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Prerequisites
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Language of Instruction
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Turkish / English
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Responsible
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Assoc. Prof. Dr. Ercüment N. DİZDAR
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Instructors
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1-)Doçent Dr. Ercüment Neşet Dizdar
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Assistants
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-
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Resources
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R1. Dizdar, E. N. (1998). Üretim Sistemlerinde Olası İş Kazaları İçin Bir Erken Uyarı Modeli, Gazi Üni., FBE, Endüstri Müh., Ankara.
R2. Dizdar, E. N. (2000). İş Güvenliği. Alver Matbaası, Ankara.
R3. Dizdar, E. N. (2008). Ergonomi. ABP Yayın Evi, Ankara.
R4. Dizdar, E. N. (2004). İş Hukuku. Dilara Yayınevi & Matbaacılık, Trabzon.
R5. Dizdar, E. N. (2008). İş Güvenliği. Murathan Yayınevi, (4. Baskı), Ankara.
R6. Dizdar, E. N. (2003). İş Güvenliği. Dilara Yayın Evi, Trabzon.
R7. Dizdar, E. N. (2015). İş Güvenliği Mevzuatı. AÜ, Erzurum.
R8. Dizdar, E. N. (2014). İş Sağlığı ve Güvenliği Yönetim Sistemleri. AÜ, Erzurum.
R9. Dizdar, E. N. (2002). Tehlike Analiz Teknikleri. Gazi Üniversitesi, FBE, Ankara.
R10. Dizdar, E. N. (2001). Kaza Sebeplendirme Yaklaşımları. Mesleki Sağlık ve Güvenlik, Ankara.
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Supplementary Book
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SR1. AICHE. (2008). Guidelines for Chimical Transportation Safety, Security and Risk Management, (2nd Ed.), USA.
SR2. AICHE. (2016). Guidelines for Safe Automation of Chemical Processes, (2nd Ed.), USA.
SR3. Salvendy, G. (2012). Handbook of Human Factors and Ergonomics, John Wiley&Sons Ltd. USA.
SR4. Karwowski, W. ve Marras, S. W. (2008). The Occupational Ergonomics Handbook. CRC Press.
SR5. Dikshith, T, S. S. (2017). Handbook of Chemicals and Safety, CRC Press, USA.
SR6. Frick, K. W. J. (2000). Reviewing Occupational Health and Safety Management - Multiple Roots. Elsevier.
SR7. ILO & IEA (2010). Ergonomic Checkpoints, International Labour Office, Geneva, Switzerland.
SR8. ILO (2001). Guidelines on Occupational Safety and Health Management Systems, Geneva, Switzerland.
SR9. Robson, L. C. J. (2005). The Effectiveness of Occupational Health and Safety Management Systems, Insti. for Work and Health.
SR10. Kroemer, K. H. E., Kroemer H. B. and Kroemer E. K. (2001). Ergonomics, How to Design for Ease and Efficiency, PranticeHall.
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Goals
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Learning to interpret the purpose and scope of human engineering. Classification of international and national organizations related to Human Engineering. Learning and explaining the components of IEA and HSIT. Interpretation of technical and socio-technical systems in human engineering. Describe the anatomical and mechanical structure of the human body. Learning the concept of energy consumption, load, strain and fatigue. Calorie amount spent and rest time calculations. Understanding of working postures through breaks, sleep, sleep. Manual lifting works, NIOSH equation, waist disturbances. Business arrangement, process design. Method and Time Study. Standard Time account to know.
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Content
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Introduction and basic concepts. Human Factors and the purpose of Human Engineering, scope, philosophy, approach, HCl, cybernetics. History of Human Engineering, international and national organizations BCPE, CPE, AEP, CREE, IEA, HSIT, TED. Physical, cognitive and organizational components of IEA. HSIT cognitive, environmental, hardware, business design and macro components. Technical and socio-technical system approach, work organization. Business arrangement, hierarchy, motivation, efficiency, activity. Biomechanics, anatomical and mechanical structure of human body, muscles and tendons. Basic biomechanical analysis, labor. Calculation of energy consumption, requirement, amount of calories spent. Burden, strain, fatigue, exhaustion, weariness. Physical and mental work capacity. Fatigue in motor-endplate and contractile mechanism, lactic acid, ATP and PC, glycogen. Fatigue, fatigue, recovery, pulse, oxygen requirement, heart rhythm, ATP, ADP, anaerobic energy, aerobic capacity. Static and dynamic muscle contractions. Central nervous system, muscular fatigue, local muscular fatigue. Effects of muscle type on muscular fatigue. Muscle lower speed-power relationship. Rest, active and passive rest. Rest break and time calculation. Calculation of rest periods, Lehman, Murrell, American rest period calculations. Rest break calculations. Active breaks. Sleep and sleep. Working postures and musculoskeletal disorders. Manual lifting works, NIOSH equation, waist problems. Occupational Health and Safety in Human Engineering, OSH. Process design. Method and Time Study. Standard Time calculation.
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