general guideline for the current approaches to modeling and quantitatively analyzing the logistics of wase management. Our paper also serves as a starting point for practitioners aiming to learn the basics of running logistics of medical waste management.

Prevalence of Foreign Bodies in the Rumen and Reticulum of Goats Slaughtered at Herat Governmental Slaughterhouse, Afghanistan

Goat rearing plays a crucial role in fighting poverty and food insecurity in Afghanistan. However, devastating droughts and poor environmental management systems cause various health issues, such as the ingestion of indigestable foreign bodies (IFBs). The ingestion of IFBs can have serious consequences for goats, including reduced production, weight loss, electrolyte imbalances, and even death. The current study aimed to evaluate the prevalence of IFB ingestion in goats in Herat Slaughterhouse, Herat, Afghanistan. A cross-sectional study was performed at Herat Governmental Slaughterhouse, Herat-Islam Qala Highway, Herat Province, Afghanistan, from July to September 2023. A total of 600 goats were included in this study. The age, sex, and body condition of all included goats were recorded. After the slaughter, the goats were inspected for IFBs, and their rumen and reticulum were incised and examined. Indigestable foreign body classifications were noted and analyzed using the Statistical Package for the Social Sciences version 26. out of six hundred goats (487 male and 113 female), 147/600 (24.5%) had IFBs in their rumens. No IFBs were observed in the reticulum. Plastic was the most commonly detected IFB at 86/600 (14.33%), followed by a plastic thread at 27/600 (4.5%), bag thread at 7/600 (1.16%), lather at 8/600 (1.33%), mixed at 6/600 (1%), chocolate cover at 3/600 (0.5%), balloon at 4/600 (0.66%), wood at 2/600 (0.33%), piece of cloth at 1/600 (0.16%), camel dung at 1/600 (0.16%), cotton thread at 1/600 (0.16%), and wire at 1/600 (0.16%). A total of 116/600 (19.33%) of the goats aged ≥ 1 and ≤2 years presented a high frequency of IFBs. The lowest prevalence of IFBs was detected in goats aged 6 years (1/600; 0.16%). There was no correlation between IFBs and body condition in the examined goats in the current study. The occurrence of IFBs was demonstrated in goats slaughtered at Herat Governmental Slaughterhouse, which can negatively affect the overall productivity and production of goats in Herat Province. In conclusion, effective environmental management systems, safe waste disposal, and prompt foreign body removal are crucial preventive measures.

Menstrual waste behaviour of young adolescents: a theory of planned behaviour approach

ABSTRACT There is a significant rise in the pile of non-biodegradable menstrual waste. Still, the majority of the studies focused on the variety and quality of menstrual products, and only a few investigated the sustainable and safe disposal of used menstrual material. The theory of planned behaviour serves as the foundation upon which the paper constructs its theoretical framework to study menstrual waste disposal behaviour among adolescents. It finds that a variety of social contexts and circumstances influence adolescents' intentions to dispose of used menstrual products carelessly, indirectly contributing to environmental degradation. This paper is an attempt to examine the existing gap in the literature and understand the attitudes and intentions that underlie such an activity. This paper also suggests ways for policymakers and implementors to influence the behaviour of adolescents resulting in hygienic and environmentally safe disposal of menstrual waste.

Human intrusion dose assessment for the safe disposal of radioactive spent resin mixed waste at disposal facilities

This study explores the feasibility of safely disposing of spent resin mixed waste from which pure beta emitters(14C, 3H) have been removed 95 % at near-surface disposal facilities and evaluates the radiation dose to the public in the event of human intrusion after the management period of the disposal site. The decommissioning of Wolsong Unit 1, Korea's first commercial heavy water reactor, marks a critical juncture in the field of nuclear energy, highlighting the imperative for advancements in the methodologies of decommissioning, decontamination, and stewardship of mixed spent resin radioactive waste. To this end, six human intrusion scenarios are examined, and a cross-validation is performed using GENII and RESRAD-ONSITE simulation codes to confirm that the public dose criterion of 1 mSv/y is not exceeded under any of the scenarios. This result suggests that the safe disposal of waste from which beta radionuclides have been removed is possible, carrying significant implications for waste management and environmental protection. Such assessments provide scientific evidence for establishing waste disposal strategies and can serve as foundational data for the sustainable utilization of nuclear energy.

A study on awareness of household waste management in a rural area of northern Kerala

Background: Proper waste management is a major concern of public health. It is necessary to create positive behavioural changes towards waste management among public in order to control diseases. Objective was to assess the awareness of waste management among the households of Cheruthazham Panchayat in northern Kerala. Methods: A community based cross sectional study was conducted in Cheruthazham Panchayat, under Kalliasseri block, located in Kannur district of Kerala state from June 2017 to July 2018. A total of 400 households were studied. Multistage sampling was done. Data was collected by direct interview using a pre-tested semi-structured questionnaire. Data was analyzed using SPSS software. Results: The participants responsible for the waste management in household were women. Out of the 400 participants, 83%, 11% and 6% were Hindus, Muslims and Christians respectively. Majority of them (82%) had an educational qualification of high school and above. Most of them (82.5%) were housewives. About 47% of the study population belongs to upper middle class. Their major sources of information about solid waste management were Kudumbasree class, gramasabha meetings and media. In the study, 19.2% had good knowledge, 79.2% had average knowledge and 1.5% had poor knowledge on waste management. Conclusions: Majority of the participants had above average attitude towards household waste management. Continuous awareness programmes have to be conducted on safe waste disposal and efforts should be made to sustain the supervision of household waste management.

Bridging the ecological–economic–social nexus: sustainability in radioactive waste management

Safe deep geological disposal of radioactive waste is a socio-technical endeavour and connects to different aspects of sustainability. Compared to other long-term infrastructure projects it is unique in terms of time and scope. It affects long temporal dimensions, has an impact on diverse ecological and economic resources, and involves different stakeholder groups. Waste management organizations (WMOs) tasked with the implementation of radioactive waste disposal have to respect these sustainability aspects and meet the respective challenges. This paper provides an introduction to the concept of sustainability and a general overview of the ecological, economic and social challenges and related initial approaches and strategies for the WMOs of deep geological disposal of radioactive waste. With a literature review, sustainability programmes of selected European WMOs are analysed to identify which approaches are being implemented to tackle the various challenges. The various approaches and measures illustrate the broad scope of sustainability in the geological disposal of radioactive waste. Corresponding activities combining technical and non-technical aspects need to be regularly reviewed and adapted to current circumstances and requirements. Differences in the approaches can be explained by differences in the implementation in terms of procedure and time. It is concluded that there is no silver bullet.

Microbial electrochemical enhanced composting of sludge and kitchen waste: Electricity generation, composting efficiency and health risk assessment for land use

To realize the energy and resource utilization from organic solid waste, a two-phase microbial desalination cell (TPMDC) was constructed using dewatered sludge and kitchen waste as the anode substrate. The performance of electricity generation and composting efficacy was investigated, along with a comprehensive assessment of the potential health risks associated with the land use of the resulting mixed compost products. Experimental outcomes revealed a maximum open-circuit voltage of 0.893 ± 0.005 V and a maximum volumetric power density of 0.797 ± 0.009 W/m³. After 90 days of composting enhanced by microbial electrochemistry, a significant organic matter removal rate of 31.13 ± 0.44 % was obtained, and the anode substrate electric conductivity was reduced by 30.02 ± 0.04 % based on the anode desalination. Simultaneously, there was an increase in the content of available nitrogen, phosphorus, and potassium, as well as an improvement in the seed germination index. The forms of heavy metals shifted from bioavailable to stable residual states. The non-carcinogenic hazard index (HI) values for heavy metals and polycyclic aromatic hydrocarbons (PAHs) during the land use of compost products were less than 1, and the total carcinogenic risk (TCR) values for heavy metals and PAHs were below the acceptable threshold of 10−4. The occupational population risk of infection from five pathogens was higher than that of the general public, with all risk values ranging from 8.67 × 10−8 to 1, where the highest risk was attributed to occupational exposure to Legionella. These outcomes demonstrated that the mixture of dewatered sludge and kitchen waste was an appropriate anode substrate to enhance TPMDC stability for electricity generation, and its compost products have promising land use suitability and acceptable land use risk, which will provide important guidance for the safe treatment and disposal of organic solid waste.

Frequency of occupational health hazards and factors responsible among the waste handlers at the tertiary care hospitals of Karachi.

Hospital waste handlers (HWHs) are in contact with contaminated waste that put them at risk for occupational health hazards. The objective of the study was to determine the frequency of occupational health hazards and identify factors contributing to them among the HWHs at tertiary care hospitals of Karachi. A cross sectional survey was conducted from January 2021 till June 2022 on 417 conveniently selected HWHs of the public and private tertiary care hospitals of the Karachi including three Public sector hospitals (Civil Hospital Karachi, National Institute of Child Health, Jinnah Post Graduate Medical Center) and five private sector hospitals (Sohail University Hospital, Darulsehat Hospital, Kharadar General Hospital, Patel Hospital and Hamdard University Hospital) using a structured questionnaire. Chi Square test was applied to determine the differences in occurrence of different hazardous outcomes (Needle stick injury, Sharp Injury, Eye Symptoms, Skin symptoms, Cough) between different groups of age, gender, type of hospitals and status of being trained in Hospital Waste Management (HWM). Around half of the HWHs (52.6%) labeled the bins of the waste according to their level of hazard. Only 17.9% disinfected the infected waste. The proportion of participants who experienced needle stick and sharp injury in the last six months was 16.3% and 15.8% respectively. Majority of them used disposable gloves (95.7%) and face masks (94.3%). One thirds had access to aprons while only 10.5% had access to protective shoes at their work place. HWHs of private sector were significantly less likely to experience Needle stick injuries, skin symptoms, cough, breathing difficulty and throat burning. The HWM practices in tertiary care hospitals of Karachi is far from being satisfactory. HWHs must be trained and monitored for safe disposal of waste.

Health facilities readiness for standard precautions to infection prevention and control in Nepal: A secondary analysis of Nepal Health Facility Survey 2021.

Improvements in standard precaution related to infection prevention and control (IPC) at the national and local-level health facilities (HFs) are critical to ensuring patient's safety, preventing healthcare-associated infections (HAIs), mitigating Antimicrobial Resistance (AMR), protecting health workers, and improving trust in HFs. This study aimed to assess HF's readiness to implement standard precautions for IPC in Nepal. This study conducted a secondary analysis of the nationally-representative Nepal Health Facility Survey (NHFS) 2021 data and used the Service Availability and Readiness Assessment (SARA) Manual from the World Health Organization (WHO) to examine the HF's readiness to implement standard precautions for IPC. The readiness score for IPC was calculated for eight service delivery domains based on the availability of eight tracer items: guidelines for standard precautions, latex gloves, soap and running water or alcohol-based hand rub, single use of standard disposal or auto-disable syringes, disinfectant, safe final disposal of sharps, safe final disposal of infectious wastes, and appropriate storage of infectious waste. We used simple and multiple linear regression and quantile regression models to examine the association of HF's readiness with their characteristics. Results were presented as beta (β) coefficients and 95% confidence interval (95% CI). The overall readiness scores of all HFs, federal/provincial hospitals, local HFs, and private hospitals were 59.9±15.6, 67.1±14.4, 59.6±15.6, and 62.6±15.5, respectively. Across all eight health service delivery domains, the HFs' readiness for tuberculosis services was the lowest (57.8±20.0) and highest for delivery and newborn care services (67.1±15.6). The HFs performing quality assurance activities (β = 3.68; 95%CI: 1.84, 5.51), reviewing clients' opinions (β = 6.66; 95%CI: 2.54, 10.77), and HFs with a monthly meeting (β = 3.28; 95%CI: 1.08, 5.49) had higher readiness scores. The HFs from Bagmati, Gandaki, Lumbini, Karnali and Sudurpaschim had readiness scores higher by 7.80 (95%CI: 5.24, 10.36), 7.73 (95%CI: 4.83, 10.62), 4.76 (95%CI: 2.00, 7.52), 9.40 (95%CI: 6.11, 12.68), and 3.77 (95%CI: 0.81, 6.74) compared to Koshi. The readiness of HFs to implement standard precautions was higher in HFs with quality assurance activities, monthly HF meetings, and mechanisms for reviewing clients' opinions. Emphasizing quality assurance activities, implementing client feedback mechanisms, and promoting effective management practices in HFs with poor readiness can help to enhance IPC efforts.

Mountain Tourism Stakeholders’ Perspectives on Waste Management: The Case of Everest in Nepal

ABSTRACT Waste on Mount Everest, both intentional and unintentional, is a significant concern. The study, based on a site visit and interviews with residents, business owners, tourists, and government officials, highlights the region's severe waste management issues. Key problems include the rising number of tourists, inadequate information, limited waste management infrastructure, and a lack of collective commitment. Stakeholders are not contributing effectively to the site's sustainability as a tourist destination. There is a general lack of awareness about safe waste disposal among residents and tourists. Despite local belief that public authorities are trying to improve the situation, articulation among stakeholders is insufficient.

Research progress on microbial adsorption of radioactive nuclides in deep geological environments.

Due to the development and utilization of nuclear energy, the safe disposal of nuclear waste needs to be urgently addressed. In recent years, the utilization of microorganisms' adsorption capacity to dispose of radioactive waste has received increasing attention. When compared with conventional disposal methods, microbial adsorption exhibits the characteristics of high efficiency, low cost, and no secondary pollution. In the long term, microbial biomass shows significant promise as specific chemical-binding agents. Optimization of biosorption conditions, identification of rare earth element binding sites, and studies on the sorption capacities of immobilized cells provide compelling reasons to consider biosorption for industrial applications in heavy metal removal from solutions. However, the interaction mechanism between microorganisms and radioactive nuclides is very complex. This mini-review briefly provides an overview of the preparation methods, factors affecting the adsorption capacity, and the mechanisms of microbial adsorbents.

The cementitious properties of alkali-activated municipal solid waste incineration fly ash-phosphorus slag-secondary aluminum dross matrix composites and the mechanism of solidification of heavy metals

Based on the purpose of safe and resourceful disposal of hazardous waste, this paper proposes a new method for the combined treatment of municipal solid waste incineration fly ash (MSWIFA), phosphorus slag (PS), and secondary aluminum dross (SAD). A novel alkali-activated binder was synthesized by orthogonal experimental design, and the strength formation mechanism of the binder and the solidification and stabilization (S/S) mechanism of heavy metals were revealed. The results show that the maximum strength of the sample at 60 d is 22.4 MPa. The addition of SAD will affect the development of the strength of the solidified body and the types of hydration products of the gel. The hydration products of the solidified body are mainly calcium silicate hydrate (C-S-H), calcium aluminosilicate hydrate (C-A-S-H), and calcium alumina (AFt). The solidified body of alkali-activated cementitious material has a good S/S effect on heavy metals, and its solidification efficiency is Zn > Cd > Pb > Cu > Ni > As > Cr. The maximum solidification rates of Zn, Pb, and Cd were 99.97 %, 97.90 %, and 99.68 %, respectively. At the same time, the leaching concentration of various heavy metals meets the threshold requirements stipulated by relevant international norms and has good environmental safety.

Characterization of concrete reference material for analysis of artificial radionuclides in nuclear power plant decommissioning waste

The decommissioning of nuclear power plants has led to a surge in the production of radioactive waste, necessitating the development of accurate and reliable measurement methods for safe waste disposal. This study presents the development of a new concrete reference material (RM) containing beta, and gamma nuclides for quality assurance and quality control (QA/QC) in concrete measurements. The newly developed RM manufacturing method was used to ensure sample homogeneity; rigorous processes were followed according to ISO guidelines. The RM, designed to mimic real waste matrices, targeted six radionuclides: 60Co, 134Cs, 137Cs, 152Eu, 154Eu, and 90Sr. Homogeneity and stability tests, conducted according to ISO guidelines, confirmed the suitability of the concrete RM for QA/QC purposes. Reference values for the six radionuclides in RM ranged from 66.0 to 172.6 Bq kg−1. The expanded uncertainties of the reference values, at a 95 % confidence level (k = 2), ranged from approximately 7.1 %–17.2 %. The developed RM holds potential as proficiency test material and for validating and verifying analytical methods in radioactive waste analysis. Additionally, the manufacturing method introduced here opens doors for diverse applications, enabling the production of accurate and reliable reference materials for various waste matrices.

Medical Waste Management: A Case of Tier-II Cities

Medical waste management is a critical aspect of healthcare operations, ensuring the safe handling, treatment, and disposal of waste generated from medical activities. This report provides a comprehensive overview of Medical waste management practices, regulations, and challenges. It highlights the importance of adhering to regulatory frameworks, such as the Medical Waste Management Rules, to mitigate health risks and environmental impacts associated with improper waste management. Keywords : Medical waste management, Regulations, Healthcare facilities, Hazardous waste, Waste handling, Waste disposal

A Mini-Review on Safe Treatment and Valorization of Salt Waste in Chemical Production Processes in China

In chemical production processes in China, a huge volume of salt waste is produced, contributing to environmental pollution due to the lack of proper treatment procedures to manage this waste effectively. With the current lack of proper treatment methods for salt waste disposal, landfill emerges as the predominant disposal approach adopted in China, exacerbating environmental concerns associated with the accumulation of such waste. In addition, this method fails to reuse and recycle salt waste. This review paper presents pertinent research on the safe disposal and utilization of salt waste in China. Well-known valorization methods, such as oxidation, thermal treatment, washing separation, precipitation, and evaporation crystallization, are comprehensively reviewed. The current technologies for recovering resources from salt waste and recommendations for its treatment and valorization are analyzed. This research work offers a reference for future resource utilization of industrial salt waste.

Assessment of Solid Waste Management Practices Following Private Partnership Operations in Zaria Urban Area of Kaduna, Nigeria

The safe disposal of municipal waste is very important in promoting a healthy environment. High-quality public services and promoting competition in the waste management sector leads to the formation of private sector participation (PSP) to handle solid waste management in Kaduna. A multi-stage sampling technique was adopted which involves dividing the local government into localities. Stage two involves the purposive sampling technique which was adopted in selecting locality with high population and low population density areas, a total of 400 households from both strata were interviewed. Descriptive statistics was used to analyse the information from the questionnaires and results were presented using frequency tables and charts. The findings revealed that quality of service among the PSP operators recorded high success in the high-income areas and much less in the low and medium-income areas. On average, industry productivity was 5.63 tonnes per day per vehicle. 12 out of which in the study area were above this average and in meeting increased productivity, year of experience in operations, number of trips made, number of times trucks were serviced, and adhering to regulatory agency requirements were among the factors influencing company’s productivity in the state. It also shows less effectiveness of the system in waste management in the area. The study, therefore, recommends that regulatory agency should be more aggressive in playing their statutory roles of managing the PSP operators.