Load Profiling of Electrical Energy Consumption of Building in Abra State Institute of Sciences and Technology Bangued Campus, Bangued, Abra

AURELIO TAURO
atauro@asist.edu.ph
Abra State Institute of Sciences and Technology
Bangued, Abra, Philippines

ARMANDO VISTE
aviste@asist.edu.ph
Abra State Institute of Sciences and Technology
Bangued, Abra, Philippines

JASON M. MONTEJO
https://orcid.org/0000-0002-2771-7701
jmontejo@asist.edu.ph
Abra State Institute of Sciences and Technology
Bangued, Abra, Philippines

Abstract

The increasing number of Buildings leads to new challenges in balancing supply and demand. While buildings are responsible for 100% of total electricity demand in the Abra State Institute of Sciences and Technology, Bangued Campus, Bangued, Abra, a good understanding of their consumption and load profiles. This paper proposes an approach for the load balancing of line connections to avoid overloading. This study particular in the Abra State Institute of Sciences and Technology, Bangued Campus, Bangued, Abra emphasis will be given to the peak load development, which is considered increasingly relevant for balancing supply and demand and maintaining security of supply.

The study generally aims to provide detailed load profile of the different buildings in Abra State Institute of Sciences and Technology, Bangued Campus, Bangued Abra and statistics on the actual current drawn from the 3 phase power system, more specifically in the load identification per building at Abra State Institute of Sciences and Technology Bangued Campus, Bangued, Abra, the time duration of usage or consumption of electricity during peak hours, reading will be in Kilo Watt Hour consumption per day, the load balancing on 3 phase lines and Line current (actual) per phase. The study utilized descriptive method and analyzed data using statistical treatment. Variables like load profile, time of usage, Kilo Watt Hour consumption per day, average load/day.

It has been found out that the maximum hours of Lighting Outlets being used is eight (8) hours per day wherein it is focused in Admin Building. Moreover, the least records two (2) hours per day with the following building:  Practical Arts, GYM, VIT Student Center and Pre-Fab Marcos Type. It has been found out that almost all of the Buildings were using Convenience Outlets in the maximum 8 Hours office hour per day. Moreover, the least is the VIT Student Center wherein no appliances or any gadgets were plugged into the outlets. The Convenience Outlets remains intact but they are not being used for safety measure the main source is turned off. Electric Fan is one of the common appliances located in the different buildings in the Abra State Institute of Sciences and Technology, Bangued Campus, Bangued, Abra. It was found out that Line A has the highest current which leads to unbalanced load. 

Keywords

Load Profile, Electrical Energy Consumption, Load Balancing, Convenience Outlet, Unbalanced Load

References

The World Energy Council. Electricity consumption. Retrieved on Feb. 5, 2016 from https://www.owlapps.net/owlapps_apps/articles?id=6168349.

Electricity Generation. Retrieved on Feb. 8, 2016 from https://en.wikipedia.org/wiki/Electric_energy_consumption

Electrical Consumption. Retrieved on March 20, 2016 from https://en.wikipedia.org/wiki/Electricity_consumption

Electrical Consumption. Retrieved on Aug. 8, 2017 from https://en.wikipedia.org/wiki/Worldwide_electricity_consumption

Illumination Quality Audit of Lecture and Laboratory Rooms on Selected Buildings of ASIST Bangued Campus

ORLANDO A. LOMBOY
https://orcid.org/0000-0002-0235-5257
orlanlomboy@yahoo.com
Abra State Institute of Sciences and Technology
Bangued, Abra, Philippines

Abstract

Quality education has been a mandate of all Higher Education Institution in the country. The delivery of quality instruction in particular through provision of conducive classrooms and state-of-the art equipment had been their main concern. In this manner, the delivery of instruction is very crucial.  Most of the time, effective delivery of lessons happen in an ideally conducive classroom. And classroom in particular should be designed to be a good ambiance for learning. Several studies had shown that classroom ambiance had a significant effect on the academic performance of students. Classroom lighting in particular depicted an apparent effect on students’ performance. Often times, lighting is perceived as adequate though technically it is insufficient to cater the minimum illuminance requirement of a conducive classroom. The researcher opted to investigate the illuminance level of existing laboratory and lecture rooms in ASIST Bangued Campus. This study revealed that rooms being used are not compliant to illumination minimum quality standards and that they need to augment the lacking illuminance requirement in order to serve its purpose most effectively.

Keywords

Lumen, Design, Illumination, Coefficient, Quality

References

Harper G. 2017. Lighting for Schools, Colleges and Universities. Retrieved on August 30, 2018 from https://www.lyco.co.uk/advice/lighting-for-schools-colleges-and-universities/

Gentile, N., Goven, T., et al. 2016. A field study of fluorescent and LED classroom lights. Retrieved on August 29, 2018 from https://doi.org/10.1177/1477153516675911.

Lighting Upgrade Manual. 1995. Retrieved on August 30, 2018 from https://www.researchgate.net/publication/311301869

Mott, S., Robinson, D., et al.  lluminating the Effects of Dynamic Lighting on Student Learning. Retrieved on August 30, 2018 from https://doi.org/10.1177/2158244012445585.

Oliver K. 2014. Influence of blue-enriched classroom lighting on students׳ cognitive performance. Retrieved on August 29, 2018 from https://doi.org/10.1016/j.tine.2014.09.001.

Usman, Yunusa D. et.al. 2019. Evaluation on the Effect of Learning Environment on Students’ Academic Performance in Nigeria. Retrieved on July 8, 2021 from https://files.erc.ed.gov.

Wali, Yagana S., et.al. 2019. Impact on Classroom Environment on Students’ Performance in English. Retrieved on July 8, 2021 from https://core.ac.uk.

The Impact of a Gamified Reviewer on Alternative Learning System Learners

JANELYN A. TALINGDAN
https://orcid.org/0000-0002-6332-0568
janelyn.ambre@asist.edu.ph
Abra State Institute of Sciences and Technology
Lagangilang, Abra, Philippines

JOVENTINO T. TRINIDAD JR.
https://orcid.org/0000-0002-7391-7712
jjrtrinidad@asist.edu.ph
Abra State Institute of Sciences and Technology
Lagangilang, Abra, Philippines

Abstract

With the proliferation of technology-based edutainment among the young generation, it is very timely to employ a trending technique in learning called gamification. Education is precisely one of the main fields that could benefit from this trend. This study is an assessment of the impact of a developed gamified reviewer on Alternative Learning System (ALS) learners. Printed Accreditation and Equivalency test reviewers were used as input in the creation of a framework for and adopted the ADDIE model in the development of a gamified reviewer. It is a Windows-based application for ALS learners and facilitators to reinforce engagement, enjoyment and learning among learners in preparation for the Accreditation and Equivalency test. The respondents perceived the gamified reviewer as excellent with a System Usability Scale (SUS) score of 82.12 and they strongly agreed that it is highly engaging, enjoying and learnable. The results show that this particular implementation of gamification to improve learning has beneficial impact.

Keywords

Alternative Learning System; Learning; Gamification; Engagement

References

[1] I. Glover, Play as you learn: gamification as a technique for motivating learners, 2013.

[2] C. Cheong, J. Filippou, and F. Cheong, Towards the gamification of learning: Investigating student perceptions of game elements. Journal of Information Systems Education, 25(3), 2014, 233.

[3] K.M. Kapp, The gamification of learning and instruction: game-based methods and strategies for training and education. John Wiley & Sons, 2012.

[4] A. Mavridis, T. Tsiatsos, M. Chatzakis, K. Kitsikoudis, and E. Lazarou, Gamification of Midterm Examinations Using a Dynamic 3D Multiuser Game: What’s the Impact?. In ECGBL2014-8th European Conference on Games Based Learning: ECGBL2014 (p. 372). Academic Conferences and Publishing International, 2014, October.

[5] M. P. A. Balayan, V. V. B. Conoza, J. M. M. Tolentino, R. C. Solamo, and R. P. Feria, On evaluating skillville: An educational mobile game on visual perception skills. In Information, Intelligence, Systems and Applications, IISA 2014, The 5th International Conference on (pp. 69-74). IEEE, 2014, July.

[6] C. G. R. Ramirez, J.B. Almonte, R. R. Tugade, and R. O.  Atienza, Implementation of a digital game-based learning environment for elementary Education. In Education Technology and Computer (ICETC), 2010 2nd International Conference on (Vol. 4, pp. V4-208). IEEE, 2010, June.

[7] J. G. A. Pilar, Education Beyond Borders: Lived-Experiences in Teaching Basic English Grammar among ALS Teachers in Bacolod City, Philippines. Asia Pacific Journal of Multidisciplinary Research, 3(4), 2015.

[8] J. Brooke, SUS: A Retrospective. Journal of Usability Studies, 8(2), 2013, 29-40.

[9] C. Cheong, F. Cheong, and J. Filippou, Quick Quiz: A Gamified Approach for Enhancing Learning. In PACIS (p. 206), 2013, June.

[10] R. De Asmundis, An evaluation model to measure
impact and usability of a serious game
(Doctoral
dissertation, Master Thesis, University of Bari), 2014.

[11] J. Harms, S. Biegler, C. Wimmer, K. Kappel, and T. Grechenig, Gamification of online surveys: Design process, case study, and evaluation. In Human-Computer Interaction (pp. 219-236). Springer International Publishing, 2015, September.

[12] G. Barata, S. Gama, J. Jorge, and D. Gonçalves, Improving participation and learning with gamification. In Proceedings of the First International Conference on gameful design, research, and applications (pp. 10-17). ACM, 2013, October.