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Challenges faced by teachers in implementing the process of inclusive education in Batticaloa District Schools
(Faculty of Applied Sciences, South Eastern University of Sri Lanka, Sammanthurai., 2024-11-06) Abilash, K.; Hassan, N. M.
Inclusive education is considered a lofty goal that every country should strive to
achieve. However, implementation of inclusive education and related policies remains
difficult in developing countries like Sri Lanka. Therefore, this study is based on
knowing the challenges faced by teachers in implementing inclusive education,
especially in Batticaloa area and to improve the quality of teaching in the future. The
purpose of this study is to examine the strengths, weaknesses and challenges in the
implementation of inclusive education within government schools in Batticaloa
District. This study was conducted in five educational zones in Batticaloa District. Five
consultants for special education, 05 principals, 120 class teachers, 300 subject
teachers, 25 students and 25 parents were selected from five zones and five government
schools in Batticaloa district on the basis of purposive sampling and random sampling.
Questionnaires, interviews and documents were used as data collection tools to get
information from them. Also, data was collected through group discussions with
subject teachers. Data were analyzed by using SPSS software. Reinforcement of
appropriate practices, lack of parental support, peer teacher-student interaction, teacher
skills, teaching methods, curriculum adaptation, assessment and student achievement,
social attitudes towards disabilities, heavy workload, government attitude, proper
classroom technique, lack of safe infrastructure, resource allocation, several challenges
were identified related to inconsistency in implementing the Individualized Education
Program (IEP) and inadequate explanation of SNE to teachers. However, IE policies
should be developed at the school level to facilitate IE practices. The study
recommended improving school infrastructure, enhancing funding for inclusive
education (IE), organizing specialized training for teachers, and conducting further
research on student achievement, skills development, ICT integration, and resource
management. Future studies should focus on enhancing student achievement,
developing students' soft and hard skills, integrating information communication
technology (ICT), and improving resource management in inclusive education (IE)
schools.
Substitute for coir dust in the potting mixture of coconut (Cocos nucifera) polybag seedlings
(Faculty of Applied Sciences, South Eastern University of Sri Lanka, Sammanthurai., 2024-11-06) Dissanayake, D. M. G. C.; Warnasooriya, W. M. R. S. K.; Herath, U. S.; Thilakarathna, M. T. H.
Quality seedlings are vital for productive coconut cultivation. Polybagged coconut
seedlings are ideal planting materials as they are superior in quality to conventional
bare-rooted seedlings. The recommended potting mixture of polybag consists of topsoil,
cow dung, and coir dust in a 1:2:3 ratio, featuring a significant amount of coir dust.
However, the high export potential of coir dust has rendered it a limited and scarce
resource in Sri Lanka. The present study has identified alternative materials as
substitutes for coir dust in the potting mixture of coconut polybag seedlings. Three
month-old coconut seedlings of variety CRIC 60 with similar sprout length were
established in polybags filled with five different media; T1: coir dust, T2: sawdust, T3:
half-burned paddy husk, T4: paddy husk and T5: paddy straw in combination with soil:
cow dung in 3:1:2 ratio. The experiment was laid out in a Randomized Complete Block
Design with three replicates. Days taken for the emergence of the first leaf,
morphological characteristics of the seedlings, relative chlorophyll content of leaves,
and soil properties were recorded. Data were analyzed using the Analysis of Variance
procedure in R software. Stem girth, seedling height, length and width of leaves, and
relative chlorophyll content of leaves were not significantly (p>0.05) different among
treatments two months after transplanting. Soil pH and electrical conductivity of potting
mixtures were in the desirable range in all treatments. In conclusion, freely available
sawdust, paddy straw, and paddy husk can effectively be incorporated into the potting
mixture of coconut polybag seedlings as a low-cost substitute for coir dust. Soil nutrient
analysis is suggested before any recommendation.
Synthesis and characterization of PVP/Cu2+ based solid polymer electrolyte for rechargeable batteries
(Faculty of Applied Sciences, South Eastern University of Sri Lanka, Sammanthurai., 2024-11-06) Paranagama, D. G. S. P.; Zainudeen, U. L.; Najitha, A. R.
The growing need for sustainable and efficient energy technology has propelled notable
progress in the field of rechargeable batteries. Electrolytes are the essential part of
rechargeable battery systems which are responsible for stability and reversibility of the
battery. Rechargeable batteries that use traditional organic liquid electrolytes have been
linked to a number of safety problems in recent years. Because of this, solid polymer
electrolytes which have the advantages of shape adaptability, flexibility, stability, low
weight, and cheap manufacturing costs are being researched as viable alternatives to the
organic liquid electrolytes that are currently used in rechargeable batteries. In this study,
pure and different concentrations of Cu2+ ion-doped polyvinylpyrrolidone (PVP) solid
polymer electrolytes (SPEs) have been prepared by solution casting method. The
formation of complexes between the polymer and Cu2+ ions has been confirmed by
Fourier transform infrared spectroscopy (FTIR) and UV-Visible spectroscopy. The
highest ionic conductivity of 10.70×10-4 S cm-1 has been observed in the 15% Cu2+ ions
doped PVP electrolyte at room temperature. The ionic conductivity of the best
electrolyte has been further enhanced by nanofiller effect. 0.2% TiO2 nanofiller
incorporated 15% PVP/Cu2+ electrolyte sample has become the most suitable SPE for
rechargeable batteries and it shows a maximum ionic conductivity of 1.65×10-3 S cm-1.
According to thermal stability test, 60 ⁰C could be considered an optimal operating
temperature for the rechargeable battery using this fabricated SPE.
Dual layer of electron transport layer in Sb2S3 solid state solar cell
(Faculty of Applied Sciences, South Eastern University of Sri Lanka, Sammanthurai., 2024-11-06) Farhana, M. A.; Bandara, J.
The electron transport layer (ETL) is a key component specially in planar structure solar
cells. It is used to collect the electrons and reduce the recombination losses. ETL is
chosen by considering the conductance, electrical trap density, and energy bandgap.
Thus, TiO2 and CdS are widely used as ETL in solar cells. Some simulation studies
show the possibility of efficient solar cells minimizing or eliminating traditional
electron transport material. However, the reported efficiencies are less compared to the
efficiency of solar cells that use ETL. In this study, we developed the Sb2S3 solar cells
due to the potential of Sb2S3 semiconductor material. The CdS solution was prepared
by adding thiourea (TU) and cadmium acetamide (Cd(ac)) in 2-methoxyethanol and
stirring until they completely dissolved. Likewise, a TiO2 precursor solution was
prepared by mixing titanium isopropoxide and di-ethanolamine in butan-1-ol. The CdS
was spin-coated on the TiO2 layer to prepare the dual-layer ETL while TiO2 was used
as a single ETL. Also, the thickness of CdS was controlled by the spinning speed of
2500, 3000, and 3500 rpm. The use of a dual ETL enhanced the charge collection hence,
the performance of solar cells was improved compared to the single ETL. The
increasing efficiency was observed up to a certain spinning speed of CdS then it was
reduced. At 3000 rpm speed of CdS, the highest efficiency of 2.23% was achieved for
dual layer ETL. This efficiency was nearly two times greater than a single ETL in our
configuration.
Preliminary study on indoor solar power producer using solar tube
(Faculty of Applied Sciences, South Eastern University of Sri Lanka, Sammanthurai., 2024-11-06) Pirasana, Y.; Tharshika, G.; Joel, S.; Uthayaraj, S.; Jeyaram, S.; Vinojan, R.
such as shading from obstructions, animal interference, harsh weather conditions, and
panel orientation can significantly impact their performance. Importantly, due to
urbanization, accessing direct sunlight becomes increasingly challenging. To overcome
these challenges, the installation of indoor solar panels can be an innovative solution
with minimal maintenance for harnessing sunlight in indoor spaces where outdoor
installation is not feasible. Solar tubes are compact and cost-effective instruments used
to direct sunlight into indoor spaces. The solar tube captures sunlight from outside
through a dome, channel it through a light-guiding tube, and diffuses it into the indoor
spaces. This study investigates the feasibility and effectiveness of indoor solar panel
installation by comparing their performance with outdoor solar panels. Two
polycrystalline 5 W solar panels were used in this study. One solar panel was installed
inside a model house with dimension of 50 cm × 40 cm × 40 cm as an indoor solar
panel, while the other solar panel was placed on top of the model house. Measurements
were taken using an automated IoT based microcontroller system. Preliminary results
suggests that indoor solar panel was 10 % as efficient as the outdoor panel. By
exploring indoor solar panels with light-guiding tubes, we have introduced an
alternative solution to access more solar electricity, contributing to the development of
indoor solar technology and address common issues with outdoor solar panels. This
aligns with the global push for clean energy by introducing innovative methods to
expand solar energy use.