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Journal of Moeslim Research Technik
Published by Yayasan Adra Karima Hubbi
ISSN : 30476704     EISSN : 30476690     DOI : 10.70177/technik
Core Subject : Engineering,
Aerospace Engineering Automotive Engineering Control & Systems Engineering Electrical & Electronics Engineering Engineering
Journal of Moeslim Research Technik is is a Bimonthly, open-access, peer-reviewed publication that publishes both original research articles and reviews in all fields of Engineering including Civil, Mechanical, Industrial, Electrical, Computer, Chemical, Petroleum, Aerospace, Architectural, etc. It uses an entirely open-access publishing methodology that permits free, open, and universal access to its published information. Scientists are urged to disclose their theoretical and experimental work along with all pertinent methodological information. Submitted papers must be written in English for initial review stage by editors and further review process by minimum two international reviewers.
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 5 Documents
 1 
Search results for , issue "Vol. 1 No. 3 (2024)" : 5 Documents clear
Initiating Smart Grid Techniques for Efficient Energy Management Barra, Ling; Xavier, Embrechts; Margarida, Kruger
Journal of Moeslim Research Technik Vol. 1 No. 3 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

In this modern era, the demand for energy continues to increase along with population growth and technological development. Conventional energy distribution systems are increasingly unable to address the challenges of efficiency, reliability and sustainability. Therefore, the Smart Grid concept emerges as an innovative solution to improve energy management efficiently. This research aims to initiate Smart Grid techniques that can improve efficiency in energy management, reduce wastage, and ensure stable and reliable energy distribution. The research methods used include an in-depth literature study on Smart Grid technology, data analysis from Smart Grid implementations in various countries, and simulation and modeling to test the effectiveness of the proposed techniques in the local context. The results show that the implementation of Smart Grid can increase the efficiency of energy management by up to 30%. In addition, the proposed Smart Grid techniques are able to better integrate renewable energy sources, reduce peak loads, and improve response to grid disturbances. This research concludes that Smart Grid techniques have great potential to revolutionize energy management. With proper implementation, Smart Grid can be an effective solution to future energy challenges, ensuring more efficient, reliable and sustainable energy distribution.
Tensile Strength Behavior Of Concrete Containing Seawater, Sea Sand Together With Steel Fibers Adnan, Adnan; Tandon, Meredith; Xavier, Murphy
Journal of Moeslim Research Technik Vol. 1 No. 3 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The characteristics of concrete are that it has high compressive strength and low tensile strength. To increase the tensile strength of concrete, it is necessary to use fiber as a constituent material for concrete. This study aims to evaluate and compare the tensile strength value of concrete containing sea sand and seawater with or without steel fiber reinforcement stolen by seawater for 28 days, as well as analyze the homogeneity of the concrete mixture. The materials used are composite portland cement, gravel, sea sand and seawater and 3D 80/60 BG dramix. Determination of the volume fraction of steel fibers is 0% - 2.5% to the weight of cement. Testing the tensile strength of concrete using the split tensile strength method. The results tensile strength showed that the value of seawater concrete increased due to the reinforcement of steel fiber, with the addition of 2.5% steel fiber, which was 17.8%. The tensile strength value of seawater concrete increased due to the reinforcement of steel fiber, with the addition of 2.5% steel fiber, which is 24.2%. Overall, all test specimens showed uniformity or homogeneous amounts of gravel and steel fibers in all four cross-sectional areas.
Industrial Engineering 4.0 Strategies to Improve Manufacturing Efficiency and Productivity Maharjan, Kailie; Elliot, McCarty; Oscar, Scherschligt
Journal of Moeslim Research Technik Vol. 1 No. 3 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The Industrial Revolution 4.0 has brought significant changes in the manufacturing sector through the application of advanced technologies such as the Internet of Things (IoT), artificial intelligence (AI), and big data analytics. The application of these technologies aims to address the challenges of improving efficiency and productivity in an increasingly complex and competitive manufacturing environment. This research aims to identify and analyse effective strategies in implementing Industry 4.0 techniques to improve operational efficiency and productivity in the manufacturing sector. This research uses a case study method on several manufacturing companies that have implemented Industry 4.0 technology. Data were collected through interviews, direct observation, and analysis of company documents. Qualitative and quantitative approaches were used to analyse the data obtained. The results showed that the implementation of IoT, AI, and big data analytics technologies significantly improved efficiency and productivity. Successful implementation involves good integration between technology and business processes, employee training, and commitment from top management. Companies that implement these strategies successfully reduce downtime, improve product quality, and speed up production time. The research concludes that the right Industry 4.0 strategy can deliver significant improvements in manufacturing efficiency and productivity. The key to success lies in thorough technology integration, improved workforce competencies, and strong management support. Effective implementation of these strategies can give companies a competitive advantage in the global market
The Role of Mechanical Engineering in the Development of Environmentally Friendly Electric Vehicles Wei, Zhang; Bradford, Snyder; Guilin, Xie
Journal of Moeslim Research Technik Vol. 1 No. 3 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

In an effort to address environmental issues caused by greenhouse gas emissions and air pollution from fossil fuel vehicles, the development of electric vehicles is a promising solution. Electric vehicles offer a more environmentally friendly alternative and have the potential to reduce dependence on fossil fuels. The role of mechanical engineering in the innovation and development of electric vehicle technology is crucial to achieve higher efficiency and minimal environmental impact. This research aims to analyze the contribution of mechanical engineering in the development of environmentally friendly electric vehicles, including the identification of technologies and methods used to improve the performance and efficiency of electric vehicles. This research uses a qualitative method with a literature study approach and comparative analysis. Data were collected from various scientific and technical sources, including relevant journals, books, and industry publications. Technical innovations in the design of electric motors, energy storage systems, and materials used in electric vehicles were analyzed. The results show that mechanical engineering has an important role in various aspects of electric vehicle development. Innovations in electric motor design such as the use of permanent magnet synchronous motors (PMSM) and induction motors have improved efficiency and performance. The development of batteries with high energy density and good thermal management is also key in improving the range and reliability of electric vehicles. In addition, the use of lightweight and strong materials in vehicle construction contributes to reducing energy consumption. Mechanical engineering plays a crucial role in the development of more efficient and environmentally friendly electric vehicles. Through various technical innovations, electric vehicles can be a sustainable solution for future transportation, with great potential to reduce negative impacts on the environment. The implementation of new technologies in motor design, energy storage systems, and vehicle materials are decisive factors i
Analysis of Operational Performance and Service of the Jenggala Commuter Train (Route Surabaya Kota – Mojokerto) Zainuddin, Hafid; Judiono, Judiono; Xu, Shanshan
Journal of Moeslim Research Technik Vol. 1 No. 3 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

This research aims to analyze the operational performance and facilities availability at the stations for the Jenggala Commuter Train connecting Surabaya Kota with Mojokerto. Through data collection and analysis, this study will evaluate issues frequently experienced by passengers such as improper departure times, delays, overcrowding, and ticket availability. Additionally, it will assess the service provided by the operators regarding passenger satisfaction with the Jenggala commuter service. The next step involves comparing the analysis results with applicable standards to identify appropriate solutions and recommendations to enhance the efficiency and quality of mass transportation services in urban areas of Indonesia, particularly in East Java. It is hoped that the findings of this research will significantly contribute to improving sustainability and the quality of life for communities through the enhancement of existing transportation systems. The operational performance has been assessed through several parameters. It was found that the load factor and punctuality of journeys have met the established standards. However, travel speed has not yet reached the desired standard. Through the Importance Performance Analysis (IPA) method, an evaluation of the Jenggala commuter train service was conducted by considering both low and high priority service attributes. This aims to ensure that the service performance meets the needs of passengers. The results of the passenger satisfaction level analysis using the Customer Satisfaction Index (CSI) method indicate that the overall satisfaction rating for the Jenggala commuter train service falls within the "satisfied" category. Thus, these findings provide insights into areas where operational performance can be improved and offer an understanding of passenger needs and expectations that can serve as a focus for improvement in the future.

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