Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage
Elserafi, K., Agamy, H., Mosleh, M., Abdel Geliel, M., Abdalrahman, N. (2020). Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage. EKB Journal Management System, 24(1), 76-81. doi: 10.21608/pserj.2019.13789.1003
Kamel Ahmed Elserafi; Hossam Eldine Nabil Agamy; Mosaad Mosleh; Mostafa Abdel Geliel; Nasr Abdalrahman. "Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage". EKB Journal Management System, 24, 1, 2020, 76-81. doi: 10.21608/pserj.2019.13789.1003
Elserafi, K., Agamy, H., Mosleh, M., Abdel Geliel, M., Abdalrahman, N. (2020). 'Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage', EKB Journal Management System, 24(1), pp. 76-81. doi: 10.21608/pserj.2019.13789.1003
Elserafi, K., Agamy, H., Mosleh, M., Abdel Geliel, M., Abdalrahman, N. Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage. EKB Journal Management System, 2020; 24(1): 76-81. doi: 10.21608/pserj.2019.13789.1003

Neural Network Model of carbon monoxide distribution in onboard a RO-RO Ship Garage

Port-Said Engineering Research Journal
Article 8, Volume 24, Issue 1, March 2020, Page 76-81  XML PDF (560.78 K)
Document Type: Original Article
DOI: 10.21608/pserj.2019.13789.1003
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Authors
Kamel Ahmed Elserafi1; Hossam Eldine Nabil Agamy email 2; Mosaad Mosleh3; Mostafa Abdel Geliel4; Nasr Abdalrahman5
1استاذ مساعد متفرغ قسم الهندسة الکهربية شعبة حاسبات وتحکم
2Electric and control, upgrading studies, Arab Academy for Science and Technology and Maritime Transport, Alexandria, Egypt
3أستاذ بقسم الهندسة البحرية بکلية الهندسة جامعة الأسکندرية
4لأأستاذ ورئيس قسم الهندسة الکهربية بکلية الهندسة بالأکاديمية العربية للعلوم والتکنولوجيا
5أستاذ ورئيس قسم الهندسة البحرية بکلية النقل البحري بالأکاديمية العربية للعلوم والتکنولوجيا والنقل البحري
Abstract
Indoor air pollution has become a major concern of the general publics in recent years. Indoor exposure may likely cause more harmful health effects, as the indoor concentrations of many pollutants are often higher than those typically encountered outside. The factors affecting the indoor environment mainly include temperature, relative humidity, ventilation, particle pollutants, biological pollutants, and gaseous pollutants. Ventilation and source control are the two basic engineering tools for improving indoor air quality. Source control is the most effective strategy for maintaining clean indoor air, however, it is not always possible or practical. Ventilation, either natural or mechanical, is the second most effective approach to provide acceptable indoor air quality.
Exhaust emissions in the closed vehicle garage onboard ships not sufficiently ventilated can cause damage on the human health and lead even to death and pollution. In this paper, an intelligent artificial neural network model is designed to simulate the carbon monoxide emissions to the permissible limit. The proposed model is based on data collected from real measurements at different load conditions and positions on a Roll-on/roll-off (RO-RO) vehicle garage onboard a ship vessel. The neural network model is designed, identified and verified with different ways at different loads and positions.
Keywords
Keywords— Indoor Air Quality; Carbon monoxide concentration; artificial neural network
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