Research Papershttp://drr.vau.ac.lk/handle/123456789/2342026-05-01T17:51:19Z2026-05-01T17:51:19ZTowards Sustainable Organic Waste Management at the Institutional Canteens in Vavuniya, Sri LankaEkanayaka, D.M.L.E.Kayanan, S.http://drr.vau.ac.lk/handle/123456789/20662026-04-27T11:23:48Z2026-01-01T00:00:00ZTowards Sustainable Organic Waste Management at the Institutional Canteens in Vavuniya, Sri Lanka
Ekanayaka, D.M.L.E.; Kayanan, S.
Organic waste generated in institutional settings poses a major environmental challenge due to
improper management practices that lead to odour nuisance, pest infestation, and greenhouse
gas (GHG) emissions. This study focuses on assessing organic waste management practices in
five institutional canteens in Vavuniya, Sri Lanka, aiming to propose sustainable strategies for
organic waste valorization. The research was conducted from June to September 2024. The
methodology integrated waste audits, on-site field observations, and semi-structured interviews
with canteen operators and relevant stakeholders to evaluate existing practices and challenges.
The collected data were analyzed using quantitative analysis of waste generation, collection,
recycling and disposal rates, supported by qualitative thematic analysis of interview responses
to identify behavioral, operational, and policy-related challenges. A detailed waste flow
analysis was conducted to trace the movement of organic waste from generation to final
disposal and to identify points of inefficiency and resource loss. Results revealed that
approximately 450 kg of solid waste is generated daily from all canteens, of which 92.34% was
organic, varies from 40 kg to 100 kg per day throughout the canteens, including cooked food
leftovers, vegetable and fruit peels, and other biodegradable residues. The absence of source
separation at generation points results in inefficient handling and limited opportunities for
recycling and resource recovery. All generated waste is collected by the local authority and is
directly disposed of at an open dumpsite, creating severe environmental problems such as foul
odours, attraction of flies and stray animals, and leachate contaminates the soil and
groundwater. Moreover, anaerobic decomposition of this waste emits methane, a potent GHG
contributing to climate change. The study identifies the lack of organic waste valorization
initiatives and absence of institutional policies as major causes. It recommends introducing
composting and biogas units, along with the source segregation programmes, and conducting
stakeholder awareness campaigns to convert biodegradable waste into valuable resources and
renewable energy. These measures will support Sri Lanka’s National Waste Management
Policy (2021), Nationally Determined Contributions (NDCs), and Sustainable Development
Goals (SDGs) 11 and, 13 contributing to more sustainable and climate-resilient waste
management.
2026-01-01T00:00:00ZRole of Material Recovery Facility in Minimizing the Final Disposal: Evidence from Anuradhapura Municipal CouncilRathnayake, R.M.M.A.Kayanan, S.http://drr.vau.ac.lk/handle/123456789/20652026-04-27T11:21:06Z2026-01-01T00:00:00ZRole of Material Recovery Facility in Minimizing the Final Disposal: Evidence from Anuradhapura Municipal Council
Rathnayake, R.M.M.A.; Kayanan, S.
Improper solid waste management (SWM) remains a pressing environmental challenge in
developing countries, leading to open dumping, and associated air, water, and soil pollution. In
Sri Lanka, the increasing waste generation due to rapid urbanization has highlighted the need
for sustainable solutions that minimize final disposal and promote resource recovery. The
research adopted a mixed-method approach involving field observations, structured interviews
with municipal officials and waste handlers, and secondary data from the Anuradhapura
Municipal Council (AMC) SWM division were used to study the current status of SWM
practices. Material Flow Analysis (MFA) was used to assess waste generation, composition,
recovery rates, and residual disposal pathways to understand the role of MRF in minimizing the
waste disposal. Results indicated that the AMC generates approximately 32.8 tons of waste per
day, of which around 62.25% is collected, approximately 42% comprises non-compostable
waste directed to the Material Recovery Facility (MRF) for sorting and recovery, and the
compostable waste temporally stored in the MRF facility to send for composting. At the MRF
facility, non-compostable waste is manually segregated into recyclable and non-recyclable
fractions. Recyclable plastics, paper, and cardboard, averaging approximately 140 tons in 2024,
are pressed and baled at MRF to optimize space utilization, and ensure convenient handling
prior to dispatch to private recyclers. Non-recyclable but combustible waste fractions were
baled and transported to cement manufacturing facilities for co-processing, contributing to
energy recovery and waste to energy initiatives. Overall, AMC has achieved significant
progress in managing MSW through composting, recycling, and energy recovery, thereby
reducing dependency on disposal and achieving an impressive 99% of waste diversion rate in
terms of collection while, 61.5% as per the generation. The findings emphasize that a well
managed MRF, coupled with effective source segregation and public private collaboration can
substantially enhance waste minimization while this approach represents a replicable model for
sustainable waste management for the local authorities of Sri Lanka. The MRF facility
contributes to achieving Sri Lankan Waste Management Policy targets with respect to waste
diversion and supports the United Nations Sustainable Development Goals particularly SDG
11; Sustainable Cities and Communities.
2026-01-01T00:00:00ZIntegrated Waste Management Control in a Clinical Waste Treatment Facility in Sri Lanka: A Model for Sustainable OperationsWishvajith, M.H.D.L.Kayanan, S.http://drr.vau.ac.lk/handle/123456789/20642026-04-27T11:18:49Z2026-01-01T00:00:00ZIntegrated Waste Management Control in a Clinical Waste Treatment Facility in Sri Lanka: A Model for Sustainable Operations
Wishvajith, M.H.D.L.; Kayanan, S.
The increasing demand for environmentally compliant clinical waste treatment in Sri Lanka
highlights the need for integrated approaches that minimize pollution across liquid, gaseous,
and solid waste streams. This study was conducted at a licensed clinical waste treatment facility
located in the Western Province of Sri Lanka, addressing its operational performance and
alignment with national regulatory requirements. Field investigations were carried out from
May to August 2025 and included process flow analysis, waste tracking, and detailed on-site
observations. These methods enabled the evaluation of waste handling practices, treatment
system efficiency, and environmental monitoring procedures. The analyzed data and field
insights directly informed the assessment, revealing several key operational characteristics
observed during site visits, such as organized waste storage, appropriate housekeeping
standards, controlled internal transport, structured documentation, clear effluent discharge
pathways, and multi-stage emission control processes. Liquid waste generated from equipment
cleaning and ash-bathing operations is systematically collected, treated, and reused within the
facility, reducing freshwater demand and preventing discharge-related contamination. Gaseous
emissions from incineration are managed through a multi-stage air pollution control system
comprising Selective Non-Catalytic Reduction, a cyclone separator, a dry reactor, and baghouse
filters, enabling consistent compliance with Central Environmental Authority emission
standards. Solid residues, mainly bottom ash, are subject to resource recovery and utilized in
manufacturing SLS-certified eco-blocks, supporting national circular economy initiatives. The
facility also maintains continuous environmental monitoring, occupational safety training, and
comprehensive operational documentation, demonstrating adherence to the National
Environmental Act No. 47 of 1980 and related regulatory frameworks. The findings suggest
that integrating pollution prevention technologies with systematic waste reuse and structured
environmental management enhances operational sustainability, strengthens public health
protection, and contributes to Sri Lanka’s progress toward the Sustainable Development Goals
(SDGs). Overall, the facility’s management framework presents a replicable model for
sustainable clinical waste treatment operations in Sri Lanka.
2026-01-01T00:00:00ZInstitutional Plastic Waste Management in Vavuniya, Sri Lanka: Issues and OpportunitiesPiyumika, N.G.T.Kayanan, S.http://drr.vau.ac.lk/handle/123456789/20632026-04-27T11:16:19Z2026-01-01T00:00:00ZInstitutional Plastic Waste Management in Vavuniya, Sri Lanka: Issues and Opportunities
Piyumika, N.G.T.; Kayanan, S.
Rapidly increasing plastic production and low recovery rates have intensified the plastic waste
crisis, caused significant environmental and health impacts and highlighted the urgent need for
sustainable plastic waste management. This study investigates current institutional plastic waste
management practices and explores opportunities for implementing Circular Economy (CE)
strategies. A mixed-method approach involving onsite waste audits, stakeholder interviews,
focus group discussions, and waste flow analysis visualized through Sankey diagrams was
employed to map and evaluate the existing plastic waste flow. Results revealed that the
institution generates approximately 16 kg of plastic waste per day, predominantly consisting of
low-density polyethylene (LDPE) and polyethylene terephthalate (PET), which together
account for nearly 68% of the total. The absence of source segregation severely limits recycling
and recovery potential. Canteens were identified as the major sources of plastic waste
generation, contributing nearly 89% of the total plastic waste and producing a wide range of
materials, including single-use plastics and packaging items. Currently, all the collected plastic
waste is transported to an open dumpsite, leading to soil and water contamination, toxic and
greenhouse gas emissions from open burning, and micro plastic pollution. Key challenges
identified include inadequate source segregation, insufficient bins and storage facilities, limited
infrastructure, weak institutional governance, and a lack of partnerships with licensed recyclers.
Proposed CE strategies include eliminating single-use plastics, adopting green procurement,
establishing segregation at source, forming partnerships with recyclers, and channeling non
recyclables into waste-to-energy initiatives. These measures can significantly reduce
environmental pollution, generate economic benefits, and create a replicable, cost-effective
model for higher education institutions in Sri Lanka. The findings support the National Policy
on waste management and the national action plan on plastic waste management, contributing
to Sri Lanka’s transition toward a circular economy.
2026-01-01T00:00:00Z