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All Journal Interdisciplinary Journal of Advanced Research and Innovation
S. Pongoh, Deitje
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Humanities Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Languange, Linguistic, Communication & Media

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Utilizing Solar Power Plants as Renewable Energy for the Future: (Case Study: PLTS Likupang) Sampaleng, Enzza; S. Pongoh, Deitje; Daeng Patabo, Muchdar; Ticoalu, Benaya; Kondoj, Einstein; Rumagit, Gabriel; Mamentu, Timothy; Mirah, Felove; Assa, Mikha
Interdisciplinary Journal of Advanced Research and Innovation Vol. 2 No. 2 (2024): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i1.42

Abstract

Solar energy is one of the renewable energy sources that has great potential to replace conventional energy sources that have a negative impact on the environment. Solar power plants (PLTS) are technologies that utilize solar energy to generate electricity by converting sunlight into electric current. PLTS can be divided into two types, namely photovoltaic (PV) and concentration (CSP). PV is a PLTS that uses solar cells to directly convert sunlight into electricity, while CSP is a PLTS that uses mirrors or lenses to focus sunlight to a point and generate heat that is used to drive turbines. Both types of PLTS have their own advantages and disadvantages, depending on factors such as location, climate, cost, and land availability. This study discusses the development, challenges, and prospects of PLTS as a renewable energy source for the future. This study also provides an example of Likupang PLTS in North Sulawesi, which is one of the largest PLTS in Indonesia. It can supply electricity to several regions around it with an installed capacity of 21 MWp. This study shows that PLTS has economic, social, and environmental benefits and can contribute to achieving national and global renewable energy targets.
Implementation and Performance Analysis of 3-Phase Motor Rotation Left & Right S. Pongoh, Deitje; R. Rondonuwu, Arnold; A. Wenno, Leony; Muaya, Refaldi; Aldo Pioh, Alfian; Rumbay, Arther; A.G Moningka, Jesica; I.T Najoan, Christiano; A. Kalalo, Gerald
Interdisciplinary Journal of Advanced Research and Innovation Vol. 3 No. 1 (2025): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i2.55

Abstract

This article will offer a fresh perspective on what it would be like to include a 3-phase motor that spins left and right into a device and how to assess the performance that would arise from doing so. We will discuss a few items: 1) What is a left- and right-rotating 3-phase motor? 2) How can a tool or system incorporate left and right-rotating 3-phase motors? 3) What happens when left and right-rotating 3-phase motors are used? 4) Performance analysis and the things to consider if we use a three-phase motor with left and right rotation. This journal will be expanded to make it more understandable and beneficial to all readers. It is based on several current studies and discoveries.
Hydroelectric Power Generation System in Tanggari (PLTA Tanggari 2) S. Pongoh, Deitje; Pongoh, Johan.; Luther Mappadang, Jusuf; Mandagi, Samuel; Ante, Teovano; Ardiani, Dina; Sondakh, Yehezkiel; Monopode, Alfaro
Interdisciplinary Journal of Advanced Research and Innovation Vol. 3 No. 2 (2025): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i4.58

Abstract

The research objective of PLTA Tanggari 2 is to understand and analyze the hydropower system from energy generation to distribution to end consumers, both households and industries. This research aims to improve the efficiency and performance of the entire electricity generation and distribution system. The research methodology used in making this journal is to collect sources or information related to the topic of discussion, namely hydroelectric power plants. The study explores the utilization of hydropower in the Tondano watershed to address electricity needs in North Sulawesi. Tanggari 2 Hydropower Plant exemplifies this by harnessing the potential and kinetic energy of water through a dam on the Tondano River. With an extensive watershed area of 4,700 hectares and Lake Tondano at its core, this system is optimized to efficiently generate electricity for the entire region. The input-output dynamics of hydropower plants are crucial, detailing how water flow drives turbines, ultimately leading to electrical output. This research underscores the potential of watershed utilization as an accessible, economical, and sustainable energy source for broader regional electrification endeavors. The implications of this research extend to enhancing understanding and analysis of water-based power generation systems, from energy production to distribution to end consumers. By improving the efficiency and performance of these systems, there is a significant potential for sustainable energy solutions that can benefit both households and industries in the broader regional context of North Sulawesi.  
Development of a Maintenance System for Low Voltage Electricity Distribution Networks S. Pongoh, Deitje; Tuwokesong, Samsu; Pairunan, Toban; S. C. Manueke, Milano.; Y. Ponglimbong, Hazzel.; G. Moningka, Brevandes.; J. I. Manumpil, Ceysi.; F. Angwarmase, Kristian.; Y. Rory, Dandy.
Interdisciplinary Journal of Advanced Research and Innovation Vol. 3 No. 2 (2025): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i5.63

Abstract

This research focuses on important efforts to ensure the availability and reliability of electricity supply through the design and implementation of effective systems for monitoring and maintaining low voltage electricity distribution networks. The methods used in this research include analysis of maintenance needs, development of software for network monitoring, and integration of sensor technology for early detection of disturbances. The developed system aims to increase maintenance efficiency by providing real-time information about network conditions, enabling preventive action before disruptions occur. In addition, this system is also designed to reduce downtime and maintenance costs, as well as increase the reliability of electricity supply for customers. The research results show that implementing advanced sensor technology and monitoring software can significantly improve response to disruptions and minimize the impact on customer service. Thus, this system not only increases operational efficiency but also provides long-term benefits in maintaining the stability and reliability of electricity supply.
THE IMPLEMENTATION STRATEGY OF QMS INFORMATION TECHNOLOGY PROJECT: CHALLENGES & BENEFITS S. Pongoh, Deitje; R. Kasenda, Sonny; V. Ponggawa, Veny; Liunsanda, Billy; Angellita, Putri
Interdisciplinary Journal of Advanced Research and Innovation Vol. 1 No. 2 (2023): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v1i2.17

Abstract

It cannot be denied that many types of information projects have emerged. However, because of this convenience, many people forget that the quality of a project is also essential in supporting it to last long and getting good feedback from users of the products or services produced by a project. This journal uses a qualitative research method, where existing research results will be reviewed to get a new view. There are several objectives of this study: 1) Knowing the Strategy for Implementing the Quality Management System in Informatics projects, 2) why a Quality Management System is needed in Informatics projects, 3) implementing the Quality Management System in Informatics projects, what are the challenges, 4) Behind a challenge or risk, there is an advantage. There are benefits of applying the Quality Management System to the Informatics project. The research instruments used are observational and interview guidelines. The result is to find out the strategies that can be made to implement the Quality Management System so that this project can improve its quality and can also have an impact in the future on other Informatics projects.
Co-Authors A. Kalalo, Gerald A.G Moningka, Jesica Aldo Pioh, Alfian Angellita, Putri Ante, Teovano Ardiani, Dina Assa, Mikha Daeng Patabo, Muchdar F. Angwarmase, Kristian. G. Moningka, Brevandes. I.T Najoan, Christiano J. I. Manumpil, Ceysi. Kondoj, Einstein Leony Ariesta Wenno Liunsanda, Billy Luther Mappadang, Jusuf Mamentu, Timothy Mandagi, Samuel Mirah, Felove Monopode, Alfaro Muaya, Refaldi Pairunan, Toban Pongoh, Johan. R. Kasenda, Sonny R. Rondonuwu, Arnold Rumagit, Gabriel Rumbay, Arther S. C. Manueke, Milano. Sampaleng, Enzza Sondakh, Yehezkiel Ticoalu, Benaya Tuwokesong, Samsu V. Ponggawa, Veny Y. Ponglimbong, Hazzel. Y. Rory, Dandy.