M.E Industrial Safety Engineering
Industrial Safety Engineering plays a vital role all over India. The main focus of this industrial safety Engineering is to maintain safe operations at workplace and also in all industries.
Master of Engineering in Industrial Safety Engineering, a postgraduate course (full-time two years course degree) is offered by Anna University, Chennai and approved by AICTE, New Delhi. It is an applied science, which is mainly related to Systems Engineering and the subset of System Safety Engineering. It assures the successful functioning of a life-critical system, even when the components fail in Industrial Environment.
Industrial safety Engineering course provides a wide job opportunity to the Safety Engineers across the Globe. Hence, Skilled and Trained Professionals in the field of Safety Engineering find a lot of scope in manufacturing industries, mines, railway wagon manufacturers, ship builders, locomotive builders, etc.
The role of Safety Engineers in Industrial Sectors is to protect the environment by anticipating, methods, measuring, auditing and evaluating the effectiveness of hazard control, protection of people, developing hazard control designs, identifying and evaluating hazardous conditions and practices, Implementing, administering and advising personnel on hazard control, etc. Besides these jobs, safety experts are required in several organizations in Public Sectors, Social Associations and Organizations, Research and Development in industrial safety, etc. They are also recruited in the Pollution Control Boards of Central and State Governments.
These professionals can also work independently as a consultant or as a part time specialist in order to deal with the prospects of injury reports, on-site and off-site safety studies and inspection. Thus, they provide suggestions to improve the Industrial Safety Programs, Hazard Preventions etc.,
M.E Industrial Safety Engineering
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs)
PROGRAMME OUTCOMES (POs)
PO1. Apply knowledge of Mathematics, Science, Engineering fundamentals and an engineering Specialization for hazard identification, risk assessment, analysis the source of incidents and control of occupational Dieses & hazards.
PO2. Design, Establish, Implement maintain and continually improve an occupation health and safety management system to improve safety.
PO3. Conduct investigations on unwanted incidents using e.g. (Root cause analysis, what if analysis) and generate corrective and preventive action to prevent repetition and happening of such incidents.
PO4. Design complex man, machine, and material handling systems using human factors engineering tools so as to achieve comfort, worker satisfaction, efficiency, error free and safe work practice workplace environment.
PO5. Function effectively as an individual and as a member or leader in diverse teams and in multi-disciplinary settings so as to provide practical solutions to safety problems.
PO6. Communicate effectively on occupational health and safety matters among the employees and with society at large.
PO7. Demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to occupation health and safety practices.
PO8. Understand and commit to comply with legal and contractual requirements, professional ethics and responsibilities and general norms of engineering practice.
PO9. Understand the impact of Health safety and environment solutions on productivity, quality and humanity protection at large.
PO10. Demonstrate the use of state of the art occupational health and safety practices in controlling risks of complex engineering activities and understand their limitations.
LIST OF MAJOR EQUIPMENTS
(Water Co2 ,Foam , Carbon dioxide (Co2) , Dry chemical powder)
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