FIRE & SAFETY ENGINEERING
UNIT-1 Introduction - Objectives and scope - General goal of engineering education - General trends in fire safety engineering - Special problems in education and training of fire safety - professional
UNIT-2 Definition of end product - Detailed description of background courses (modules) - Fluid mechanics - Heat and mass transfer in fire
UNIT-3 Classical thermodynamics-Solid mechanics - Detailed description of fundamental courses (modules) - Fire fundamentals
UNIT-4
Enclosure fire dynamics - Active fire protection - Passive fire protection-Interaction between fire and people
UNIT-5
Detailed description of applied courses (modules) - Risk management for fire and explosions - Industrial fire protection
SYLLABUS
|
COURSE NAME: ADVANCED DIPLOMA IN
FIRE & INDUSTRIAL SAFETY MANAGEMENT |
|
|
SNo |
Subject |
|
1 |
FIRE & SAFETY ENGINEERING |
|
2 |
INDUSTRIAL SAFETY |
|
3 |
OCCUPATIONAL & HEALTH SAFETY |
|
4 |
CONSTRUCTION SAFETY |
|
5 |
ELECTRICAL SAFETY |
|
6 |
PRACTICAL - I |
|
7 |
PRACTICAL - II |
|
8 |
PRACTICAL - III |
|
9 |
PRACTICAL - IV |
|
10 |
PRACTICAL - V |
INDUSTRIAL SAFETY
UNIT-1 Introduction - Consensus Standards - Types of Standards - NFPA - OSHA Standards - NFPA 70E - Other Standards and Resources - Electrical Hazards - Electrical Shock - Arc Flash
UNIT-2 Arc Blast - Attending to Electrical Accident Victims -Procedures - Additional Information - Advance Help for Accident Victims - Who's Responsible for Safety- Electrical Accident and Hazard Prevention
UNIT-3 Approach Boundaries - Insulation Flashover Distances - Flash Hazard Analysis- Personal Protection Equipment - Hazard/Risk Analysis - Lockout/Tagout- Stored Energy Systems - IP2X (Finger-Safe) Ratings
UNIT-4 Grounding and Ground Fault Circuit Interrupters (GFCI) - Voltage Testing-1,000 Volts and Below - Establishing an Electrical Safety Program -Planning Work Procedures - Procedures - Documentation - Principles for Safety
UNIT-5
Training, Planning and Written Procedures - Providing an Electrically Safe Work Condition - Designing an Electrical System for
Safety - Costs Associated with Safety - Standards Designed for Safety
OCCUPATIONAL & HEALTH SAFETY
UNIT-1 Introduction - INSHPO - Definition of "Capability" - The OHS Professional Capability Framework - An overview - Clarifying OHS roles
UNIT-2 OHS Professional and OHS Practitioner - The OHS Professional - The OHS Practitioner - Scope of practice in the context of other professionals and specialists
UNIT-3 OHS and other functional roles - OHS roles in organizations of different OHS maturity - Position profiles
UNIT-4 Activities - Knowledge - Knowledge matrix -Skills - Skills matrix - Hazard types managed
UNIT-5
Appendix: OHS roles and cultural maturity
CONSTRUCTION SAFETY
UNIT-1 Construction planning: Basic concepts in the development of construction plans-Choice of Technology and Construction method Defining Work Tasks- Definition- Precedence relationships among activities-Estimating Activity Durations-Estimating Resource Requirements for work activities
UNIT-2 Coding systems-Scheduling procedures and techniques: Relevance of construction, schedules-Bar charts - The critical path method Calculations for critical path scheduling-Activity float and schedules-Presenting project schedules-Critical path scheduling for Activity-on-node
UNIT-3 Calculations for scheduling with leads, lags and windows-Resource oriented scheduling-Scheduling with resource constraints and precedence's -Use of Advanced Scheduling Techniques-Scheduling with uncertain durations-Crashing and time/cost trade-offs - Improving the Scheduling process
UNIT-4 Cost control monitoring and accounting: The cost control problem-The project Budget-Forecasting for Activity cost control -Financial accounting systems and cost accounts-Control of project cash flows-Schedule control-Schedule and Budget updates-Relating cost and schedule information
UNIT-5
Quality control and safety during construction-Quality and safety Concerns in Construction-Organizing for Quality and Safety-Work -
Material Specifications-Total Quality control-Quality control by statistical methods -Statistical Quality control with Sampling by
Attributes and Variables
ELECTRICAL SAFETY
UNIT-1 Electrical current - Electrical Shock- Step Potential-Touch Potential- Safe Work Practices -Characteristics of an Arc - Electrical Arc Blasts- Flash Protection Boundary
UNIT-2 Limited Approach Boundary - Restricted Approach Boundary- Prohibited Approach Boundary - Electrical Emergencies - Electrical Accidents- Electrical Rescue Techniques
UNIT-3 Basic Rule(s) -Working On Or Near Energized Conductors - Welders- Heavy Equipment Operators - Excavators -Warehouse Workers - Painters - Electrical Hazards Awarenes
UNIT-4 Electrical Safety Improvement Project Emergency Generators - Battery Banks -Battery Chargers- Background
UNIT-5
Electrical Power Tool Safety-Extension Cords- Molded Case Circuit Breakers - Downed Power Lines - Ladders
HAZOP
UNIT-1 Introduction, Fundamentals of Risk - Risk Planning, Assessment and Management Process and the Systems Approach - Risk Identification - Historical data, comparative analysis, and checklists
UNIT-2 Taxonomy based, risk breakdown structure, HHM, SWOT, root cause analysis, influence diagram - Expert/ user/ stakeholder-based elicitation (Delphi, brainstorming, interview)
UNIT-3 Scenario-based, experience based, objective-based analysis - Risk Analysis - Preliminary Hazard Analysis (PHA) - Hazards and Operability Analysis (HAZOP), Job Safety Analysis (JSA) - Failure Modes and Effects Analysis (FMEA)
UNIT-4 Fault Tree Analysis -Event Tree Analysis - Decision Trees Cause-Consequence Analysis - Risk Prioritization - Risk Probability and Impact Assessment- Risk Index and Risk Ranking -Risk Matrix- EV Analysis- Sensitivity and Tradeoff Analysis
UNIT-5
Modeling and Simulation - Risk Attitude and Risk Tolerance- As Low As Reasonably Practicable - Risk Treatment - Avoidance,
Separation, Reduction, Transfer, Acceptance - Detection, Control, Response and Recovery
PRACTICAL - I
PRACTICAL - II