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All Journal Setrum : Sistem Kendali-Tenaga-elektronika-telekomunikasi-komputer CCIT (Creative Communication and Innovative Technology) Journal Jurnal Fokus Elektroda : Energi Listrik, Telekomunikasi, Komputer, Elektronika dan Kendali Frontier Energy System and Power Engineering Jurnal Kajian Ilmiah Fokus Elektroda: Energi Listrik, Telekomunikasi, Komputer, Elektronika dan Kendali) Universal Raharja Community (URNITY Journal) Seminar Nasional Produk Terapan Unggulan Vokasi Jurnal Elektrik EDUCATIONE: Journal of Education Research and Review
I Gede Para Atmaja
Politeknik Negeri Manado
Agriculture, Biological Sciences & Forestry Arts Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Immunology & microbiology Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Mathematics Mechanical Engineering Social Sciences Transportation Other

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Journal : CCIT (Creative Communication and Innovative Technology) Journal

 1 
Development of the Concept Design of Rooftop Solar Power Plant Practice Tool Stieven Netanel Rumokoy; I Gede Para Atmaja; Maureen Langie; Josephin Sundah
CCIT Journal Vol 15 No 2 (2022): CCIT JOURNAL
Publisher : Universitas Raharja

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (488.903 KB) | DOI: 10.33050/ccit.v15i2.2192

Abstract

Solar energy source as an alternative to gain electrical energy continues to grow. One of the utilization systems is to use the solar panels on the roof top of the house. The Household-scale of Solar System Power Plant has been widely used. This case requires skilled workers for the installation of this system. This study aims to develop a household-scale of Solar System Power Plant practice tool into a complete system. The used method begins with a literature study and then continues with the design system. The results obtained are a household-scale Solar System Power Plant tool design that can describe a complete system of the electrical energy distribution. The concept of a practical tool that previously only focused on the mechanical installation of solar panels but now become more complete with the addition of an electrical energy distribution system.
The Angle Adjustment System of The Solar Energy to Electrical Energy Converter Practice Tool Stieven Netanel Rumokoy; I Gede Para Atmaja; Adriyan Warokka; Yosua O. Sihombing; Christian O. Pelealu
CCIT Journal Vol 16 No 2 (2023): CCIT JOURNAL
Publisher : Universitas Raharja

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33050/ccit.v16i2.2193

Abstract

Practical tools need to be created to represent the conditions of a system to support the learning process. In the learning process, especially when studying the utilization of solar energy, a practical tool is required to describe the system of solar panel installation. The practical tool for converting solar energy to electrical energy needs to depict the installation system that occurs during the installation of solar panels. This study aims to develop an angle adjustment system in the practical tool for converting solar energy to electrical energy that can represent the changes in angles and the amount of energy that can be obtained. The methodology begins with a literature study and is followed by the design and testing of the tool. The results obtained show that the Angle Adjustment System in the practical tool for converting solar energy to electrical energy has been able to represent the conditions of solar panel installation. The more perpendicular the light source is to the surface of the solar panel, the greater the amount of electrical energy that can be obtained.
Conceptual Design of an Integrated Smart Home System with PV Solar Power for Traditional Minahasa Wooden House Tulangi, Gideon F.; Rumokoy, Stieven Netanel; Atmaja, I Gede Para; Pangemanan, Daisy D. G.; Dodie, Stanley B.; Langie, Maureen B.
CCIT (Creative Communication and Innovative Technology) Journal Vol. 18 No. 1 (2025): CCIT JOURNAL
Publisher : Universitas Raharja

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33050/ccit.v18i1.3263

Abstract

The traditional Minahasa wooden house is an integral part of Indonesia's cultural heritage. However, in this modern era, the challenge of preserving cultural authenticity while introducing it to the technological era is becoming increasingly urgent. This research aims to design a Smart Home System concept integrated with Photovoltaic (PV) Solar Power Plant for traditional Minahasa wooden houses. The objective of this study is to identify the potential for integrating smart home technology and PV Solar Power Plant in Minahasa wooden houses and to develop a concept that combines traditional elements with modern technology. The research methodology will involve a literature review to understand the concepts of smart homes, PV Solar Power Plant, and the characteristics of traditional Minahasa wooden houses. Additionally, descriptive research through interviews will be conducted in collaboration with industry partners to obtain data and examples of traditional Minahasa wooden houses to be used as benchmarks in the concept design. This research can contribute to integrating modern technology into Indonesia's cultural traditions while enhancing the competitiveness of Minahasa wooden house products in the market. The result of this research is a conceptual design for the implementation of a Smart Home System integrated with a PV rooftop solar power plant system in Minahasa wooden houses. The utilization of solar energy as electrical energy is predicted to achieve an annual energy yield of 16,775 kWh.
Safety Analysis: Rooftop PV System Training Equipment Rumokoy, Stieven Netanel; Warokka, Adriyan; Atmaja, I Gede Para; Gumilar, Lang-lang; Monika, Dezetty
CCIT (Creative Communication and Innovative Technology) Journal Vol 18 No 2 (2025): CCIT JOURNAL
Publisher : Universitas Raharja

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33050/ccit.v18i1.3538

Abstract

The implementation of PV Rooftop Power Plant systems as an alternative energy source has become increasingly widespread. The growing use of these systems is accompanied by the need for skilled workers with competencies in their installation. To support the development of such competencies, various training equipment designs have been created to enhance workers' skills in rooftop PV installation. This article aims to evaluate Occupational Health and Safety (OHS) aspects in the designed rooftop PV training equipment. The methodology used in this research includes risk analysis through hazard identification, risk assessment, and mitigation recommendations. Data collection was conducted through a literature review related to OHS standards, direct observation of the equipment's use, and interviews with instructors and technicians involved. The research results show that the main risks include Falling Hazards, Electrical Hazards, Mechanical Hazards, Tripping or Snagging Hazards, and Ergonomic Hazards. Risk control measures were implemented by ensuring that the trainees understood work-related risks, using Personal Protective Equipment (PPE), and monitoring the condition of the work area and equipment.
Co-Authors Adelaida Joroh Adriyan Warokka Anang Setiaji Arief Perdana Kumaat Christian O. Pelealu Fata Nidaul Khasanah Gumilar, Lang-lang Josephin Sundah Jusuf Luther Mappadang Karlah L. R. Mansauda Lahinta, Fitria Claudya Leony Ariesta Wenno Maureen Langie Mauren Langie Monika, Dezetty Pangemanan, Daisy D. G. Rion Michael Potoe Rumokoy, Steven N. Silvy Dollorossa Boedi Simanjuntak, Christopel Hamonangan Sintya Paula Junaedy Stanley B. Dodie Tulangi, Gideon F. Ventje Ferdy Aror Ventje Lumentut Walukow, Stephy Beatrix Yosua O. Sihombing