The Experiment Practical Design of Marine Auxiliary Engine Monitoring and Control System
Abstract
Maintaining the quality of transportation services and reducing operational costs are some of the problems in shipping companies. This problem can be solved by several solutions. One of them is a reliable machine alarm monitoring and operation system. This study aims to provide a practical design of the ship's auxiliary engine start-stop control system and alarm system. This study uses an experimental method with a descriptive explanation of the observations. The test results show that this system is able to provide a simple, inexpensive, and efficient engine alarm system design to develop this technology for shipping companies. The PLC used is suitable for controlling this system because of its fast response. In addition, the utilized HMI can communicate efficiently with the monitoring system showing the machine parameter interface directly. Direct application of the system has been created provides technology development solutions for monitoring and controlling systems auxiliary machines for shipping companies to reduce operational cost
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References
M. B. Zaman, A. Baidowi and A. I. Fanany, "Effect of Design Engine Room Layout on Self-Righting System-Case Study: Fast Boat," International Journal of Marine Engineering Innovation and Research, vol. 4, no. 2, pp. 57-68, 2019.
US Energy Information Administration (EIA), "Capital Cost Estimates for Utility Scale Electricity Generating Plants," US Department of Energy, 2016.
The Swedish Club, "Engine Damage," The Swedih Club, 2020.
V. Zhukov, A. Butsanets, S. Sherban and V. Igonin, "Monitoring System of Ship Power Plants During Operation," Adv. Intell. Syst. Comput, pp. 419-428, 2020.
K. Dionysious, V. Bolbot and G. Theotokatos, "A functional model-based approach for ship systems safety and reliability analysis: Application to a cruise ship lubricating oil system," Journal Engineering for the Maritime Environment, pp. 1-17, 2021.
Y. Jiang, G. Lan and Z. Zhang, "Ship engine detection based on wavelet neural network and FPGA image scanning," Alexandria Engineering Journal, vol. 60, no. 5, pp. 4287-4297, 2021.
A. Boveri, F. Silvestro and P. Gualeni, "Ship Electrical Load Analysis and Power Generation Optimisation to Reduce Operational Costs," International Conference on Electrical Systems for Aircraft, Railway, Ship Propulsion and Road Vehicles & International Transportation Electrification Conference (ESARS-ITEC), pp. 1-6, 2016.
N. Xiros, Robust Control of Diesel Ship Propulsion, London: Springer, 2012.
L. Kretschmann, H. C. Burmeister and C. Jahn, "Analyzing the economic benefit of unmanned autonomous ships: An exploratory cost-comparison between an autonomous and a conventional bulk carrier," Research in Transportation Business & Management, vol. 25, pp. 76-86, 2017.
G. W. Adhane and D. S. Kim, "Distributed Control System For Ship Engines Using Dual Fieldbus," Computer Standards &Interfaces, 2016.
K. Q. Bui and L. P. Perera, "Advanced data analytics for ship performance monitoring under localized operational conditions," Ocean Engineering, vol. 235, 2021.
S. Wu, X. Chen, H. Chen and J. Lu, "Intelligent Fire Early Warning and Monitoring System for Ship Bridge Based on WSN," International Journal of Science, vol. 7, no. 08, pp. 248-255, 2020.
D. B. Falces, J. L. L. Barrena, A. L. Arraiza and J. Menendez, "Monitoring of fuel oil process of marine diesel engine," Applied Thermal Engineering, pp. 517-526, 2017.
H. Wang, E. Oguz, B. Jeong and P. Zhou, "Life cycle cost and environmental impact analysis of ship hull maintenance strategies for a short route hybrid ferry," Ocean Engineering, vol. 161, pp. 20-28, 2018.
J. E. Kaune, "Methods to Reduce Cost and Time of Ship Modernization and Ship Maintenance," Naval Engineers Journal, pp. 82-92, 1975.
V. S. Bjerketvedt, A. Tomasgard and S. Roussanaly, "Optimal design and cost of ship-based CO2 transport under uncertainties and fluctuations," International Journal of Greenhouse Gas Control, 2020.
IMO, CODE ON ALERT AND INDICATORS, 2009, 2010.
W. Changsun, X. Hairong, P. Weigang and H. Yaozhen, "Design of Monitoring and Alarm System for The Ship's Engine Room," Switzerland, 2011.
D. Połap, M. Włodarczyk-Sielicka and N. Wawrzyniak, "Automatic ship classification for a riverside monitoring system using a cascade of artificial intelligence techniques including penalties and rewards," ISA Transactions, 2021.
D. H. Choi and D. S. Kim, "Wireless Fieldbus for Networked Control System using LR-WPAN," International Journal of Control, Automation, and Systems, vol. 6, no. 1, pp. 119-125, 2008.
M. S. Zaghloul, "Online Ship Control System Using Supervisory Control and Data Acquisition (SCADA)," International Journal of COmputer Science and Application, vol. 3, no. 1, 2014.
P. Seneviratne, "Building Arduino PLCs: The essential techniques you need to develop Arduino-based PLCs," Building Arduino PLCs, pp. 127-138, 2017.
A. A. T. S. Bidyanath K., "A Survey on Open-Source SCADA for Industrial Automation Using Raspberry Pi.," in Trends in Wireless Communication and Information Security, Lecture Notes in Electrical Engineering, 2021, pp. 19-26.
BKI, "Machinery Alarm System," in Rules for Automations, Jakarta, Indonesia, Biro Klasifikasi Indonesia, 2018, pp. 4-1.
BKI, "Sensors, Stand-by Circuits and Remote Control Facilities," in Rules for Automation, Jakarta, Indonesia, Biro Klasifikasi Indonesia, 2018, pp. 8-11.
Jones & Bartlett Learning, "Fundamentals of Automotive Maintenance and Light Repair," in Engine Repair , Jones & Bartlett Learning, 2019, pp. 1572-1581.
A. A. Allal, Y. Melhaoui, A. Kamil, K. Mansouri and M. Youssfi, "Ship Main Engine Lubricating Oil System’s Reliability Analysis by Using Bayesian Network Approach," International Journal of Engineering Research in Africa, vol. 48, pp. 108-125, 2020.
J. Zhu, J. M. Yoon, D. He, Y. Qu and E. Bechloefer, "Lubrication Oil Condition Monitoring and Remaining Useful Life Prediction with Particle Filtering," International Journal of Prognostics and Health Management, pp. 1-15, 2013.
Copyright (c) 2021 Ruddianto Ruddianto, Anggara Trisna Nugraha, Dwi Sasmita Aji Pambudi, Agung Prasetyo Utomo, Mahasin Maulana Ahmad, Mayda Zita Aliem Tiwana, Alwy Muhammad Ravi
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