ft 3-8 sem 090710

5 July 2010 1

Rajiv Gandhi Technological University, Bhopal (MP) B.E. (FT) Fire Technology and Safety Engineering

Revised syllabus and Scheme of Examination effective from July 2010-11

THIRD SEMESTER

BS Basic Sciences HS Humanity Sciences DC Department Core DID Department Inter Disciplinary IT Information Technology subjects NECC Non Exam Credit Course

MST Mid Semester Test TW Term Work (Session/ Practical) C Credits L Lecture Hrs P Practical Hrs T Tutorial Hrs

Periods Per week Distribution of Marks Internal

Assessment

S.No Course Categor

y

Course Code (New)

Subject

L T P C

Theory Marks

Practical

Marks MST TW

Total

1 BS-5 BE 301 Engineering Mathematics III 3 1 0 4 100 - 20 - 120

2 DC 1 FT 302 Town Planning and Safety in Construction Industry

3 1 0 4 100 - 20 - 120

3 DID 1 CE/FT 303

Strength of Materials 3 1 2 6 100 50 20 30 200

4 DC 2 FT304 Heavy Vehicle Automobile Engg. & Safety

3 1 2 6 100 50 20 30 200

5 DID 2 CE/FT 305

Building Design and Drawing 3 1 2 6 100 50 20 30 200

6 IT-2 FT306 AutoCad and fire software lab 0 0 4 4 - 50 50 100

7 NECC 1 FT307 Fire Fighting & Field Training 0 0 1 1 - - 30 30

8 NECC 2 FT308 Fire Protection Workshop 0 0 1 1 - - 30 30

Total 15 5 12 32 500 200 150 150 1000

5 July 2010 2



FOURTH SEMESTER

Periods Per week Distribution of Marks Internal

Assessment

S.No Course Catego

ry

Course

Codes (New)

Subject

L T P C

Theory

Exam

Practical

Exam MST TW

Total

1. DC-3 FT401 Safety Management 3 1 0 4 100 - 20 - 120

2. HS 2 AU/ME/FT 402

Energy Environment Ethics and Society

3 1 0 4 100 - 20 - 120

3. DC-4 FT403 Rescue Equipments & Techniques

3 1 2 6 100 50 20 30 200

4. DC-5 FT404 Electrical Fire Safety 3 1 2 6 100 50 20 30 200

5. DC-6 FT405 Pumping Machinery & Fluid Mechanics

3 1 2 6 100 50 20 30 200

6. IT-3 FT406 Dot.net 0 0 4 4 - 50 50 100

7. DC(P) 1

FT407 Fire Fighting & Field Training

0 0 2 2 - 30 30 60

Total 15 5 12 32 500 230 100 170 1000

BS Basic Sciences HS Humanity Sciences DC Department Core DID Department Inter Disciplinary IT Information Technology subjects NECC Non Exam Credit Course

MST Mid Semester Test TW Term Work (Session/ Practical) C Credits L Lecture Hrs P Practical Hrs T Tutorial Hrs

5 July 2010 3



FIFTH SEMESTER

BS Basic Sciences HS Humanity Sciences DC Department Core DID Department Inter Disciplinary IT Information Technology subjects NECC Non Exam Credit Course MST Mid Semester Test TW Term Work (Session/ Practical) C Credits L Lecture Hrs P Practical Hrs T Tutorial Hrs

Periods Per week Distribution of Marks Internal Assessment

S.No Course Category

Course Code (New)

Subject

L T P C

Theory Marks

Practical Marks MST TW

Total

1 DID-3 FT 501 Entrepreneurship and Management Concept 3 1 0 4 100 - 20 - 120

2 DC 7 FT 502 Salvage Evaluation of Fire Situation 3 1 0 4 100 - 20 - 120

3 DID 4 FT 503 Machine Drawing & Design 3 1 2 6 100 50 20 30 200

4 ES 6 FT 504 Paramedics 3 1 2 6 100 50 20 30 200 5 DC 8 FT 505 Fire Prevention &

Protection Measures 3 1 2 6 100 50 20 30 200

6 DC(P) 2 FT506 Engg. Workshop Practice 0 0 4 4 - 50 50 100

7 DC(P) 3 FT507 Field Training in Fire Rescue 0 0 2 2 - 30 30 60

Total 15 5 12 32 500 230 100 170 1000

5 July 2010 4



SIXTH SEMESTER

Note: Industrial Training of Minimum two weeks is to be undertaken after sixth semester at appropriate Industry. Evaluation of this will be done at seventh semester.




Course Code (New)

Subject

L T P C

Theory Marks


Total

1 DC 9 FT601 Laws related to Safety, Health & Environment 3 1 0 4 100 - 20 - 120

2 DC 10 FT602 Fire Fighting Codes & Standardization 3 1 0 4 100 - 20 - 120

3 DC 11 FT603 Fire Fighting & Safety Equipments 3 1 2 6 100 50 20 30 200

4 DC 12 FT604 Special Fire Hazards (Aviation, Marine & High Rise Buildings)

3 1 2 6 100 50 20 30 200

5 DC 13 FT605 Nuclear Safety and Radioactive Materials 3 1 2 6 100 50 20 30 200

6 DC(P) 4

FT606 Field Training rescue from Chemical Hazards

0 0 4 4 - 50 30 80

7 DC(P) 5

FT607 Project Seminar 0 0 2 2 - 50 30 80

Total 15 5 12 32 500 250 100 150 1000

5 July 2010 5



SEVENTH SEMESTER

Note: Industrial Training completed before seventh sem will be Evaluated in seventh semester. FT- 701- Elective-I FT- 702- Elective-II

FT- 701(A) Structure behavior under fire FT- 702(A) Disaster Management

FT- 701(B) Operation Research & SCM FT- 702(B) Simulation & Process Modeling

FT- 702(C) Process Safety & Risk Assessment


Periods Per week

Distribution of Marks

Internal Assessment


Course Code (New)

Subject

L T P C Theory Marks


Total

1 DC(E) 1 FT701 Elective – I 3 1 0 4 100 - 20 - 120

2 DC(E) 2 FT702 Elective – II 3 1 0 4 100 - 20 - 120

3 DC 14 FT703 Heat Transfer, Combustion & Explosives

3 1 2 6 100 50 20 30 200

4 DC 15 FT704 Safety Engineering & Its Industrial Application

3 1 2 6 100 50 20 30 200

5 DC 16 FT705 Chemical Safety 3 1 2 6 100 50 20 30 200

6 DC 17 FT706 Minor Project 0 0 4 4 - 50 50 100

7 DC 18 FT707 Industrial training and Seminar 0 0 2 - 30 30 60

Total 15 5 13 32 500 230 100 170 1000

5 July 2010 6



EIGHTH SEMESTER

FT 801- Elective -III FT-801(A) Safety in Petrochemical Plants & Gas Terminals FT-801(B) Safety in Mines




Course Code (New)

Subject

L T P CTheory Marks


Total

1 DC(E) 3 FT801 Elective - III 3 1 0 4 100 - 20 - 120

2 DC 19 FT802 Fire Fighting Installations & Automation

3 1 2 6 100 50 20 30 200

3 DC 20 FT803 Environmental Protection & Waste Management

3 1 2 6 100 50 20 30 200

4 DC 21 FT804 Industrial Hygiene & Occupational Health 3 1 2 6 100 50 20 30 200

5 DC 22 FT805 Major Project 0 0 8 8 - 100 100 200

6 NECC 3 FT806 Squad Drill 0 0 1 1 - 30 30

7 NECC 4 FT 807 Seminar and Group Discussion 0 0 1 1 50 50

Total 12 4 16 32 400 250 80 270 1000

5 July 2010 7

COURSE CONTENTS Category Title Code Credits-4C Theory Paper

L T P Basic Sciences BS-5

Mathematics-III BE 301 3 1 0

Max Marks-100 Min Marks-35 Duration-3 Hrs

Unit 1 Functions of Complex Variables: Analytic functions, Harmonic Conjugate, Cauchy - Riemann Equations, Line integral, Cauchy's theorem, Cauchy's Integral formula, Singular points, Poles and Residues, Residue theorem, Evaluation of Real Integral, Bilinear Transformation. Unit 2 Numerical Analysis: Difference operators, Errors and Approximations, Interpolation, Inverse interpolation, Numerical differentiation, Numerical Integration by using Simpson’s method, Weddel’s rule and Gauss Legendre open quadrate formula. Unit 3 Solutions of algebraic and transcendental equations( Regular False, Newton-Raphson, Iterative, Graffe’s root squaring methods), Solutions of simultaneous algebraic equations, Solutions of ordinary differential equations ( Tailor’s Series, Picard’s Method, Modified Euler’s method, Runge Kutta Method, Predictor-Corrector Method), Solution of Partial differential equation. Unit 4 Introduction to optimization by linear programming, only two variable problems solution by graphical and simplex method, concept of degeneracy and duality; simple three variable transport and assignment problems and modeling into LPP. Unit 5 introduction to Q theory and Markovian process, time independent property of exponential distribution, solution of only M/M/1 (∞/∞/FCFS) Queues; introduction to design of experiments, factorial design, sampling methods, Taguchi Loss Function, robust design methods, variance reduction and six (±3)σ outliers in quality. References:

1. Kreyszig E; Advanced Engineering Mathematics; Wiley Eastern Limited. 2. Ramana BV; Higher Engineering Mathematics; TMH 3. Grewal BS; Higher Engineering Mathematics; Khanna Publisher. 4. Taha H; Operations Research an Introduction; PHI 5. Ross; Taguchi techniques for Quality engineering, TMH 6. Spiegel; Theory and problems of probability and statistics; TMH 7. Chandrasekharaiah DS; Engineering Maths Part II & III; Prism Books Pvt. 8. Johnson; Miller and Freund’s Probability and statistics for Engineers; PHI. 9. Jaggi, Mathur; Engineering Mathematics; Khanna Publisher.

5 July 2010 8

Course Contents Category Title Code Credits 4 C Theory Paper

L T P DC 1 Town Planning & Safety in Construction Industry

FT - 302 3 1 0

Max Marks – 100 Min Marks - 35 Duration - 3 Hrs.

Unit I: Town Planning: Planning surveys, selection of site for urban development, consideration cliats, Topography, Drainage and water supply etc; Types of roads in urban areas communication system and it relationship to the cities. Multi story flats, Group Housing, Group Ware Housing, Commercial complexes, Detached and Semidetached houses in relation to fire risk; types of housing units, Layout of Housing areas with consideration of site orientation, views and architectural aesthetics. Unit II :Basic Philosophy: Structural Soundness, Accident and Hazards – their causes & effect. Accident investigation and reporting. Monitoring of safety performance. Treatment of injuries and rehabilitation. Safety Budget, organization, training, implementation. Safety officers. Safety committee. Unit III Safety in Construction Operations

1. Underground works: - Excavation, drilling & blasting, trenching, strutting, piling & safety in using and operation machinery and equipment relating to above components.

2. Above ground works : Scaffolding, Centering, Frame work, Ladders, Concreting wall and floor openings, staircases and railings. Structural steel work including welding, cutting erection etc. Safety in use of related machinery equipments.

3. Underwater operations: River draining, well sinking, Caissons, under water concreting. Cofferdams & special operation connected with irrigation works. Use of related machinery and equipments.

4. Movement of Materials & personnel : Heavy / Long items, Railway wagons, Motor trucks, Vehicles and Hazardous materials etc.

5. High rise building, bridges, roads, railways, asphalting, pneumatic caissons, electrical installations & lifts.

6. Fire prevention and protection: Handling of explosives. Precautions. Unit IV :Safety in Demolition Operations: Planning & permit, Precautions prior to demolition; Protection of public; Precautions during demolition; Sequence of demolition operations from safety point. Safety measures with respect to building materials including comment, lime, timber, steel, glass, paints, varnishes, and petroleum products.

Unit V:HEALTH AND WELFARE: Occupational hazards, Occupational Diseases; Personal protective equipments; Health, Welfare measures; First aid facilities; Occupational health centers; Ambulance rooms; Medical examination; Salient Features of safety and Health in The Building & other Construction Workers (Regulation of employment and conditions of service ) Act 1996 and central rules 1998 (IS & NB codes). References :-

1. Accident prevention manual for Industrial operations, NSC, Chicago, 1982. 2. Fulman, J.B., Construction Safety, Security & Loss Prevention, John Wiley and Sons, 1979. 3. The Building and other construction workers (Regulation of Employment & conditions of

service)Act 1996 and central rules 1998.

5 July 2010 9

Course Contents Category Title Code Credits-6C Theory Paper

L T P DID 1 Strength of Materials

CE/FT 303 3 1 2

Max.Marks-100 Min.Marks-35 Duration-3hrs.

Unit 1 Simple Stress and Strains: Concept of Elastic body, stress and Strain, Hooke’s law, various types of stress and strains, Elastic constants, Stresses in compound bars, composite and tapering bars, Temperature stresses. Complex Stress and Strains: Two dimensional and three dimensional stress system, normal and tangential stresses, Principal Planes, Principal Stresses and strains, Mohr’s circle of stresses, Combined Bending and Torsion, Theories of failure. Unit 2 Bending & Deflection: Theory of simple bending: Concept of pure bending and bending stress, Equation of bending. Neutral axis, Section-Modulus, Determination of bending stresses in simply supported, Cantilever and Overhanging beams subjected to point load and uniformly distributed loading. Bending & shear stress distribution across a section in Beams. Deflection of beams: Double Integration Method. Conjugate Beam Method, Macaulay’s Method Area Moment Method. Unit 3 Torsion of Shafts: Concept of pure torsion, Torsion equation, Determination of shear stress and angle of twist of shafts of circular section, Hollow shafts, Open and closed coil springs, Leaf Spring, Spiral Spring, Pressure Vessels: Thin and Thick walled cylinders and spheres. Stress due to internal pressure, Change in diameter and volume, Compound cylinders and shrink fittings. Unit 4 Unsymmetrical Bending: Principal moment of Inertia, Product of Inertia, Bending of a beam in a plane which is not a plane of, symmetry. Shear center; Curved beams: Pure bending of curved beams of rectangular, circular and trapezoidal sections, Stress distribution and position of neutral axis. Unit 5 Columns and Struts: Euler’s buckling load for uniform section, various end conditions, slenderness Ratio, Stress in columns, Rankine formulae, Eccentric loading on columns. References:

1. Nash; Strength of Materials (Schaum), TMH. 2. Rattan SS; strength of Materials; TMH 3. Negi; Strength of materials; TMH 4. Sadhu Singh; Strength of Materials, , 5. Ramamrutham; Strength of Materials, , 6. Subramaniam; Strength of Materials; R; Oxford 7. National Building Code of India, Part-IV

List of Experiments (Pl. expand it): The experimental work to cover tension, compression, bending and impact test etc. on steel, cast iron, RCC and timber, Fire Resistant Test of Structures and Combustibility of Building Materials Test as per I.S.I. and other experiments based on the syllabus.

5 July 2010 10

Course Contents Category Title Code Credits – 6C Theory Paper

L T P DC 2 Heavy Vehicle Automobile Engg. & Safety

FT - 304 3 1 2

Max. Marks – 100 Min. Marks - 35 Duration – 3 hrs.

UNIT-I ENGINES: Engine Classification, construction, details of Engine Components. Combustion in S.I. Engines, Combustion in C.I. Engines, Study of fuel system components, Function of carburetors, construction details, Type of Study of diesel fuel feed systems; Carburetion and mass distribution of mixture, supercharging, fuel injection and injection sections, Clutch, Types, Construction, Operation and Fault finding of clutches. Transmission assembly, Types of Gear box, Functions of gear box, operation and maintenance of gear box. UNIT-II Differential: Necessity, Construction of differential systems, Axles, Types and Application; Brakes, Types, Construction and Operation of Hydraulic, Pneumatic Brake Systems, Maintenance of Brakes. Suspension, Necessity, Types, Construction and operation, Shock absorber, Coil springs, Independent suspension, Steering, Systems, Constructional details, types of steering gear box, steering geometry, caster, camber, king pin inclination, Effect of steering geometry on directional stability, Power steering UNIT-III Electrical System: Ignition Systems, Magnet ignition, Battery Ignition, Electronic Ignition, Merits and Demerits, Working, Self Starter, Dynamo voltage regulator, Battery construction, operation and maintenance; pollution, Air-pollution, Euro norms, Pollution Control techniques. UNIT-IV Lubricating System: Types, Components, Lubricating oil, Cooling System, Detail of Components, Study of Systems, Types, Miscellaneous, Spacial Gadgets and accessories for Fire Fighting vehicles, Automobile Accidents, CMV Rules regarding safety devices for Drivers, Passengers, Fire fighting vehicles & Appliances. Construction & operation of fire fighting vehicles & appliances Construction & Operation of Fire boats & other Water borne applications Rules & regulations of RTO; Laboratory testing of vehicles; Road testing of vehicles. UNIT-V Automobile safety devices References:

1. Automobile chassis and body construction, Operation and Maintenance by Wills H. Crouse. 2. Automobile Machines – Principles and Operations by W.H. Crouse. 3. Modern Petrol Engine by Arther V. Judge 4. Ergonomies of Automation by A.T. Walford H.M.S.O. 5. Practical Automobile Engineering Illustrated by S.Adhey, Asia Publishing House, Bormh. 6. Automobile Engine overhaul by A.W. Judge and Sir Issac Pitman. 7. Automboile Electrical Maintenances by A.W. Judge and Sir Issac Pitman. 8. Fire Risks in Motor Vehicle Servicing by F.P.A. London. 9. Maintenance of Diesel Engine by H.M.S.O. 10. Automobile Engineering by G.B.S. Narrang. 11. Automobile Engineering by R.B. Gupta 12. A Course in Automobile”Engineering by R.P. Sharma 13. Heavy Vehicle Automobile Engg. & Safety

5 July 2010 11

List of Experiments (Pl. expand it)

1. To study the differential Axel 2. Study of external combustion engines 3. Study of PTO 4. Design of fire fighting vehicles

5 July 2010 12


L T P DID 2 Building Design and Drawing

CE/FT 305 3 1 2


Unit 1 Drawing of Building Elements – Drawing of various elements of buildings like various types of footing, open foundation, raft, grillage, pile and well foundation, Drawing of frames of doors, window, various types of door, window and ventilator, lintels and arches, stairs and staircase, trusses, flooring, roofs etc. Unit 2 Building Planning – Provisions of National Building Code, Building bye-laws, open area, set backs, FAR terminology, principle of architectural composition (i.e. unity, contrast, etc.), principles of planning, orientation. Unit 3 Building Services – Introduction of Building Services like water supply and drainage, electrification, ventilation and lightening and staircases, fire safety, thermal insulation, acoustics of buildings. Unit 4 Design and Drawing of Building – Design and preparation of detailed drawings of various types of buildings like residential building, institutional buildings and commercial buildings, detailing of doors, windows, ventilators and staircases etc. Unit 5 Perspective Drawing – Elements of perspective drawing involving simple problems, one point and two point perspectives, energy efficient buildings. References

1. Malik & Meo; Building Design and Drawing By 2. Shah, Kale & Patki; Building Design and Drawing; TMH 3. Gurucharan Singh & Jgdish Singh Building Planning, Design and Scheduling

List of Experiments (Pl. expand it)

1. Sketches of various building components. 2. One drawing sheet of various building components containing doors, windows ventilators, lintels

and arches stairs foundations etc. 3. One drawing sheet each for services and interiors of buildings. 4. One drawing sheet containing detailed planning of one/two bed room residential building

(common to all student) 5. One drawing sheet each of residential and institutional building (Each student perform different

drawing). 6. Use of AutoCAD for preparation of drawings.

5 July 2010 13

Course Contents Category Title Code Credits-4C Practical

L T P IT-2 AutoCad and fire software lab

FT/CS/CE 306 0 0 4

Max. Marks-50 Min. Marks-25 Duration-

Unit I Getting Started with AutoCAD: Starting AutoCAD, AutoCAD's Screen Layout, Working with Commands, Basic Drawing & Editing Commands, Making Your Drawings More Precise, Drawing Precision in AutoCAD, Object Snap Tracking, Drawing with SNAP and GRID, Making Changes in Your Drawing: Unit II Drawing Organization and Information: Organizing Your Drawing with Layers, Advanced Object Types: Arcs, Polylines, Polygons, Ellipses. Getting Information from Your Drawing, Measuring Objects, Working with Properties; Creating More Complex Objects Advanced Editing Commands, Inserting Blocks Unit III Preparing to Print: Setting Up a Layout, Printing Concepts, Printing Your Drawing, Annotating Your Drawing, Text, Hatching, Adding Dimensions Unit: IV: Beyond the Basics: Working Effectively with AutoCAD, Setting up the Interface, Using the Keyboard Effectively, Working in Multiple Drawings, Using Grips Effectively, Additional Layer Tools, Accurate Positioning, Creating and Organizing Blocks, Creating Blocks, Blocks in Tool Palettes Unit-V Use of software in Designing Fire Fighting Systems: Use of specialized software in design of Sprinkler, Hydrant, Fire detection system, High rise Building Designing & Construction. References: AUTOCAD 2009 & AUTOCAD LT 2009 BIBLE (Paperback - July 2008) by Ellen Finkelstein Mastering Autocad 2009 and Autocad LT 2009(Paperback - October 2008) by George Omura. Introducing AutoCad 2009 and AutoCad LT 2009(Paperback - June 2008) by George Omura. List of experiments/ programs/designs (Pl. expand it) Experiments and Problem solving on Auto-Cad and fire software,

5 July 2010 14

Course Contents Category Title Code Credits –2C

L T P NECC 1 Fire Fighting & Field Training

FT - 307 0 0 2

UNIT I : Hose Drills General movements to be noted for handling delivery hose, hydrant Drill (3-Men) Hydrant Drill (4-Men). UNIT II : Pump Drills Trailer Pump Drill (Four Men), Trailer Pump Drill (Six Men), Motor Fire Engine (without escape)/Water Tender Drill (Six Men), First Aid Hose reel Drill (Three Men). UNIT III : Ladder Drills : Extension Ladder (Four Men), Hook Ladder Drill, Hook Ladder Drill (One Men), Hook Ladder Drill (Two Men), Hook Ladder Drill (Three Men), Fire escape Ladder Drill (Six Men), getting a Branch to work up on Escape Ladder, getting a Branch to work from an escape Ladder, Turn Table, Ladder Drill (Six Men), Hydraulic Platform. Drill (Six Men). UNIT IV : Foam Drill (F.B.-2) Foam Drill with inline inductor (Six Men )

Course Contents Category Title Code Credits – 2C

L T P NECC 2 Fire Protection (Workshop)

FT - 308 0 0 2

UNIT I: Definition of fire, elements of fire, Causes of fire. UNIT II: Classification of fire; spreading of fire; Method of extinguishing fire; different extinguishing medias- water, foam, dry powder, ABC Powder, CO2, Halon. UNIT III: Basic fire protection equipments, Fire Extinguishers (Hand Appliances) Water Type, Foam Type, Dry Chemical Powder Type, ABC powder Type, Co2 Type, Halon Type, & Modular Automatic Fire Extinguishers, Trolley Mounted fire extinguishers. UNIT IV: Fire Protection systems, Fire Alarm System, Manual, Electric, & Automatic Fire Detection System, Public address system, Hose Reel System, Hydrant System, Co2 flooding system, Inert gas flooding system, FM-200 Gas flooding system. Sprinkler system (Manual & Automatic), Water spray system, water – mist system, Drencher System DCP fixed Installation, Foam fixed installation. UNIT V: Mobile fire fighting Equipments Mobile Monitors, Trailor, Pumps, Fire Tenders; Water Tender A & B Water Cum foam Tender DCP Tender Co2 Fire Tender Multipurpose Fire Tender Fire Control Van Salvage Tender Rescue/Emergency Tender Crash Fire Tender Turnable Ladder Hydraulic Platform BOOKS RECOMMENDED 1. HMSO Fire Manuals No.1 – No.12 2. Equipment IS Codes. 3. Fire Protection Manual By TAC 4. Fire Protection literature by Loss Prevention Association.

5 July 2010 15

Course Contents Category Title Code Credits – 4 C Theory Paper

L T P DC-3 Safety Management

FT - 401 3 1 0


Unit I Role and functions of a Manager: Elements and function of Management; Management role, authority, responsibility & power; Delegation and decentralization of authority; History of safety management in India and abroad; Need for safety: legal, humanitarian, economic and social consideration. Unit II Accident, injury, dangerous occurrences, unsafe acts, unsafe conditions, hazards; Theories of accident occurrences; Principal of accident prevention scope and effect: Risk management; Safety inspection; Safety audit; Disaster control. Unit III PLANNING & ORGANISING FOR SAFETY: Definition, need, nature, principles, policy formulation and effective planning for safety; Organization structure of safety department; Safety officer – Qualification, responsibilities, duties & Power; Safety Committee –Structure & Functions. Unit IV Directing for safety, Role and functions of a leader; Communication with management; employees & Union; Managerial communication; Training of workers, supervisors & managers; Evaluation & review of training program; Role of management, supervisors, and safety department in motivation & safety performance. Unit V Role of trade unions in safety and health; Safety suggestions schemes; Safety competitions, safety incentive schemes; Audiovisual methods; Other promotional methods; Direct & indirect cost of accidents; Information on safety, health and accidents; Analysis of information on accident. References:

1. Accident Prevention manual for Industrial Operations, NSC, Chicago 1982. 2. Principles of Industrial managements by Kootaz & Donnel. 3. Brawn D. B. , system analysis & design for safety, Prentice Hall inc, New Jersey. 4. Lees, F.P., loss prevention in process industries, Butter worth’s, New Delhi 1986 .

5 July 2010 16

COURSE CONTENTS Category Title Code Credits-4C Theory Paper

L T P Humanities and Science HS 2

Energy Environment Ethics and Society

AU/CE/CM/FT/IP/ME/TX 402 3 1 0

Max Mark-100 Min Mark-35 Duration-3Hrs

Unit 1 Energy: linkage with development, world energy scenario, fossil fuel resource- estimates and duration, India’s energy scenario; Finite/ depleting energy resources, coal, oil, gas, nuclear fission, promises and present status of nuclear fusion energy; Renewable energy, solar, hydro, wind, biomass, ocean, tidal, wave and geothermal. Synergy between energy and environment, global environment issues, greenhouse gas emission, global warming, green energy solutions. Unit 2 Society and environment: exponential growth in population, environmentally optimum sustainable population, free access resources and the tragedy of commons; environment problems and impact of P.A.T (Population, Affluence and Technology), environmentally beneficial and harmful technologies; environment impact assessment policies and auditing interaction between environment, life support systems and socio-culture system. Unit 3 Ecosystem: definition, concepts, structure, realm of ecology, lithosphere, hydrosphere, biosphere, atmosphere-troposphere-stratosphere; energy balance to earth, matter and nutrient recycling in ecosystems; nitrogen, oxygen, carbon and water cycles, food producers, consumers and decomposers, food chains; biodiversity, threat and conservation of biodiversity. Worldviews and environmentally sustainable economic growth, introduction to Design For Environment (DFE), product lifecycle assessment for environment and ISO 14000; triple bottom-line of economic, environment and social performance; environmental ethics, its world impact and challenges. Unit 4 (a) Air pollution-primary, secondary; chemical and photochemical reactions, effects of CO, NO, CH and particulates, acid rain, Ozone depletion; monitoring and control of pollutants (b) Noise pollution-sources and control measures. (c) Water pollution, analysis and management, heavy metals- and nuclear pollutions; industrial pollution from paper, pharmacy, distillery, tannery, fertilizer, food processing and small scale industries. Unit 5 Ethics and moral values, ethical situations, objectives of ethics and its study, role morality and conflicts; values, policies and Organization Culture; Non-professional, quasi- and hard- professionals; preventive, personal, common and professional ethics; different ethical value criteria like utilitarian, virtue, right and duty ethics with discussion on the case of priority for improvement of urban (high traffic) or rural (low traffic) intersections causing equal number of fatalities; codes of ethics and their limitations; Institute of engineers code for corporate member, IEEE and ACM professional-code. References:

1. Miller G. T Jr; Living in the environment; Cengage Publisher. 2. Cunningham W; Principles of Environmental Science: TMH 3. Harris CE, Prichard MS, Rabins MJ, Engineering Ethics; Cengage Pub. 4. Martin; Ethics in Engineering; TMH 5. Govindrajan, Natrajan, Santikumar; Engineering Ethics; PHI pub. 6. Rana SVS;Essentials of ecology and environment; PHI Pub. 7. Gerard Kiely, Environmental Engineering; TMH 8. Khan BH; Non Conventional energy resources; TMH Pub. 9. Raynold G.W. “Ethics in Information Technology; Cengage

5 July 2010 17

Course Content Category Title Code Credit-6C Theory Paper

L T P DC 4 Rescue Equipments and Techniques

FT 403 3 1 2


Unit I Hydraulically and pneumatically operated tools and equipments:- Hydraulic Jack, Hydraulic Cutter, Hydraulic Expander. Air Lifting Bags, Electric Power Tools: - Electric Cutter, Electric Saw, Chain Saw etc. Unit II Small Gears: - Their types, Applications and working principal Ladders: - Constructional features, Their types, Material and applications Ropes: - Their types, material and applications. Unit III General Introduction- Emergency Rescue Tender, Water Tender, Foam tender, Multipurpose Tender Hydraulic Platform, Turn Table Ladder, Canteen Van and Ambulance; Fire Extinguishers:- Their types & Applications. Rescue by Ordinary Means: Unit IV Different types of Knots & Hitches and their applications in emergency Carries & Drags: - Fireman carry, Two man carry, three man carry, four man carry, chair carry, stretcher carry and different types of Drags. Rescue problems and their remedies: - Rescue from High – rise buildings Rescue from major disasters – Earthquake, Flood, Drought, Tsunami etc. Confined Space Rescue Rescue from Mines Rescue from Fire incident Unit V: Respiratory Equipments: - Respiratory Physiology: - Composition of Air, Breathing, Breathing Rate, Calculation of the capacity & time duration of the B.A.Set. Artificial Respiration and their techniques, Renunciator B.A. Set: - Their types, Constructional features, Working Principal and Applications. Gas Masks: - Their types, Constructional features, Working Principal and Applications. References:

1. The manual of fire ship – 6 – A by HMSO 2. Elementary principles of rescue by Got. Of India, ministry of Home Affairs 3. Rescue Service Manual by HMSO 4. Rescue –Civil defense handbook by HMSO 5. Rescue tender for Airfields by ISI 6. Relevant ISI special appliances and equipments 7. Manual of fireman ship book no. 244

List of Experiments (Pl. expand it): Name of Practical To study the Introduction of Fire To study the different types of Extinguishers and its maintenance To study the Rescue Tender and Foam Tender To study Personal Protective Equipments To study different types of Ropes, Knots & Hitches To study different types of Ladders To study the Breathing Apparatus To study about Hand tools & Portable tools

5 July 2010 18

Course Contents Category Title Code Credits 4C Theory Paper

L T P DC - 5 Electrical Fire Safety

FT - 404 3 1 2


UNIT-I: Generation: - Different types of Generating Stations, their equipments, Possible Faults and safety measures. UNIT-II: Transmission: - Transmission lines, their equipments, Possible Faults and safety measures. UNIT-III: Distribution: - Substation their equipments, Possible Faults and safety measures. Transformer: - Their types, Working Principal, Applications, Possible faults & Safety measures. UNIT-IV: Electrical Safety Equipments: - Relay, Fuses, Circuit Breaker, Insulators – Their types and applications Earthing: - Their methods and applications. Insulation: - Their types and applications Static Electricity & its protection UNIT-V: Indian Standards (General reading)

1. I.S. 2206 (Part – I) - 1962Specifications for flame-proof electric lighting fitting. 2. I.S. 3034 – 1961 Code of Practice for fire safety of industrial buildings Electrical Generating and

distribution stations. 3. I.S. 1646 – 1961 Code of Practice for Fire Safety of Buildings (General) Electrical installations. 4. I.S. 2148 – 1968 Specifications for Flame Proof Enclosures of Electrical apparatus. References: 1. Electricity Fire Risks – G.S. Hodges 2. N.F.P.A. 3. J.P. Handbook. 4. Estimating & Costing – S.L. Uppal List of Experiments (Pl. expand it):

1. To study the various methods of earthing 2. To study the safety procedures in electrical maintenance work and also classify hazards 3. To study the static electricity 4. To study the sailent features of Transformer oil 5. To study the various causes of electrical fire 6. To study the firefighting and rescue in the presence of radiation hazards 7. To study the radioactive waste management

5 July 2010 19


L T P DC 6 Pumping Machinery & Fluid Mechanics

FT 405 3 1 2


UNIT-I Principles of Hydraulic Machinery, Dynamic Section of Fluid, Dynamic force and torque executed by fluid jet on plain, curved stationary and moving vanes; Velocity Diagrams, work done by impact, pressure due to deviated flow; Pumps (Positive Displacement Pumps)Reciprocating pumps; Basic theory, types, construction, installation characteristics and operation and accessories. UNIT-II Centrifugal pumps and its characteristics: Other water lifting devices, Ejector pumps, Air-lift pump installation operation.-Parallel –Series, Centrifugal pumps. Pump Section, Maintenance and application. FLUID MECHANICS UNIT III HYDRAULICS: The flow of water through open channels, pipe hose and nozzles. Measures of flow, pressure and pressure drop. KINEMATICS OF FLUIDS; FLOW: Type of flow, path lines and stream lines, equation of continuity, one dimensional method of flow analysis. UNIT IV DYNAMICS OF FLUID FLOW: Energies-potential, pressure and kinetic, Momentum and energy equations for steady flow, Bernoulli’s theorem and its applications. FLUID MEASUREMENT: Pressure measurements, use of piezo-meters and static tubes, velocity measurements, use of pitch-tubes, current meters. Discharge measurement, use of venturi-meter. Orifice –meter. UNIT V DIMENSIONAL ANALYSIS: Dimensions and units; Dimensional homogeneity; Buckingham’s II theorem, Laws of Similarity; FLOW IN PIPES: Friction losses in pipes; loses due to sudden enlargement and contraction, Hydraulic and energy gradient lines, siphon, pipes in series and parallel, branching of pipes; Water hammer problems. References:

1. Pump Selection and application : Tyler C. Riches. 2. Pump Operators, Handbook : I.S. University of Science and Technology. 3. Fire Pumps and Hydraulics : I.E. Ditts and T.M. Harris. 4. Hydraulic Mechanics: Dr. J.Lal 5. Pumps and Blowers : Church and Lal 6. Manual of Fireman ship Book No.4 7. Hydraulics Machines : J.Lal 8. Fire-fighting Hydraulics : Purington 9. Hydraulics and Fluid Mechanics : P.N.Modi, Dr. S.M. Seth 10. A text-book of Hydraulics, Fluid Mechanics & Hydraulic Machines: R.S. Khurmi 11. Fluid Mechanics and Systems : S. Nagarathnam 12. Engineering Fluid Mechanics : K.L. Kumar 13. A Text Book on Hydraulics and Fluid Mechanics (Vol. 1) : Dr. V.G. Garde, R.M.Advani.

List of Experiments (Pl. expand it): 1. To study Centrifugal Pump Characteristics 2. To study force balances in a Static System. 3. To study Different Types of Flow. 4. To determine the loss of head in the fittings at the various water flow rates

5 July 2010 20

COURSE CONTENTS Category Title Code Credits 4 Practical

L T P IT 3 Dot.Net FT/CS/ME/IP 406 0 0 4

Max. Marks-50 Min. Marks-25

UNIT I Introduction .NET framework, features of .Net framework, architecture and component of .Net, elements of .Net. UNIT II Basic Features Of C# Fundamentals, Classes and Objects, Inheritance and Polymorphism, Operator Overloading, Structures. Advanced Features Of C# Interfaces, Arrays, Indexers and Collections; Strings and Regular Expressions, Handling Exceptions, Delegates and Events. UNIT III Installing ASP.NET framework, overview of the ASP .net framework, overview of CLR, class library, overview of ASP.net control, understanding HTML controls, study of standard controls, validations controls, rich controls. Windows Forms: All about windows form, MDI form, creating windows applications, adding controls to forms, handling Events, and using various Tolls UNIT IV Understanding and handling controls events, ADO.NET- Component object model, ODBC, OLEDB, and SQL connected mode, disconnected mode, dataset, data-reader Data base controls: Overview of data access data control, using grid view controls, using details view and frame view controls, ado .net data readers, SQL data source control, object data source control, site map data source. UNIT V XML: Introducing XML, Structure, and syntax of XML, document type definition (DTD), XML Schema, Document object model, Presenting and Handling XML. xml data source, using navigation controls, introduction of web parts, using java script, Web Services References:

1. C# for Programmers by Harvey Deitel, Paul Deitel, Pearson Education 2. Web Commerce Technology Handbook by Daniel Minoli, Emma Minoli , TMH 3. Web Programming by Chris Bates, Wiley 4. XML Bible by Elliotte Rusty Harold , 5. ASP .Net Complete Reference by McDonald, TMH. 6. DO .Net Complete Reference by Odey, TMH

List of Experiments/ program (Pl. expand it):

1. Working with call backs and delegates in C# 2. Code access security with C#. 3. Creating a COM+ component with C#. 4. Creating a Windows Service with C# 5. Interacting with a Windows Service with C# 6. Using Reflection in C# 7. Sending Mail and SMTP Mail and C# 8. Perform String Manipulation with the String Builder and String Classes and C#: 9. Using the System .Net Web Client to Retrieve or Upload Data with C# 10. Reading and Writing XML Documents with the XML Text-Reader/-Writer Class and C# 11. Working with Page using ASP .Net. 12. Working with Forms using ASP .Net 13. Data Sources access through ADO.Net, 14. Working with Data readers , Transactions 15. Creating Web Application.

5 July 2010 21

Course Contents Category Title Code Credits 2C

L T P DC(P) 1 Fire Fighting & Field Training

FT - 407 0 0 4

UNIT I: Hose Drills General movements to be noted for handling delivery hose, hydrant Drill (3-Men) Hydrant Drill (4-Men). UNIT II: Pump Drills Trailer Pump Drill (Four Men), Trailer Pump Drill (Six Men), Motor Fire Engine (without escape)/Water Tender Drill (Six Men), First Aid Hose reel Drill (Three Men). UNIT III: Ladder Drills: Extension Ladder (Four Men), Hook Ladder Drill, Hook Ladder Drill (One Men), Hook Ladder Drill (Two Men), Hook Ladder Drill (Three Men), Fire escape Ladder Drill (Six Men), getting a Branch to work up on Escape Ladder, getting a Branch to work from an escape Ladder, Turn Table, Ladder Drill (Six Men), Hydraulic Platform. Drill (Six Men). UNIT IV: Foam Drill (F.B.-2) Foam Drill with inline inductor (Six Men)

5 July 2010 22


L T P Interdisciplinary Entrepreneurship andManagement Concepts

AU/FT/IP/ME/TX-501 3 1 -


Unit-I: System Concepts: Types, definition & characteristics; supra & subsystems, key component; boundary & interface complexity; feedback (pull) & feed forward (push) controls, open flexible-adaptive system, computer as closed system, law of requisite variety; system coupling, stresses and entropy; functional & cross functional system; Steven Alter’s nine element work system model and its comparison with IPO (input-processing-output) model, structure and performance of work systems leading to customer delight. Unit-II: Management: Importance, definition and functions; schools of theories, knowledge driven learning organization and e-business; environment, uncertainty and adaptability; corporate culture, difficulties and levels of planning, BCG matrix, SWOT analysis, steps in decision making, structured and unstructured decision; dimensions of organizations, size/specialization, behavior formalization, authority centralization, departmentalization, span and line of control, technology and Minzberg organization typology, line, staff & matrix organization, coordination by task force, business process reengineering and process of change management, HR planning placement and training, MIS; attitudes and personality trait, overlap and differences between leader & manager, leadership grid, motivation, Maslow’s need hierarchy and Herzberg two factor theory, expectation theory, learning process, team work and stress management. Unit-III: Marketing: Importance, definition, core concepts of need want and demand, exchange & relationships, product value, cost and satisfaction (goods and services ) marketing environment; selling, marketing and societal marketing concepts; four P’s, product, price, placement, promotion; consumer, business and industrial market, market targeting, advertising, publicity, CRM and market research. Finance: Nature and scope, forms of business ownerships, balance sheet, profit and loss account, fund flow and cash flow statements, breakeven point (BEP) and financial ratio analysis, pay-back period, NPV and capital budgeting. Unit-IV: Productivity and Operations: Productivity and standard of living, types of productivity, operations (goods and services) Vs project management, production processes and layouts, steps in method improvement, time measurement, rating and various allowances; standard time and its utility, predetermined motion and time method, concepts of product and process specification, TQM, cost of quality, introduction to lean manufacturing (JIT), QFD, TPM & six sigma quality. Unit V: Entrepreneurship: Definition and concepts, characteristics, comparison with manager, classification, theories of entrepreneur, socio, economic, cultural and psychological; entrepreneur traits and behavior, roles in economic growth, employment, social stability, export promotion and indigenization, creating a venture, opportunity analysis competitive and technical factors, sources of funds, entrepreneur development program. References:

1- Daft R; The new era of management; Cengage. 2- Bhat Anil, Arya kumar; Management: Principles ,Processes Practices; Oxford higher edu. 3- Davis & Olson; Management Information System; TMH. 4- Steven Alter; Information systems, Pearson, www.stevenalter.com 5- Kotler P; Marketing management; 6- Khan, Jain; Financial Management; 7- ILO; Work study; ILO. 8- Mohanty SK; Fundamental of Entrepreneurship; PHI. 9- Kuratko, Hoolgetts; Entrepreneurship; Theory Process practice; Cengage.

5 July 2010 23


L T P DC - 07 Salvage & Evaluation of Fire Situation

FT - 502 3 1 0


SALVAGE AND EVALUATION OF FIRE SITUATION

UNIT I Concepts of Salvage at Planning stage, Salvage Operation and difficulties encountered. Various items of equipment necessary in salvage operation.

UNIT II:

Evaluation of fire situation: Fire Loss Calculation, Flame Temp. Measurement, Calculation for heat release rate, Salvage operation in different types of occupancies slick Hotel, Hospitals, Departmental Stores and Basement god owns etc. UNIT III: Follow up action and Investigation of Fire Situation such as Structural Fire, Wild Fire and Automobile Fire etc. Unit IV Case Studies of Salvage operations in different types of occupancy. References:

1. Manual of Firemanship, Part 6-A by H.M.S.O. 2. Report and Accounts by Fire Salvage Association of Liverpool Limited. 3. The Principles and Practice of Fire Salvage Operation by Fire Salvage association. 4. Loss prevention in Process of Industries, Vol. 1, 2 & 3, Frank P. Lees. 5. Power Plant Engineering – Dr. Mahesh Verma

5 July 2010 24

Course Contents Category Title Code Credits – 4C Theory Paper DID 04 Machine Drawing

and Design FT - 503 L T P Max. Marks – 100

Min. Marks - 35 Duration – 3 hrs.

MACHINE DRAWING AND DESIGN

UNIT I: Drawing conventions; drawing and dimensioning IS codes, sectional views and

sectioning, surface finish and tolerances, representation of machine parts such as external and internal threads, slotted theads, square ends, and flat radial ribs, slotted shaft, splined shafts, bearings, springs, gears, s: Rivet heads and Riveted joints, types of welded joints and representation.

UNIT II: Assembly Machine Drawing: Cotter and Knuckle joints, pedestal and footstep bearings,

IC engines, parts, piston and connecting rods. UNIT III CAD Software for 2D and 3D Modeling: Basic concept, plotting technique, assembly and

blowup of parts, bill of materials, product data and product life cycle management UNIT IV: Basic design concepts, design process, stages/phases in design, flowchart, problem

Formulation; design considerations (strength, manufacturing, maintenance, energy, environment, economics and safety); design for recycle and reuse, Design and safety factors, standardization in design, selection of materials

UNIT V: Design of components subject to static loads: riveted joints, welded joints , threaded

joints, knuckle and cotter joints. References: 1. Bhat, ND; Machine Drawing; Charotar 2. Singh A; Machine Drawing; TMH 3. Agarwal and agrawal; Engineering Drawing; TMH 4. Shigley JE et al; Mechanical Engineering Desing, TMH 5. Kulkarni SG, Machine Design; TMH 6. Mubeen and Mubeen; Machine Design. 7. Luzzader WJ, Duff JM; Fundamental of Engg Drawing and Interactive Graphics; PHI. List of Experiments (Pl. expand it): Design and drawing of parts contained in the syllabus

5 July 2010 25


L T P ES – 6 Paramedics FT – 504 3 1 2


Unit-I Paramedics: Definition; qualities of duties, tasks of paramedics. Study of the human body and its various systems: Skeleton system, Muscular systems, Digestive system, Respiratory system, Circulatory system, Central Nervous system, excretory system etc. and their functions. Practical study of this part to include demonstrations of the human body with structural details of its various parts as seen externally and examination of its install functions such as pulse, breathing, movements of the chest and abdomen, movements of various joints of the body with structural changes in the body parts while making three movements; Practical study of internal organs from the model of the human body including microscopic study of various body cells and organs. Unit-II Study of a Human Casualty: Including history taking, making of a diagnosis based on symptoms as Narrated by the casualty and signs as observed by the paramedic; Checking temperature pulse, respiration, blood pressure, swellings; discoloration of the skin, wounds, deformities etc/to confirm the diagnosis. Study of various types of burns and their complications in the indoor cases in burn word in the local government hospitals; Study of maintenance of various charts related to such casualties and their importance. Unit-III Casualties with affected vital functions: Such as casualties in unconscious state, asphyxia, shock including their causes symptoms, signs and specific aspects of examination of such casualties and maintenance of records during their observation and care at the place incident and during transportations up to hospital. Study of specific injuries to body parts controlling there functions with external and internal injuries of head chest and abdomen including causes and consequences of external and internal bleeding. Unit-IV Paramedical care of various types of Casualties and their injuries such as wounds, burns, injuries of bones and joints, disturbances in vital function including cardiopulmonary resuscitation, artificial respiration by manual and instrumental methods, bandages, splints, correction of shock, arrest of bleeding, treatment of hyperpyrexia, use of anti/shock fluids and their administration, Observation and maintenance of such causalities. Unit-V Casualty handling including observation, maintenance of observation charts, treatment administered, temperature-pulse-respiration records, application of suction, appropriate positioning of casualties affected by head injuries, chest injuries, abdominal injuries, bleeding, shock, asphyxia; Transportation of causalities on stretches, across plain ground, through obstacles, stretcher drill, loading and unloading of causalities in stretches and ambulances, Ambulance installations and their use in causalities during transportation etc. Unit-VI Casualties affected by heat and cold, drowning, poisoning, pressure, altitude, inebriations, sound, explosions, nuclear radiations etc. Casualties affected in nuclear, chemical, biological warfare; Prevention, protection of effects on human bodies and their paramedical care; Bites of animals such as snakes, dogs and various insects and their paramedical care.

5 July 2010 26

References 1. Gray’s Anatomy 2. Cunningham’s Manual of Practical Anatomy 3. Hamilton, Boyal and Messmani : Human Embryelogy 4. Morri’s Human Anatomy 5. Bainddbridge and Mainsions: Principles of Physiology, Essentials of Human Physiology 6. McDowell: Halliburton’s Handbook of Physiology and Biochemistry 7. Parson : Biochemistry in Relation to Human Physiology. 8. Burns : Introduction to Biphysics. 9. Findlay : Physical Chemistry for students of Medicine 10. Boyg : Text book of Pathology 11. Wintrobe : Haematology 12. Ghosh : Materia Medica 13. Burn : Practical Pharmacelogy 14. Medi : Medical Jurisprudence and Toxicology 15. Tayler’s Medical Medical Jurisprudence, Vols. I & II 16. S. Smith : Forensic Medicine 17. Glaister : Medical Jurisprudence and Toxicology 18. B.N. Ghosh : A Treatise of Hygiene and Public Health 19. Nash : Ssurgical Physiology 20. Watson Jones : Fractures and Joint Injuries 21. Mercer : Orthopaedics Surgeon 22. Grey Turner : Operative Surgery 23. Mamilton Boiley : Physical signs in Clinical Surgery 24. Romani’s and Nirhiner of Rose and Careless : Text Book of Surgery. 25. R.W. Jones Tone : A Test Hook of Midwifery. List of Experiments(Pl. expand it) 1. To study the Respiratory System 2. To study the Digestive System 3. To study the Central Nervous System 4. To study the various types of Burns 5. To study the causes, consequences & treatment of Internal & External Bleeding 6. To study the various types of Bandages, Splints & Dressings. 7. To study various types of Bites & their Paramedical Care. 8. To study the measurement of Body Temperature & Blood Pressure. 9. To study the Cardiovascular System. 10. To study the causes & treatment of Poisoning and Unconsiousness. 11. To study the causes & treatment of Fracture. 12. To study the methods of handling & transportation of Victim.

5 July 2010 27


L T P DC – 8 Fire Prevention & Protection Measures

FT - 505 3 1 2


Unit-I General Principles of Fire Prevention and Protection Measures: Planning and Construction of the Building: Site Planning considering the nature of the plant, building, equipment and processes from the stand point of safety and fire protection, where corrosive, poisonous, explosive and easily combustible materials are handled and processed. Type of construction fire walls, barricades etc. Fire separation, fire steps, segregation, isolation. Unit-II Internal Planning and Combustion of Plants and Buildings: Layout of hazardous pipe lines, vessels and equipment, planning of strategic points and selection of fire extinguishing device, Automatic, fire doors, fire, doors, wire glass windows, fire walls, parapeted to prevent spread of Fire through roofs, vertical cut offs, Exits, Guards and Guarding, floor platforms, path roadways, stairs, ventilation. Protection and devices for fire due to lightening. Unit-III Different Extinguishing agent with their extinguishing properties & application like water, Foam, Carbon dioxide, Dry Chemical Powder, Halogenated agent and Halon alternatives Unit-IV Lighting: Lighting arrangement and minimum light required in domestic, commercial, industrial and public assembly occupancies etc. Emergency lighting systems. Fire Protection Arrangement: Fire appliances; Fire Warning system (Manual and Automatic) fixed fire-fighting installations: I. Foam System; II. Gas/Vapor System; III; Dry Powder System; IV. Special Safety Protection Equipment-Explosion detection, venting and suppression system, Inergen clean agent system and F.M. 200. Unit-V Safety and Fire Protection Organization: (a) House-Keeping and management; (b) Plant Fire Brigade and fire-fighting facilities, petrol, systems. Unit-VI Detailed analysis of fire case studies: especially those fires where large number of people have been involved. Interaction and relative value of the components of escape route design, especially smoke movement and control. References: 1. General Fire Hazards and Fire Protection by J.J. Williams. 2. Fire Prevention Notes for Industrial Premises by F.P.A. 3. Fire Prevention Hand Book by Kesteren Fire Brigade 4. Fire Prevention Standard Recommendations by Earnest Beam Ltd. 5. Automation – A challenge to Fire Protection Engineers by Warre J. Baker. 6. Fire Protection – Technical Information and Useful General Knowledge by Mather and Platt. 7. Hand Book of Fire Protection by N.F.P.A. 8. Fire Protection in Factory Buildings by H.M.S.O. 9. Fire Safety in Building by Adam and Chalres Black 10. Crosby – Fiske – Forster Hand Book of Fire Protection. 11. Industrial Fire Hazards by Danna and Milne 12. Fire Protection for the Design Professional by Rolf Jensen 13. Introduction to Fire Science and Fire Protection by William K. Bare

5 July 2010 28

List of Experiments(Pl. expand it) 1->To Study of :

a. Water Type Extinguisher b. Mechanical Foam Type Extinguisher c. CO2 Type Extinguisher d. DCP Type Extinguisher

On the basis of working principle, IS Code, mode of Operation & Maintenance. 2->To study the major component of Hydrant System on the basis of discharge rate, pressure requirement and percentage of piping. 3->To Study the Mode of Operation in Sprinkler Systems:

a. Wet Pipe System b. Dry Pipe System c. Deluge System

4->To study the hand held LX Foam Making branch pipe on the following basis.

a. Working Principle b. Diagrams

Discharge and Pressure Requirement(as per HMSO) 5->To Study the General Requirements of Different type of Occupancy as per NFPA 101-Life Safety Code 6->To study the fixed DCP Installation as per NFPA Code 17 7->To study the Fire Fighting Properties of Foam Concentrate

a. Fuel Tolerance b. Burn back resistance c. Induction Ratio d. Fluidity e. Film Formation

8->To Study the CO2 Total Flooding System as per IS Specification

5 July 2010 29


L T P DC(P) 2 Engg. Workshop Practice

FT - 506 0 0 4

List of Experiments(Pl. expand it) Unit I Black Smithy Shop: Smithy forges, maintenance and control of fire and fuel used in smithy shop. Use of various smithy tools such as sewage block, Anvil, different types of Hammers, Tongs, Flatters, Cold set, Hot set, Hydraulic swages, fullers, set hammers punches, Drifts and rivet headers (rivet snaps) etc.,Use of measuring foot rule, Callipers (outside and inside), Templates and gauges used in forging, Introduction to forging and forging methods heating metals for forging. Forging operations: Upsetting, Drawing down, Fullering, Swaging, Platening, Cutting down, Forge welding, Punching and drafting. Three jobs to cover above course such as Forging of chisel. Forging of C-Ring. Forging of Pan Hook (S-shaped) Forging of screw driver Forging of hexagonal nut etc. Unit II Fitting Shop: Metal bench work Measuring instruments, Engineer steel rule, Surface gauges calliper, Hermaphrodite calliper (Jenny calliper), Height gauges, feeler gauges, Try square and micrometer. Use, Care and maintenance of hand tools such as hammer, Cold chisel of different type, Center punch, Hack-saw, Dot punch, Drift, Different types of files, File cuts, File grades, Use of surface plate, Surface gauges type of drills, Taps and dies for drilling tapping and screw threads. Fitting operations: Chipping filling, Drilling and tapping. Two joints to cover above course such as : Preparation ofjob piece by making use of filling, sawing and chipping operation. Job having combined-practice for drilling and tapping. Job having combined practice for drilling and reaining. Unit III Advance Fitting: One composite job related to advance fitting covering knowledge about allowances and limits, Fits and tolerances. Use and care of important precision tools used in fitting. Unit IV Welding: Students are required to make three jobs related to Brazing, Soldering and welding and to know about : • Equipment used for Branzing, Solering and gas Arc welding. • Selection of material and flux used in branzing and soldering • Selection of welding rods, flux and pipe for gas welding. • Selection of welding machine, Electrods and current for Arc welding. • Use of tools and dequipments, Safety precautions.

References 1. Manufacturing Processes - Chapman, Vol. I & Il. 2. Production Technology - P.N. Rao. 3. Workshop Technology - Raghuwanshi, Vol. I & II. 4. Workshop Practices - Hazara Choudhary, Vol. I & II. 5. Production Technology - R.K. Jain.

5 July 2010 30

Course Contents

Category of Course

Course Title Course Code Credits – 2C

L T P DC(P) 3 Field Training in Fire Rescue

FT - 507 0 0 2

FIELD TRAINING IN FIRE RESCUE

V SEMESTER

Rescue Drill Unit – I Rescue from fire. Unit –II Rescue from the accidents (Road side, railway accident & Aircraft), Electrocution & rescue from

well.

5 July 2010 31

Course Contents Category Title Code Credits 4C Theory Paper DC-09 Laws related to

Safety, Health & Environment

FT 601 L 3

T 1

P 0

Max Marks 100 Min Marks 35 Duration 3 Hrs.

Unit I Objective, Definition, Application & provisions related to safety fire prevention

and fire protection in Factories Act 1948, M.P. Factories rules 1962. Madhya Pradesh Control of Industrial Major Accident Hazard Rules 1999.

Unit II Objective, Definition, Application & provisions related to safety fire prevention and fire protection in Indian Explosive Act 1884, Gas Cylinder Rules 2004, Petroleum Act 1934 with Rules 2002, Calcium Carbide Rules 1987. Static & Mobile Pressure Vessel Rules. Fire prevention Legislation. Fire Insurance Assessment.

Unit III Environment (Protection) Act 1986, MSIHC Rules. Water (Prevention and Control of Pollution) Act. Air (Prevention and control of pollution) Act. Chemical Accidents (Emergency, Planning, preparedness and response) Rules 1996.

Unit IV Objective, Definition, Application & provisions related to safety fire prevention and fire protection in Other Important Legislations like-Boilers Act 1923, Electricity Act 2003 with rules, Public Liability Act 1991, Dock workers (Safety, Health & Welfare) Act. Safety & Health provisions of Building & other construction workers (R.E.C.S.) Act 1986 and central rules 1998 and Mines Act.

References :-

1. All Relevent Acts & Rules. 2. Fire Services Acts & rules of different states. 3. Gen. Fire Insurance. 4. Safety and cases by Frank P Lecs 5. Safety in chemicals & Petrochemical Industries.

5 July 2010 32

Course Contents Category Title Code Credits – 4 Theory Paper

L T P DC - 10 Fire Fighting Codes & Standardization

FT 602 3 1 0


VI SEMESTER

FIRE – FIGHTING CODE AND STANDARDISATION UNIT-I Specification of Rescue and Fire – Fighting equipment and appliances viz., TP, Water

Tender, C.F.T. AND I.S. Standard. (IS 948, IS 950, IS-6067, IS-10460, IS-4989 (Part-1), IS-4989 (Part-3), IS- 949, IS-951, IS-944, IS-2930, IS-947, IS-6070, IS-957, IS-946, IS-942, IS-8090, IS-2190, IS-903, IS-636

UNIT-II Salvage Tender, Emergency Tender, Rescue Tender, DCP Tender

IS-10993, IS-949, UNIT-III Code concerning construction and design of buildings. NBC-1983 UNIT-IV Code of Practice for construction of temporary structures and pandals.

IS-8758, Codes relating to fire ratings of materials used. UNIT-V Municipal Bye-Laws in relating to fire prevention, Industrial Fire Prevention and

Protection enforcement. References 1. National Building Code by Indian Standard Institution 2. All relevant Indian Standard Specification & Code of Practices 3. Related N.F.P.A. Codes, Standard and recommended Practice. 4. DGMS (India) Director General of Mine Safety, Mines regulations. 5. U.L. Standard, Specification 6. Factory Act.

5 July 2010 33


L T P DC - 11 Fire Fighting & Safety Equipments

FT - 603 3 1 2


UNIT - I Hose and Hose Fitting: Details study of hoses, coupling, branches, branch holders, Monitors, Nozzles, Stand Pipes, Collecting Heads, Suction hose fittings, Breaching, Adopters and Ramps. UNIT - II Portable Fire Extinguishers: Constructional features, Specifications and applications. Extinguishers using water, Mech. Foam, CO2 Dry Powder Extinguishers and Light Water. UNIT – III Foam and Foam Making Equipment : Types of foam, Foam making equipment, properties and Characteristics of good foam, practical consideration, care and maintenance. UNIT – IV: Personnel Protective Equipments:- (Complete Head to Toe protection) Head Protection – Helmets, their types, material of construction and reliability Eye Protection – Goggle their types, material of construction and reliability Face Protection – Face Shields, their types, material of construction and reliability Body Protection – Aprons, their types, material of construction and reliability Hand Protection – Hand Gloves, their types, material of construction and reliability Leg Protection – Shoes, Gum Boots, their types, material of construction and reliability Fall Protection – Safety Belts, their types, material of construction and reliability References 1. N.F.P.A. Codes 2. H.M.S.O. London manuals

List of Experiments(Pl. expand it) 1. To study the manufacturing and construction of various extinguishers 2. To study fire fighting foam & foam making equipments 3. To study various types of hose and hose fittings 4. To Study various types of ladders, parts care and maintenance 5. To study various types of small gears 6. To study Various types of B.A sets and their uses

5 July 2010 34

Course Contents Category Course Title Course Code Credits – 6C Theory Paper

L T P DC - 12 Special Fire Hazards (Aviation, Marine & High Rise Buildings)

FT - 604 3 1 2


A – AIRCRAFT FIRE SAFETY UNIT-I Constructional features of an Air Craft, Types of Engines, Basic Fire-Hazards in Aircraft, Nature of Air Crashes, Emergency Landings including belly leading; Access to Fire Service Personnel and Escape of trapped persons problems, Types of Safety Belts, Ejection-Seats; and their methods of release; Rescue and Fires in Air Craft and methods of fire-fighting; Problems of fire-fighting. Problems in dealing with Air Craft carrying ammunition, bombs nuclear weapons; Action to be taken in case of accidents involving Radio Active Cargo UNIT-II Hazards in Airport, Protection & Types of Hangers, Refueling and Defiling in Air Cargo, Crash Fire Tender: Provision of Crash, Fire Tenders including Rapid Intervening appliances, Categorization of Air-Port, their extinguishing media and determination of the appliances for each category as per International Standard. B: Marine Fire UNIT-III The maritime environment, organizational role, vessel types, construction & systems of fire detection & suppression systems, Vessel plans, drawings & documents, cargo vessel hazards & safety. UNIT-IV Incident strategies & tactics training & planning, vessel fire incidents, Marine incidents & Rescue operations. C:HIGH RISE BUILDINGS UNIT-V Fundamentals of Fire Safe Building design, Building and site planning for fire-safety, structural integrity during fire confinement of fire in building, Life safety systems for high, rise structures. Evacuation: Need of Evacuation plans in high rise buildings, Making of Evacuation Plans, types of Evacuation, Procedure of Evacuation. UNIT-VI Alarm signaling in high-rise building – Smoke movement in building – Residential high-rise building-High-rise building with complex occupancy. Basic fire-fighting strategy. Study of model code of practice for high-rise building in metropolitan cities (Building Bye Laws). References: 1. Aero plane knowledge for Rescue Personnel by F. Engineering Division. 2. Fire Protection and Maintenance of Aircraft by N.F.P.A. 3. The Fire Hazards of Fuelling Aircraft in the Open by D.S.I.R., H.M.S.O. London. 4. I.C.A.O. Standard 5. Marine fire manual 6. High-Rise building fires and fire safety – N.F.P.A. 7. High-Rise Fire & Life Safety by B. Hagan 8. N.F.P.A. 9. National Building Code of India. List of Experiments(Pl. expand it)

1. Study of Airport Fire Hazard and Categorization of Airports. 2. Study of Protection of Hangers. 3. Study of General Requirements of CFT. 4. Study of Emergency Landing, Belly Landing, Aircraft Engine. 5. Study of Fundamentals of Fire & Safety Building Design. 6. Life Safety plan in High Rise Buildings. 7. Study of working principle of Pilot Ejection Seat

5 July 2010 35


L T P DC -13 Nuclear Safety and Radioactive Materials

FT - 605 3 1 2


NUCLEAR SAFETY AND RADIOACTIVE MATERIALS

UNIT – I Radio Active Material – Basic Theory. Principles& Techniques of radiation dissymmetry. Techniques of area and air monitoring. Techniques of personnel radiation protection. UNIT – II Sources and characteristics of radioactive waste and their types and their method of disposal. UNIT – III Handling and prevention of radiation emergencies and Storage requirements of radioactive materials UNIT – IV Fire fighting and rescue operations in the presence of radiation hazard. Pre plan of Radiation Incident. UNIT – V Radiation Safety in Nuclear Power Stations References: 1. Radioactive Materials, B.M. Rao, Himalaya Publishing House (2001) (in press) 2. Principles of Radiation Dosimetry, G.W. Whyte, John Wiley and Sons, New York (1969) 3. Radiation Hygiene Handbook, Henson Blat. 2 (Ed.) McGraw Hill, New York (1959) 4. Radioactive Wastes, their Treatment and disposal, J.C. Collins, E.F.N. Spon Ltd., London 5. Effects of Nuclear Weapons, S. Glasstone, U.S. Government Printing Office, Washington 6. Environmental Radioactvity, M. Eisembud, McGraw Hill Book Co., New York (1963) 7. Industrial Hygiene and Toxicology, F.A. Patty (Ed.), Vols. I and II Interscience, New York (1962) 8. Industrial Safety, F.A. Patty (Ed.), Prentice Hall, New York (1960). 9. Living with Radiation Problems of the Nuclear age for the Layman parts-I and II 10. Fire Service Problems, Published by the United States Atomic Energy Commission. 11. Source Book of Atomic Energy S. Glasstone, 3rd Ed., Affiliated East-West Press, New Delhi. List of Experiments(Pl. expand it) Study of Storage of Radioactive Material Study of PPE for Handling RAM Study of measuring effects of RAM Working principle of Dose meter Rescue technique in RAM expose

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L T P DC(P) 4 Field Training rescue in Chemical Hazards

FT - 606 0 0 2

List of Experiments(Pl. expand it)

FIELD TRAINING RESCUE IN CHEMICAL HAZARDS

V SEMESTER & VI SEMESTER Rescue Drill Unit – I Rescue from Chemical hazards. Unit – II Rescue from Toxic & Poisonous gas leak. Unit – III Rescue from high rise buildings & sewage


L T P DC(P) 5 Project Seminar FT - 607 0 0 2

List of Experiments(Pl. expand it) Seminar presentation on ff and Safety

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L T P DC(E) -1 Structures Behavior Under Fire

FT –701(A) 3 1 0


Unit I Principles of fire, mechanism & mode of fire spread in a building, development & growth of fire, Fully, developed fire, flash over, fire hazardous properties of solids, liquid, gaseous & volatile fluids, Time temperature grading curves, Heat balance for an enclosure during a fire, Fire severity & factors controlling fire severity, thermal properties of wall fixtures & geometrical properties of a room compartment, Thermal insulation heat transfer & radiation, calculation of fire resistance of a compartment, fire spread within, outside and between the buildings due to Propagation of heat, Flames outside buildings, Reduction of risk of fires Explosions. Unit II Effect of fire, Natural ventilation, Smoke movement in buildings, smoke moment in tall buildings, stack effect, wind effects, influence of openings in tall buildings, smoke shaft, smoke control during building design, Control of smoke spread, Mechanical ventilation, pressurization system & their types, Design of smoke control pressurization system for a building. Unit III Fire protection to buildings, Building considered as whole, Fire planning & design, confinement of fire site planning access to fire fighting appliances, Exposure hazard, severity of exposure, its classification and factors affecting severity of exposure, Contribution of external walls & roof covering, Aspects of internal planning, reduction of fire spread, Concept of compartments & types, Construction of compartments, space and circulation, Principles and types of Fire & roof venting, Effect of wind on roof vent, Industrial building ventilation. Unit IV Active Fire protection : Detection of fire & smoke, automatic fire extinction, sprinklers & spray, Foam system & chemical extinction, fire suppression. Unit V Means of escapes & escape routes, Their design, planning and construction, Evacuation time & speed of movement, Escape staircase, Doors, halls and corridors to final exits, other means like high level access, Ramps existing in buildings, Fire resistance of doors and windows, Glazing, floor tiles, Plaster, use of Plastics in building. Unit VI Functional aspects of fire planning and designing in relation to thermal & sound insulation services, Lighting heating ventilation and water supply assessment of fire risk, Insurance. References: 1. National Building Code of India – 1984 Part - IV 2. N.F.P.A. Handbook 3. Building Construction for the Fire Service by F. Barmigan 4. Fire Safety in Buildings by C.J. Langdon Thomas 5. Manual of Fireman ship. List of Experiments(Expandable) To study of development of fire effect. To study the behaviour of materials. To study means of escape routes, escape staircases To study smoke and heat venting To study of fire resistance tests of structural components (IS 1641: 1960 To study smoke movement and stack effect in high rise building To study natural ventilation and mechanical ventilation To study about the compartmentation To study about actual design of smoke control pressurization

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Course Content Category Title Code Credits-6C Theory Paper

L T P DC(E) 1

Operations Research and Supply Chain

FT 701 (B) 3 1 2


Unit 1 Linear system and distribution models: Mathematical formulation of linear systems by LP, solution of LP for two variables only, special cases of transportation and assignment and its solution, Vogel’s forward looking penalty method, cell evaluation degeneracy, use of SW Lindo, Tora, Excell. Unit 2 Supply chain (SCM): Definition, importance, expenditure and opportunities in SCM; integration of inbound, outbound logistics and manufacturing to SCM, flow of material money and information, difficulties in SCM due to local v/s system wide (global) optimization and uncertainties in demand and transportation; Bull-whip effect; customer value; IT, info-sharing and strategic partnerships; plant and warehouse-network configuration; supply contracts and revenue sharing; outsourcing; transportation, cross docking and distribution, forecasting models in SCM; coordination and leadership issues; change of purchasing role and vendor rating, variability from multiple suppliers. Unit 3 Inventory models: Necessity of inventory in process and safety stock, problem of excess inventory and cycle time (=WIP/ Throughput), JIT/ lean mfg; basic EOQ/ EPQ models for constant review Q-system(S,s); periodic review, base stock P-system; service level, lead time variance and safety stock;; ABC, VED and other analysis based on shelf life, movement, size, MRP technique and calculations, lot sizing in MRP, linking MRP with JIT; evolution of MRP to ERP to SCM and e-business. Unit 4(a) Waiting Line Models Introduction, Input process, service mechanism, Queue discipline, single server (M/M/1) average length and times by Little’s formula, optimum service rate; basic multiple server models (M/M/s) (b) Competitive strategy: concept and terminology, assumptions, pure and mixed strategies, zero sum games, saddle point, dominance, graphical, algebraic and LP methods for solving game theory problems. Unit 5: (a) Decision analysis: decision under certainty, risk probability and uncertainty; Hurwicz criteria; AHP- assigning weight and consistency test of AHP (b) Meta-heuristics Definition of heuristic and meta-heuristic algorithms; introduction to Tabu search, Simulated Annealing and Genetic algorithms and solution of traveling salesman and non linear optimization problems. References: 1. Hillier FS and Liberman GJ; Introduction to Operations Research concept and cases; TMH 2. Simchi-Levi, Keminsky; Designing and managing the supply chain; TMH. 3. Srinivasan G; Quantitative Models In Operations and SCM; PHI Learning 4. Mohanty RP and Deshmukh SG; Supply Chain Management; Wiley India 5. Taha H; Operations research; PHI 6. Sen RP; Operations Research-Algorithms and Applications; PHI Learning 7. Ravindran , Philips and Solberg; Operations research; Wiley India 8. Vollman, Berry et al; Manufacturing planning and control for SCM; TMH. 9. Bowersox DJ, Closs DJ, Cooper MB; Supply Chain Logisti Mgt; TMH 10. Burt DN, Dobler DW, StarlingSL; World Class SCM; TMH 11. Bronson R ;Theory and problems of OR; Schaum Series; TMH

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Contents Category Title Code Credits – 6C Theory Paper

L T P DC(E) 2 Disaster Management

FT – 702(A) 3 1 0


Unit I Types & consequence of major accident hazards, Role of management, Local authorities and public, Disaster Management Cycle – Prevention, Mitigation, Preparedness, Disaster impact, Response, Restoration, Reconstruction, Onsite & offsite emergency planning; Emergency preparedness, rehearsal & exercises. Unit II Role of Insurance in Disaster Management, Role of International co-operation (i.e. NGO & UN Agencies), affected factors on environment due to disaster. Need for National Capacity Building and Disaster Knowledge Network Unit III The Disaster Management Act:: Need for technological input in disaster mitigation, community based disaster preparedness program; Preparation of Disaster Management; Plan Early Warning System; Role of Information Technology (IT) Unit IV Natural Disaster like Earthquake, Mine fire, flood etc, Man-Made Disaster – Industrial Disaster due to toxic gas release, Fire or Explosion; Case – Study. Unit V Accident related Disasters (Forest fires, Air, road, & Rail Accidents, Rural & Urban Fires, Oil Spills, Major building collapse etc. Community based Disaster preparedness program. References :-

1. Disaster Management Act 2005 2. Industrial Security Management S.C. Dey 3. Dangerous Properties of Industrial Material – Irvin Sex. 4. Encyclopedia of occupational Health & Safety (OSHA) IV edition. 5. Safe Handling of Hazardous Chemicals by Rohatgi. 6. Industrial Fire Hazards Hand Book (NFPA) 7. Major Hazard Control I.L.O. Geneva. 8. What went wrong-Trevor Kletz. 9. Chemical process safety – Daniel . A. Crawl, Joseph F Louver. 10. Madhya Pradesh Control of Industrial Major Accident Hazards rules 1999.

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Course Contents Category Title Code Credits-4 Theory Paper

L T P DC(E)-2 Simulation and Process Modeling

FT 702 (B) 3 1

Max. Marks-100 Min. Marks-40 Duration: 3 hrs.

Unit 1: Introduction to modeling and simulation: Modeling and simulation methodology, system modeling, concept of simulation; gaming; static, continuous and discrete event simulation. Unit 2: Basic concept of probability, generation and characteristics of random variables, continuous and discrete variables and their distributions; mapping uniform random variables to other variable distributions; linear, nonlinear and stochastic models Unit 3; Introduction to Queuing Theory: Characteristics of queuing system, Poisson's formula, birth-death system, equilibrium of queuing system, analysis of M/M/1 queues. Introduction to multiple server Queue models M/M/c Application of queuing theory in manufacturing and computer system Unit 4; System Dynamics modeling: Identification of problem situation, preparation of causal loop diagrams and flow diagrams, equation writing, level and rate relationship, Simulation of system dynamics models. Unit 5: Verification and validation: Design of simulation experiments, validation of experimental models, testing and analysis. Simulation languages comparison and selection, study of simulation software –Arena, Pro-model, SIMULA, DYNAMO, STELLA, POWERSIM. References:

1. Law AM and Kelton WD; Simulation Modeling and Analysis; TMH 2. Gordon G., System simulation, PHI Learningl 3. Banks J; Hand book of Simulation; John Wiley. 4. Taha H, Operations Research; PHI. 5. Hillier FS, Liberman GJ; Introduction to OR; TMH. 6. Deo N; System Simulation with Digital Computer; PHI Learning 7. Harrell C, Ghosh B, Bowden R; Simulation Using Promodel; MG Hill 8. Seila, Ceric and Tadikmalla; Applied Simulation Modeling, Cengage 9. Payer T., Introduction to system simulation, McGraw Hill. 10. Sushil, System Dynamics, Wiley Eastern Ltd. 11. Spriet JA; Computer Aided Modeling and Simulation, Academic Press INC; USA

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L T P DC(E)-2 Process Safety & Risk Assessment

FT – 702(C) 3 1 0


Unit I Concept of Risk: Definition, Accepted & Imposed risk, perception and qualification of

risk, ALARP, cost Benefit analysis. Unit II Basic Quantitative Risk Assessment (QRA): The logic tree Approach, principles of QRA,

fault tree analysis, probability Theory, Combination of Frequencies, Event Tree analysis (ETA) .

Unit III Safety in Design and operation: Safety in Design safety assurance in design, safety in

operation, maintenance, organizing for safety, Accident Investigation and reporting. Unit IV HAZOP: Introduction to HAZOP, conducting a HAZOP study, computerized reporting

systems. HAZOP of batch process, Extensions of HAZAOP, Failure Mode & Effect Analysis (FMEA): Methodology of FMEA, criticality analysis, corrective action and follow-up.

Unit V Consequence Modeling: Gas dispersion, Toxicity, Explosions and fires, fires.

Human Factors:- The role of the operator, control room design, Human Error Assessment Methods, Application of HAZOP to human reliability, date on operator reliability.

References:

1. Process safety analysis – An introduction by Bob Skelton. 2. An introduction to Risk Analysis by Robert E. Megill. 3. Risk Assessments Questions and Answers a practical approach by Pat Perry. 4. Safety sharing the experience - BP Process Safety Series- by www.icheme.org. 5. Fire Safety Risk Assessment- HM Government.

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L T P DC – 14 Heat Transfer, Combustion & Explosives

FT – 703 3 1 2


UNIT-I: Study state heat conduction with and without heat generation, thermal insulation, selection criteria, critical and optimum thickness determination, extended surfaces and unsteady state heat transfer. UNIT-II : Fluid flow over flat plate and heat transfer, convective heat transfer in laminar flow and turbulent flow inside tubes, film wise condensation and drop wise condensation nucleate and film boiling. Classification of heat exchangers and fired heaters, radioactive heat transfer, radiation laws, emissivity and intensity of radiation. UNIT-III : Combustion: Modes & Types of combustion, Fire Characteristics of gaseous combustible: types for gaseous Flames ,chemical mechanism of combustion, Radiation from flames, Fire Characteristics of Liquids combustible; Category of liquid fire, burning rate of liquid pools, flame spread rate, Fire Characteristics of solid combustible: gasification, ignition, charring & melting, Fire Retardants. UNIT-IV: Combustion Products; Understandings the hazards to human of Smoke, Carbon monoxide, hydrogen cyanide, hydrogen sulphide & carbon di oxide, toxicity of fire products Evaluation of smoke Toxicity & various models. UNIT-V: Classification of explosives and their characteristics, chemistry of explosives, Explosion and its effect, fire ball, kinetics and mechanisms of detonation, lower flammability limit, upper flammability limit, References: 1. Heat & Mass Transfer By D.S. Kumar 2. Heat & Mass Transfer By S.P. Sukhatme 3. Principals of fire protection chemistry & Physics – Raymond friedman. 4. Fire fundamentals & control –Walter M Haeessler. 5. Advance in combustion Toxicology – Gordon E Hartzell 6. Engg. Chemistry By RGopalan, D. Venkeappoyya, S Nagrajn 7. Engg. Chemistry By P.C. Jain & Monika List of experiments (Expandable): Determination of the Flash & Fire Point of lubrication oil by Pensky – Martin’s Appratus Determination of the Flash & Fire Point of lubrication oil by Able’s Appratus Determination of the Flash & Fire Point of lubrication oil by Cleiveland’s Appratus Determination of the Calorific Value(Liquid) by Boy’s Calorimeter Determination of the Calorific Value(Liquid) by Bomb Calorimeter Determination of Moisture content of given Coal sample Determination of Ash content in given Coal sample Determination of Volatile material of given Coal sample Determination of the percentage of the CO2, CO, O2 and N2 in Flu gas by Orsat’s Appratus Determination of N2 in Coal Sample by Kjeldhalmetgods Determination of Sulpher content of given sampleof Coal

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L T P DC-15 Safety Engineering and Its Industrial Application

FT-704 3 1 2


Unit-I Theory and principals of accident causation, unsafe Act and unsafe conditions, case

studies, Accident- Investigation Procedure, Safety Committee organization & functions.; Safety performance measurement; Safety policy, Safety in material handling.

Unit-II Good housekeeping and safety, personal protective equipments needs & limitations,

Hazards & risk assessment techniques, job safety analysis, fault tree analysis Ergonomic concept, local exhaust ventilation, plant inspection procedure, safe working in confined space, work permit system.

Unit-III Control of industrial noise, lighting, heat & ventilation, safety officer- role, responsibilities,

power & duties, role of management, supervisor, trade- union, workers & Government, safety in use of hoists, lifts, & lifting machines, safety in pressure plants, principles of machine guarding, types & selection of machine guards.

Unit-IV Safety in industries involving hazardous processes, safety in industries involving highly

flammable liquids & flammable compressed gases, safety in chemical works, application of safety in handling corrosive substances, safety audit in various types of factories, types of safety audit, its methodology and reporting..

Unit-V Hazards & their control in the manufacture of articles from refractory materials, hazards

in solvent extraction plants & their control, safety in industries, manufacturing rayon by viscose process, hazards & their control in fertilizer industries, hazards & control in LPG bottling plant.

References:

1. Fundamentals of Industrial safety & health by K.U. Mistry. 2. Safety at work by Jhon Ridley 3. Less loss prevention in the process industries- volume – I, II, III 4. Safety Legislations related to industries.

List of experiments (Expandable):

1. Case study on FF and Safety 2. Practicals on layout and house keeping 3. Noise measurement and prevention

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L T P DC - 16 Chemical Safety FT - 705 3 1 2


Unit I General Principle of Chemical exposure and toxic response:-

Chemical exposure and cancer, chemical exposure and hypersensitivity, toxic response of lungs, liver, kidney, skin chemical exposure and health risk assessment.

Unit II Toxic release and dispersion models:- Design basis, source model, dispersion model, Pasquill- Gifford model, effect of release momentum, Buoyancy.

Unit III Chemical risk analysis:-

Flammability: - vapour pressure, limits of flammability, Flash points, auto-ignition temperature. Stability: - Experimental methods of determination, classifications of instability risk, quantative approach. Toxicity: - Evaluation parameter, level of toxic risk, problem posed by determination of toxicity risk level, Quantative estimation method.

Unit IV Explosion Hazards:-

Gas and vapour cloud explosion & means of preventing and mitigating in the process industry, Explosion in clouds of liquid droplets in air (spray/mist explosions), Dust Explosion.

Unit V Methodology for Hazard and Risk analysis: Hazards survey or inventories, hazards and

operability studies (HAZOP), failure mode and effect analysis (FMEA), fault tree analysis (FTA), Event tree analysis (ETA).

References:

1. Chemical process safety, fundamental with application- Daniel A Crowl/ Joseph F Louver 2. Chemical exposure and toxic response- Edited by- Stephen K. Hall, Joana Chakraborty, Randall

J. Ruch. 3. Chemical Risk analysis- Bernard Martel 4. Explosion hazards in the process industries. – Rolf K. Eckhoff. 5. Chemical process Industries Shreve R.N. 6. Chemical Engineers handbook peoy JHJ & Chitten (Ed) 7. Hazardous materials emergency planning guide-NSC India. 8. Loss prevention in the process Industries F.P. Lees. 9. Technical guidance for hazard analysis – NSC India. 10. Process equipment design – MV Joshi 11. Major hazard control – A practical manual (ILO) 12. Chemical Process safety – Daniel A Crawl, Joseph Flouvar.

List of Experiments (Expandable)

1. Study of toxic Chemicals 2. Study of runaway reactions 3. Study of flammability & Explosion 4. Study of corrosive Materials

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Course Contents Category Title Code Credits 4C Practical

L T P DC 17 Minor Project

ME 706 0 0 4

Max. Marks-50 Min. Marks-25-

Provision of Minor project is made as preparation phase-I for major project or to take it as an independent small project. For details of project see FT-805- Major project


L T P DC 18 Industrial Training

ME 707 0 0 2

Max. Marks-30 Min. Marks-15

Objective of Industrial Training The objective of undertaking industrial training is to provide work experience so that student’s engineering knowledge is enhanced and employment prospects are improved. The student should take this course as a window to the real World and should try to learn as much as possible from real life experiences by involving and interacting with industry staff. Industrial training also provides an opportunity to students to select an engineering problem and possibly an industry guide for their Major Project in final semester. Scheme of Studies: Duration: Minimum 2 weeks in summer break after VI semester, assessment to be done in VII semester Scheme of Examination: For the assessment of industrial training undertaken by the students, following components are considered with their weightage. (a) Term Work in Industry Marks Allotted Attendance and General Discipline 5 Daily diary Maintenance 5 Initiative and participative attitude during training 10 Assessment of training by Industrial Supervisor 10 ----------------------------------------------------------------------------------------------------- Total 30* ----------------------------------------------------------------------------------------------------- (b) Practical/Oral Examination (Viva-Voce) in Institution Marks Allotted 1. Training Report 15 2. Seminar and cross questioning (defense) 15 ----------------------------------------------------------------------------------------------------- Total 30 ----------------------------------------------------------------------------------------------------- * - Marks of various components in industry should be awarded by the I/c of training in Industry but in special circumstances if not awarded by the industry then faculty in charge /T.P.O. will give the marks. During training students will prepare a first draft of training report in consultation with section in charge. After training they will prepare final draft with the help of T.P.O. /Faculty of the Institute. Then they will present a seminar on their training and they will face viva-voce on training in the Institute.

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Learning through Industrial Training During industrial training students must observe following to enrich their learning:

• Industrial environment and work culture. • Organisational structure and inter personal communication. • Machines/equipment/instrument-their working and specifications. • Product development procedure and phases. • Project Planning, monitoring and control. • Quality control and assurance. • Maintenance system • Costing system • Stores and purchase systems. • Layout of Computer/EDP/MIS centers. • Roles and responsibilities of different categories of personnel. • Customer services. • Problems related to various areas of work etc.

Students are supposed to acquire the knowledge on above by- • Direct Observations without disturbing personnel at work. • Interaction with officials at the workplace in free/ tea time • Study of Literature at the workplace (e.g. User Manual, standards, processes, schedules, etc.) • “Hand’s on” experience • Undertaking/assisting project work. • Solving problems at the work place. • Presenting a seminar • Participating in group meeting/discussion. • Gathering primary and secondary data/information through various sources, storage, retrieval

and analysis of the gathered data. • Assisting official and managers in their working • Undertaking a short action research work. • Consulting current technical journals and periodicals in the library. • Discussion with peers.

Daily Diary- Industrial Training Name of the Trainee………………………………… College ………………………………….. Industry / work place ………………………………………………………………. Week No…….. Department /Section …………………………………………………… Date ……………………… ------------------------------------------------------------------------------------------------------------------------------- Dates Brief of observations made, work done, problem/project undertaken, discussion held, literature consulted etc. ------------------------------------------------------------------------------------------------------------------------------- Signature of Supervisor Signature of Trainee Signature of Official in (TPO/Faculty) charge for Trg. In Indutry. -------------------------------------------------------------------------------------------------------------------------------

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Supervision of Industrial Training Faculty and TPO are supposed to plan industrial training in such a manner that students get exposure on most of the above area in the field. One faculty member or TPO will plan industrial training of students in consultation with training manager of the industry (work place) as per the predefined objectives of training. Monitoring visits will be made by training and placement officer/faculty in-charge for the group of students, of the college during training. Guidance to the faculty / TPO for Planning and implementing the Industrial Training Keeping in view the need of the contents, the industrial training program, which is spread to minimum 2 weeks duration, has to be designed in consultation with the authorities of the work place; Following are some of the salient points:

• Spelling out the objectives of the industrial training in behavioral terms and same is informed in advance to the 1) students, 2) authorities of the work place and 3) supervising faculty members.

• Discussing and preparing students for the training for which meetings with the students has to be planned.

• Meeting with industrial personnel and orienting them regarding the objective of the training and the expectations of the program.

• Correspondence with the authorities of the work place. • Orientation classes for students on how to make the training most beneficial- monitoring daily

diary, writing weekly reports, how to interact with various categories of industrial personnel, how to behave and undertake responsibilities, how to gather information form the workplace, ethics etc.

• Guiding students to make individual plans (week wise/ day wise) to undertake industrial training.,

• Developing a system of maintaining training records, by teachers for every batch of students for convenient retrieval.

• Inviting industrial personnel to deliver lectures on some aspects of training. Action plan for planning stages at the Institutional Level ------------------------------------------------------------------------------------------------------------------------------- S.No. Activity Commencing Week Finishing week Remark

1. Meeting with Principal 2. Meeting with colleagues 3. Correspondence with work place(Industry concerned) 4. Meeting with authorities of work place 5. Orientation of students for industry training 6. Scrutinizing individual training plan of students. 7. Commencement of individual training 8. First monitoring of industrial training 9. Second monitoring of industrial training 10. Finalization of Training report 11. Evaluation of performance at industry level 12. Evaluation of Industry Program in the Institutions.

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L T P DC (E)-3 Safety in Refinery, Petrochemical Plant & Gas terminals

FT-801(A) 3 1 0


SAFETY IN REFINERY, PETROCHEMICAL PLANT & GAS TERMINALS Unit I Crude oil, its properties & Characteristics, Classification of petroleum & its products, MSDS of crude oil, diesel , gasoline, kerosene, LPG, Natural Gas, nylon, Naptha, Ammonia, Benzene, toluene, Acelytene. Unit II Refining Processes: - Primary Distillation, catalytic cracker, polymerization, reforming, steam cracking, sulphur recovery, Lubricating oil treating. Process units such as desalter, ADU, VDU, FCC, hydrocracker, catalytic reformer etc. Storage tanks & its types. Layout of Refineries - simplified flow diagram of a typical refinery. Unit III Fire protection & emergency planning :- Major fire risks, design criteria for selection of fire water network, fire fighting installations such as hydrant, mobile water monitors, foam pourer, DCP fixed, subsurface injection & steam snuffing systems. Storage tanks protection. Use of various media in petroleum & gas fires such as water, foam, DCP. Unit IV Fighting refinery & petrochemical fires: - Potential fire hazards, precautionary measures in case of non-ignited releases, oil & gas leaks. Fire fighting facilities for depots, terminals, on-shore, off-shore drilling platforms, and pipelines for transportation of petroleum products & Gas. Fighting Gas terminal fires: - Fire fighting & procedures in case of BLEVE, LPG hazards, spillage, vehicles using LPG & CNG as a fuel. Fire fighting facilities at LPG bottling plants. Water Injection into LPG vessel (water bottoming) Unit V Statutory provisions pertaining to refineries, petrochemical plants & gas terminals:- Oil Industry Safety Directorate (OISD), Petroleum Act 1934, Petroleum Rules 2002, Petroleum & Natural Gas Regulatory Board (PNGRB) drafts, Explosive Act 1884, Explosive Rules 1983 and Gas cylinders Rules 2004. Application of advance technologies used in refineries & petrochemical plants such as SCADA, SAP and various simulation molding. References: -

1. Fire Service Manual (Volume 2) Fire Service Operations – Petrochemical Incidents 2. Manual of Firemanship, Part 6-A by H.M.S.O. 3. Oil Industry Safety Directorate (OISD) Norms & Rules 4. Petroleum & Natural Gas Regulatory Board (PNGRB) drafts 5. Loss prevention in Process of Industries, Vol 1,2, & 3, Frank P. Lees. 6. NFPA Codes

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L T P DC (E)-3 Safety in Mines FT-801(B) 3 1 0


Unit-I Minerals, rocks ores and non metallic minerals; classification of rock coal classification, mine atmosphere neat and humidity, Composition of mine atmosphere: Mine gases; generation, properties and effects; sampling and analysis of mine air; methane content; types and characteristic selection and location. Unit II Mining tools & machinery, drilling machinery, including blast hole drills, ladders, excavators, dumpers, transportation equipment and conveyors and other related tools & equipments used in mining. UNIT III Safety in Mines: Duty of care; occupational hazards of mining; causes and prevention; accidents and their classification; accident statistics; cause-wise analysis; basic causes of accident occurrence; in-depth study into various causes of accidents; measures for improving safety in mines; TRAP (take responsibility in accident prevention); cost of accident; contribution of human elements in mine safety; tripartite and bipartite committees; mine environment monitoring and control. UNIT IV Lighting: general principles of artificial lighting; lighting standards and their assessment. Sanitation and health in mines, Safety related issues in coal beneficiation and transport, Development and layout of mines including surface and underground arrangements; layout and development of shaft-top and pit-bottom and haulage arrangements. Unit-V Health and Safety Laws: The Mines Act, 1952; Mines Rules, 1955; Coal Mine Regulation, 1957; Mines Rescue Rules, 1985; provisions of Indian Electricity Rules, 1956 applicable to mines; Mine Vocational Training Rules, 1966; other rules and legislation applicable to coal mines. Economic Impact of Mining: Economics of mining, effect on community – before, during and after mining; corporate social responsibility (CSR). References:

1. Mine Safety - Law Regulation Policy by Neil Gunningham

2. Understanding Human Error in Mine Safety by Geoff Simpson, Tim Horberry, and Jim Joy

3. Mine Health and Safety Management by Michael Karmis

4. Race against Time - Building a Culture of Mine Safety by Gregory M. Anderson & Stephen R. Rosene

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L T P DC -19 Fire Fighting Installations & Automation

FT – 802 3 1 2


UNIT-I Grouping of Fixed-Fire-fighting Installations, Provisions of First Aid Fire-Fighting Arrangements, External Hydrants, Ring-Mains. Rising Mains: Down Comer, Dry-riser, Wet-riser and specifications of each types, their relevant code of practices. UNIT-II Water Supply & Hydrant System: Grading, Requirement of water supply, Total requirement of water for different hazards pressure tanks water supply, Designing of Fire Hydrant System for different occupancies.; Designing of HVWSS/MVWSS/Sprinklers System: Types of Sprinklers system and its specification New Standard for the installation of sprinklers and Hazard classification. Multiple Jet-sprinklers, Water spray projector system, MVWSS and HVWSS-Drenchers: Different types of Drenchers, Rules for spacing sprinklers and drencher’s heads. UNIT-III Mechanical Foam Installations: Determination of foam compound for fire-fighting in oil tanks, Methods of application. Top application Base injection, Sub-surface Injection. Foam inlets and Risk for which foam is used. Premix foams, Installation characteristics of foam. Different types of foam, Low expansion, Medium expansion and High expansion foam, their special application, advantage and disadvantages of various types and the storage of foam concentrates. UNIT-IV Installations Involving Carbon-di-oxide and Dry powder: Their special features, Characteristics, Designing, arrangements, operation, extinguishing action, risks and specification. UNIT-V Fire Alarm & Detection System: Designing, Calculations, Installation, Testing and Maintenance, Working principle of smoke detectors, heat detectors, Flame detectors & optical beam type detectors. References: 1. Standard Installation of sprinkler system by NFPA. 2. A Study of Performance of Automatic Sprinkler System by NFPA. 3. National Fire Code of Sprinklers by NFPA. 4. Care and Maintenance of Sprinkler System by NFPA. 5. Fire and Fire Risers by UNISEF Publication. 6. Relevant Indian Standards and Code of Practices. List of Experiments (Expandable) 1. To Study the General Requirements of Different type of Occupancy as per NFPA 101-Life Safety

Code 2. To study the fixed DCP Installation as per NFPA Code 17 3. To study the Fire Fighting Properties of Foam Concentrate

a. Fuel Tolerance (b)Burn back resistance (c) Induction Ratio (d) Fluidity (e) Film Formation

4. To Study the CO2 Total Flooding System as per IS Specification

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L T P DC -20 Environmental Protection & Waste Management

FT-803 3 1 2


Unit I Air Pollution Management Air Pollution, Air pollution Measurement, Air quality monitoring, Air pollution modeling, Air pollution control Technology & method, Equipment Selection, Equipment design, Particulate emission control, Sources corrective methods, Air quality management concept. Unit II Water pollution Management Concept of water pollution, characteristic of waste water, standards of pollution parameters methodology of waste water treatment, Water Treatment process, Sedimentation, coagulation and flocculation, Filtration, Advanced Water Treatment processes, Industrial Water pollution management. Unit III Solid & hazardous waste management & risk analysis: Sources, Classification and composition of MSW (Municipal Solid Waste), Waste Minimization of MSW, Thermal Treatment (Combustion) of MSW, Hazardous Waste Transport & treatment facilities, Treatment systems for hazardous waste & handling of treatment plant residues. Unit IV Environmental management in industries, Principals & requirements of ISO 14001 EMS, Environmental auditing & Auditing of waste minimization. Environment Impact Assessment, Environment Management Plan. EIA, EMP and Environmental Auditing Environmental impact assessment, base line for existing data collection & identification of impact, prediction of impacts, Evaluation of impacts. Unit V Handling storage and transportation of health care waste, Waste segregation packaging on site collection Transport & storage of waste treatment and disposal of health care waste. Incineration chemical infection wet and dry thermal treatment, microwave irradiation, land disposal, winterization treatment and disposal method from pharmaceutical & chemical waste; Training for health care personal and waste management operators. References:

1. Environmental Management Handbook by Marcel Dekker. 2. Environmental Management Handbook for Hydrocarbon Processing Indus.; James B. Wall. 3. Environmental Safety and Health Engineerings by Gayle wood side and Dianna Koeurek. 4. Waste Management by Rajiv K. Sinha. 5. Hazardous Waste Management by J.M. Dewan. 6. Perspectives in Nuclear Toxic and Hazardous Waste by Kadambari Sharma. 7. Water Pollution, Causes Effects & Control by P.K. Goel. 8. A to Z of Environmental Audit, A. Mehrotra. 9. Elements of Biotechnology -P.K. Gupta 10. A text book on biotechnology by – H.D. Kumar

List of Experiments (Expandable)

1. Collection of waste water test 2. Study of solid waste material 3. Study of noise level & its control 4. Study of environmental audit 5. Study of Environment Impact Assessment 6. Study of soil test

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Course Contents Category Title Code Credits 6 C Theory Paper DC-21 Industrial Hygiene &

Occupational Health FT-804 L

3

T 1

P 2


Unit I Basic concepts of Industrial Hygiene, Environmental factors of stress- Chemical Hazards, Physical Ergonomically Biological Hazards, Threshold limit values (TLV) Short term exposure limit (STEL), Maximum Tolerable exposure Limit (MTEL), LC-50, LD-50, MSDS of Hazardous chemicals Unit II Recognition of hazards: Industrial toxicology, gases, vapors, solvent, dust, fibers, particulates, Industrial noise, Ionizing & non-Ionizing radiation thermal, Ergonomics. Unit III Evaluation of hazard: General principals, Air sampling, Analysis, methods of air sampling various equipments for sampling, direct reading instruments for gases, vapors and particulates, Asbestos fibers, sampling & analysis.. Unit IV Control of hazards: Methods of control local exhaust ventilation, dilution ventilation of Industrial work places, respiratory protection, ventilation norms requirements & measurements,. Unit V Occupational health: Occupational diseases of skin, respiratory system, diseases from metals, pesticides, solvents & gases occupational cancer, Biological Monitoring. References: -

1. Fundamentals of Industrial Hygiene by Barbara A. Plog & particia J. Quinlan. 2. Safety at work by John ridby & John Channing. 3. Occupational Health & Safety in manufacturing Industries – M K Potty. 4. Diseases of occupation – D. Hunter. 5. Code of Practice for Hazardous goods by NFPA 6. Dangerous properties of Industrial materials by Irvin Sex. 7. Handbook of occupation Health & Safety NSC Chicago 1982 8. Encyclopedia of occupational Health & Safety Vol I & II I.L.O. Geneva 1985. 9. Human Factors in Engineering & Design Tata McGraw-Hill 1982

List of Experiments (Expandable) 1. Sampling of air monitoring 2. Study of gas detection system 3. Study of chlorine detection & control measures 4. Study of ammonia detection & control measures 5. Study of portable gas monitoring equipments 6. Study of flammable gas detection monitor 7. Study of dust monitoring System

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L T P DC 22 Major Project ME 805 0 0 8

Max. Marks 100Min. Marks-50

Objectives of the course Minor/Major Project are: • To provide students with a comprehensive experience for applying the knowledge gained so far

by studying various courses. • To develop an inquiring aptitude and build confidence among students by working on solutions

of small industrial problems. • To give students an opportunity to do some thing creative and to assimilate real life work

situation in institution. • To adapt students for latest development and to handle independently new situations. • To develop good expressions power and presentation abilities in students.

The focus of the Major Project is on preparing a working system or some design or understanding of a complex system using system analysis tools and submit it the same in the form of a write up i.e. detail project report. The student should select some real life problems for their project and maintain proper documentation of different stages of project such as need analysis market analysis, concept evaluation, requirement specification, objectives, work plan, analysis, design, implementation and test plan. Each student is required to prepare a project report and present the same at the final examination with a demonstration of the working system (if any) Working schedule The faculty and student should work according to following schedule: Each student undertakes substantial and individual project in an approved area of the subject and supervised by a member of staff.The student must submit outline and action plan for the project execution (time schedule) and the same be approved by the concerned faculty. Action plan for Major Project work and its evaluation scheme #(Suggestive)

Task/Process Week Evaluation Marks For Term Work#

Orientation of students by HOD/Project Guide

1st - -

Literature survey and resource collection 2nd - - Selection and finalization of topic before a committee*

3rd Seminar-I 10

Detailing and preparation of Project (Modeling, Analysis and Design of Project work)

4th to 5th - 10

Development stage Testing, improvements, quality control of project

6th to 10th 11th

- 25

Acceptance testing 12th - 10 Report Writing 13th to 15th - 15 Presentation before a committee (including user manual, if any)

16th - Seminar-II 30

* Committee comprises of HOD, all project supervisions including external guide from industry (if any) # The above marking scheme is suggestive, it can be changed to alternative scheme depending on the type of project, but the alternative scheme should be prepared in advance while finalizing the topic of project before a committee and explained to the concerned student as well. NOTE: At every stage of action plan, students must submit a write up to the concerned guide:

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L T P DC 23 Squad Drills FT 806 0 0 2

SQUAD DRILLS DRILL WILL BE CONDUCTED BY FINAL YR STUDENT TO PLAY A ROLE OF INSTRUCTOR Unit I Squad Drill : aim of squad drill-Principles of good instruction-sequence of teaching- words of command technique of instruction. Unit II Attention – stand – easy-stand at ease-Turning and including-Forming up in three ranks – Numbering – Proving – Open and close order March Dismission and Falling out-sixing getting on Parade-Length of Paceand time of marching. Halting-side-space paces forwarded and to the Rear-Wheeling-changing step in quick and slow time-making time-turning on marching-saluting-salute at the halts and on the marching. Unit III Marching Marking time and halting in Double time-barking into slow, quick and double time marching in line in slow time. Unit IV Report salute and salute with Message-Changing Direction-Forming of squad at halt march-wheeling in file-marching off in single file-reforming three on march and at the halt.