Engineeringhttps://ir.kdu.ac.lk/handle/345/62812026-04-22T01:20:16Z2026-04-22T01:20:16ZAssessment of Groundwater Quality due to Leachate Generated from a Solid Waste DumpsiteUdamadura, LKSamarakoon, MBhttps://ir.kdu.ac.lk/handle/345/63792023-06-23T04:21:36Z2022-09-01T00:00:00ZAssessment of Groundwater Quality due to Leachate Generated from a Solid Waste Dumpsite
Udamadura, LK; Samarakoon, MB
Abstract: In Sri Lanka, one of the main sources
of groundwater pollution is the leachate
generated from solid waste dumpsites.
Karadiyana landfill is located 2km from
Ratmalana airport, which receives nearly 500
tons of Municipal Solid Waste (MSW) daily.
There is a considerable number of wells in the
surrounding area, which are being used for
drinking and other domestic purposes. The main
focus of this study was to identify whether there
is any effect of leachate on groundwater in
nearby areas of Karadiyana dumpsite. Thus,
well waters in nearby areas of the Karadiyana
Dumpsite were collected. Subsequently,
parameters such as pH, Electrical Conductivity
(EC), Total Dissolved Solids (TDS), Total
Phosphates and Ammoniacal Nitrogen included
in these groundwater samples were determined.
After the obtained concentrations were
compared with permissible standards for
drinking water, it was identified that some of
the groundwater samples contained several
contaminants exceeding the permissible limits.
Moreover, the effect of distance on the degree of
leachate contamination was also determined.
Accordingly, it was suggested to identify the
causing grounds for the anomaly obtained in
these outcomes. As the conclusion, it was
determined that for the time being, there is no
significant effect of leachate on groundwater
within the area starting from 400m away from
the Karadiyana Dumpsite.
2022-09-01T00:00:00ZStudy of Issues in Sludge Disposal and Management in Wastewater Treatment PlantsAnuththara, EMSSamarakoon, MBhttps://ir.kdu.ac.lk/handle/345/63782023-06-23T04:18:35Z2022-09-01T00:00:00ZStudy of Issues in Sludge Disposal and Management in Wastewater Treatment Plants
Anuththara, EMS; Samarakoon, MB
Abstract: Improper methods of treatment,
disposal and management of sludge generated
by wastewater treatment plants has become a
major environmental issue at present. This
research focuses on identifying the
environmental impact cause by the methods
used when disposing and reusing the produced
sludge as fertilizer, by the Biyagama CWWTP,
Ratmalana/ Moratuwa WWTP, Ja-Ela/ Ekala
WWTP and Raddolugama sewerage treatment
plant. The sludge samples collected from the
dumpsites were tested for heavy metals,
nutrients, and organic compounds present in it.
After analyzing the constituents present in the
sludge, the issues in respective treatment plants
and its procedures were identified. Moreover,
the possibility of using the sludge as
construction material, fertilizer and whether it
satisfy the requirements to use as a fertilizer for
crops cultivated for human consumption were
discussed. In addition, a model limitation scale
for the sludge standards was introduced
through this study after observing various
limitations maintained in other international
standards. As per the results, only sludge from
Raddolugama Plant was assured as safe for land
application and sludge in Biyagama plant was
found to be the most suitable for fertilization
among the others although other minor hitches
were found. Conclusively, ecofriendly and
sustainable solutions were suggested to
improve the sludge qualities and overcome the
issues found and proposed how sludge could be
utilized for greater uses than wasting a valuable
asset.
2022-09-01T00:00:00ZImproving Turbidity Removal Efficiency in Slow Sand Filter during the Occurrence of High Turbidity Levels in Surface WaterAnoja, NSutharsan, MESarankan, Shttps://ir.kdu.ac.lk/handle/345/63772023-06-23T04:11:56Z2022-09-01T00:00:00ZImproving Turbidity Removal Efficiency in Slow Sand Filter during the Occurrence of High Turbidity Levels in Surface Water
Anoja, N; Sutharsan, ME; Sarankan, S
Abstract: The prominent drinking water
treatment process practised to eliminate
turbidity from surface water, especially during
high turbidity occurrence in the surface water,
is coagulation, sedimentation and rapid sand
filtration for many years. However, the
possibility of turbidity removal using a slow
sand filter (SSF) was not extensively studied in
the case of high turbidity occurrence in the
surface water. This study aimed to evaluate the
performance of SSF in terms of turbidity
removal in surface water, when pre-adding
poly-aluminium chloride (PACl) as a coagulant
chemical along with the pre-treatment by
roughing filter. One per cent of PACl is prepared
and dosed at the rate of 20 mg/L with raw water
into the water intake chamber before it reaches
the SSF. The raw and treated water samples
were collected every six-hour intervals. The raw
water samples whose turbidity level more than
50 NTU were considered and analysed from 174
nos of trails. Turbidity level of raw water and
filtered water was observed in the range of 50-
313 NTU and 0.31-5.5 NTU respectively. The
turbidity of treated water by SSF was observed
to be well below the SLS 614;2013 acceptable
limit of 2 NTU in 98.8% of the treated samples.
It is observed the turbidity removal efficiency
increases when the raw water turbidity level
increases. The result shows turbidity of treated
water from SSF was complying with the
requirement in 98.5% of the trails, which enable
the proper function of treatment plant during
the high raw water turbidity by complying with
SLS 614-2013 when adopting this methodology
2022-09-01T00:00:00ZAnalysis of the Behaviour of Improved Soil under Shallow Concrete FoundationsLiyanage, SYWSampath, KHSMhttps://ir.kdu.ac.lk/handle/345/63762023-06-23T04:08:37Z2022-09-01T00:00:00ZAnalysis of the Behaviour of Improved Soil under Shallow Concrete Foundations
Liyanage, SYW; Sampath, KHSM
bstract: As a step towards sustainability and
environmental protection, use of waste material
and by-products in construction activities is
becoming a trend. Quarry dust is a waste
product of stone crushing process, which can be
effectively used as a shallow ground stabilizer.
This research investigates the behaviour of
improved soil under a shallow foundation, by
adding various mix proportions of quarry dust
to the natural weak soil. Further, based on the
foundation stability analysis, determining an
optimum proportion of soil + quarry dust mix is
studied. This is done by numerically analysing
the displacement, shear strength, stresses,
strains, and safety factors of stabilized soil
underneath a shallow foundation. The study
confirms that mixing quarry dust with natural
weak soil - layered under a shallow foundation
can significantly improve the stability of the
respective foundation. This is due to the
improvement of soil shear strength parameters,
i.e., cohesion and friction angle, which are used
for the stability analysis in the numerical model
– incorporating the Mohr-Coulomb failure
criterion. Further, it can be concluded that the
optimum quarry dust mix proportion that yields
the highest factor of safety of the foundation is
around 60% - 80%, in which further increase in
quarry dust % can cause reduction in the
stability, due to unbalanced effect of cohesion
and friction angle of mixed soil. Overall, the
study concludes that mixing quarry dust with
natural weak soil can be considered as a better
ground improvement technique; however, the
optimum mix proportion has to be determined
after a careful analysis of the the specific soil
types, ground conditions and the applied loads
2022-09-01T00:00:00Z