RGPV CBGS 3rd Sem Fire Tech Syllabus | Fire Technology & Safety Engineering Syllabus RGPV Credit Based Grading System B.Tech.
The Rajiv Gandhi Prodhoyogiki Vishavdhyalaya i.e RGPV now disclose the new scheme for 2nd year students who are admitted into the RGPV University as well as their affiliated institutes. The new scheme name is Credit Based Grading System (CBGS); under these scheme the university will give BTech degree to all 2nd year admitted students. It is very good news for all students and as we also known as the RGPV is one the largest government technical university of MP. More than 1 lacks candidates get Graduation as well as master degree from that university.
In this article we are going to share RGPV CBGS 3rd Sem Fire Technology & Safety Engineering Syllabus for 2nd year students. In the RGPV CBGS 3rd sem there are 7-8 subjects in Fire Technology & Safety Engineering branch i.e. Energy, Environment, Ecology & Society, Building Planning & Architecture, Strength of Materials, Heavy Vehicles & Automobile Engineering & Safety, Town Planning & Safety in Construction, Field
Training in Rescue Operations, Rural Outreach (Internal Assessment), and NSS/NCC/Social
Work (Internal Assessment).
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RGPV CBGS 3rd Sem Fire Tech Syllabus
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
BE-3001 Mathematics-III
(Syllabus for ME, AU, CM, FT, IP, PC, AT
& Mining Branches )
COURSE OBJECTIVE- The objective
of this course is to fulfill the needs of Engineers to understand the
Applications of Fourier Series, Different Transforms, Complex Analysis &
numerical methods in order to enable young technocrats to acquire Mathematical
thinking of Formulating, Analyzing and Solving a wide range of Practical
Problems Appearing in Science & Engineering.
Course Contents
Fourier Series: Fourier Series
for Continuous & Discontinuous Functions, Expansion of odd and even
periodic functions, Half-range Fourier series, Complex form of Fourier Series,
Integral Transforms:
Fourier Transform-Complex
Fourier Transform, Fourier Sine and Cosine Transforms, Applications of Fourier
Transform in Solving the Ordinary Differential Equation. Laplace Transform-
Introduction of Laplace Transform, Laplace Transform of elementary Functions,
Properties of Laplace Transform, Change of Scale Property, First and Second
Shifting Properties, Laplace Transform of Derivatives and Integrals. Inverse
Laplace Transform & its Properties, Convolution theorem, Applications of
Laplace Transform in solving the Ordinary Differential Equations.
Functions of Complex Variables:
Analytic functions, Harmonic Conjugate, Cauchy-Riemann Equations, Line
Integral, Cauchy’s Theorem, Cauchy’s Integral Formula, Singular Points, Poles &
Residues, Residue Theorem, Application of Residues theorem for Evaluation of
Real Integrals.
Numerical Solution of Ordinary
Differential equations: Picard’s Method, Taylor’s Series, Euler’s Method,
Modified Euler’s Method, Runge-Kutta methods, Milne’s and Adam’s Bashforth
Methods.
COURSE OUTCOMES- The curriculum
of the Department is designed to satisfy the diverse needs of students.
Coursework is designed to provide students the opportunity to learn key
concepts of Fourier Series, Different Transforms, Complex Analysis &
Numerical Methods for Solving Ordinary Differential Equations of First Order.
EVALUATION- Evaluation will be continuous, an integral part of the
class as well as through external assessment.
References:
1. Erwin Kreyszig: Advanced Engineering Mathematics, Wiley
India.
2. H C Taneja: Advanced Engineering Mathematics, I.K.
International Publishing House Pvt. Ltd.
3. B.S. Grewal: Higher Engineering Mathematics , Khanna
Publication.
4. S S Sastri: Engineering Mathematics, PHI
5. Ramana: Advance Engg. Mathematics, TMH New Delhi
6. Engineering Mathematics By Samnta Pal and Bhutia, Oxford
Publication
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
FT-3002 BUILDING PLANNING
& ARCHITECTURE
COURSE OBJECTIVE:
1. To develop the ability to perceive and measure spatial
relationships
2. To draw geometric and organic shapes in space.
3. To understand the contrast in tone and texture.
4. To understand how light describes form and space.
5. To become familiar with the visual elements of drawing
(line, shape, value,texture, scale, space, etc.)
6. To understand the importance of composition,
organization, placement and positive and negative space.
7. To. understand the importance of Fire safe Building
Concept
COURSE CONTENT:
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.
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.
Building Services: Introduction
of Building Services like water supply and drainage, electrification,
ventilation and lightening and staircases, fire safety, thermal insulation,
acoustics of buildings.
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.
Perspective Drawing: Elements
of perspective drawing involving simple problems, one point and two point
perspectives, energy efficient buildings.
COURSE OUTCOME
1. Graduate will be having basic knowledge various
components of building construction that relate to the fire service &
safety Engineering
2. Graduate will be able specifically focus on elements of
construction and the design of structures that are shown to be key factors when
inspecting buildings, pre-planning fire operations and emergency operations at
fires.
3. Graduate will be able to calculate fire and smoke growth
for masonry, steel, and concrete construction, and fire resistance wood
construction.
4. Graduate will be able to manage required relationship
between building types and Urban Search & Rescue Team capacity and Urban
Interface building requirements
EVALUATION
Evaluation will be continuous
an integral part of the class as well through external assessment.
REFERENCES
Malik & Meo; Building
Design and Drawing By
Shah, Kale & Patki;
Building Design and Drawing; TMH
Gurucharan Singh & Jgdish
Singh Building Planning, Design and Scheduling
LABORATORY
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.
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
FT-3003 STRENGTH OF
MATERIALS
COURSE OBJECTIVE:
To familiarize the students with the fundamentals of deformation,
stresses, strains in structural elements.
COURSE CONTENT:
Stress and strain: stresses in
members of a structure, axial loading, normal stress, shear stress, analysis of
simple structures, stepped rods, members in series and parallel: stress strain
diagram, Hooke’s law, stress due to temperature, Poisson’s ratio, Bulk modulus,
shear strain, relation among elastic constants, residual stress, fiber
reinforced composite materials, strain energy under axial loads and stresses
due to impact of falling weights. Transformation of stress and strain,
principal stresses, normal and shear stress, Mohr’s circle and its application
to two and three dimensional analysis .
Bending: pure bending,
symmetric member, deformation and stress, bending of composite sections,
eccentric axial loading, shear force and BM diagram, relationship among load,
shear and BM, shear stresses in beams, strain energy in bending, deflection of
beams, equation of elastic curve, Macaulay’s method and Area moment method for
deflection of beams.
Torsion in shafts: Tensional
stresses in a shafts, deformation in circular shaft, angle of twist, stepped
and hollow transmission shafts .
Theories of failures: maximum
normal stress & shear stress theory; maximum normal and shear strain energy
theory; maximum distortion energy theory; application of theories to different
materials and loading conditions . Columns & struts: stability of
structures, Euler’s formula for columns with different end conditions,
Rankine’s formula.
OUTCOMES :
At the completion of this
course, students should be able to
1. Know the concepts of stress and strain.
2. Analyze the beam of different cross sections for shear
force, bending moment, slope and deflection.
3. Understand the concepts necessary to design the
structural elements and pressure vessels.
EVALUATION
Evaluation will be continuous
an integral part of the class as well through external assessment.
REFERENCES:
Beer FP, Johnson Mechanics of
Materials ,Sixth Edition ;Mc Graw Hills Debabrata Nag & Abhijet Chanda
:Strength of Materials : Wiley Rattan; Strength of materials;Second Edition ,
Mc Graw Hills
Nash William; Schaum’s Outline
Series; forth Edition Strength of Materials;Mc Graw Hills Singh Arbind K;
Mechanics of Solids; PHI
Sadhu Singh; Strength of
Materials; Khanna Pub.
R Subramannian , Strength of
materials OXFORD University Press ,Third Edition . S Ramamurthum , Strength of
materials , Dhanpat Rai
LABORATORY:
1. Standard tensile
test on MS and CI test specimen with the help of UTM
2. Direct/ cross
Shear test on MS and CI specimen
3. Transverse
bending test on wooden beams to obtain modulus of rupture
4. Fatigue test
5. Brinell Hardness
tests
6. Vicker hardness
test
7. Izod/Charpy test
8. Rockwell
Hardness test
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
FT-3004 HEAVY VEHICLES &
AUTOMOBILE ENGINEERING & SAFETY
COURSE OBJECTIVE:
1. To understand the basic concept of Engine classification
and types gear box
2. To understand the basic concept of differential systems
3. To understand the basic concept of Electrical system of
Heavy vehicle.
4. To understand the Lubrication system of heavy vehicle and
safety arrangements in automobiles.
5. To study the Indian Motor Vehicle Act and Safety Systems
in Automobiles.
COURSE CONTENT:
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 carburettors, construction details, Type of Study of diesel fuel feed
systems. Carburation 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, Transfer
of gear box, operation and maintenance of gear box.
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, Hotchkiss
drive, Torque tube drive. 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
Lubrication systems. Types, classification of systems. Lubricants. Cooling
System – Air cooling, components, and working of cooling systems.
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.
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.
Motor Vehicles Act and Safety
Systems
Motor Vehicle Act, Driving
License, Traffic signs & Light Signals, Driving techniques for Special
Situations, Driving in emergency situations, Safety provisions, Active and
Passive Safety Measures, Features for minimum injury during clash, State of the
art Safety systems,
COURSE OUTCOME
1. Graduate will able to find the basic Faults in the
different types of Engines and their operations with Construction of
differential system, axles, brakes, gear box, steering system and lubrication
system.
2. Graduate will able to identify the electrical faults in
vehicle and also will understand the operation and construction of the
electrical systems in fire fighting vehicles with applying its pollution
control techniques.
3. Graduate will able to apply CMV rules regarding safety
devices for drivers, passengers fire fighting vehicles and special type of
appliances.
4. Graduate will able to have basic knowledge of operation
of fire boats and rules and regulation of RTO. With its testing.
EVALUATION
Evaluation will be continuous
an integral part of the class as well through external assessment.
REFERENCES
Wills H. Crouse, Automobile
chassis and body construction, Operation and Maintenance, Tata McGraw Hill 1976
Dr. D.S. Kumar, Automobile
Engineering, S.K. Kataria & Sons 2015 Arther V. Judge, Modern Petrol Engine
1975
A.T. Walford, Ergonomies of
Automation 1989
S.Adhey, Bormh Practical
Automobile Engineering Illustrated, Asia Publishing House, 1983 G.B.S. Narrang,
Automobile Engineering, Khanna Publisher
R.B. Gupta, Automobile
Engineering, Satya Prakashan 2015
R.P. Sharma, A Course in
Automobile”Engineering, Dhanpat Rai & Sons
LABORATORY
1. To
study Electrical System of a Heavy Vehicle.
2. To
Study the Lubrication system of an Automobile
3. To
Study the cooling system of an Automobile
4. To
study the Suspension System of an Automobile.
5. To
study the braking system of an Automobile.
6. To
Study the Transmission system of an Automobile
7. To
Study the Differential and Drive Axles of an Automobile
8. To
study the fuel feed system of a Petrol Engine.
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
FT-3005 TOWN PLANNING &
SAFETY IN CONSTRUCTION
COURSE OBJECTIVE:
1. To understand the basic concept of planning surveys,
Types of roads & types of housing units.
2. Basic concept of Structural soundness, Accident, Hazard
their causes and effect.
3. To understand the basic concept of Safety in construction
operation.
4. To understand the basic concept of Safety in demolition
operation.
5. To perform the safe working at heights with relevant code
of practice.
COURSE CONTENT:
TOWN PLANNING
Principles of Town Planning,
Site for an Ideal Town, Cost of Town Lanning, Surveys, Types of Surveys, Use of
Surveys, Zoning, Principles of Zoning, Advantages & Importance of Zoning,
Housing, Requirements and Classification Residential Buildings, Rural Housing,
Parks and Playgrounds, Classification of Parks, Park Systems and Design,
Industries, Classification and Requirement of Industry, Measures to Control
location of Industry, Industrial Township, Classification of Urban Roads, Types
of Street Systems, Outer and Inner Ring Roads.
BASIC PHILOSOPHY
Building Bye laws for
Residential Area, Cinemas, Theatres, Multiplex, Auditorium etc.,
Drive-in-Cinemas, Gasoline Filling Station, Basic Philosophy and parameters
governing in construction such as site planning and layout, safe access and
good housekeeping, safety in use of construction machinery, structural
soundness, structural safety, accident causes and its effect .
SAFETY IN CONSTRUCTION OPERATIONS
Underground works: -
Excavation, drilling & blasting, trenching, strutting, piling & safety
in using and operation machinery and equipment relating to above components.
Above ground works, Scaffolding, Centering, Frame work, Ladders, Concreting
wall and floor openings, staircases and railings. Structural steel work
including welding, cutting erection, Safety in use of related machinery
equipments, Under water operations, River draining, well sinking, Caissons,
under water concreting, Cofferdams & special operation connected with
irrigation works, Use of related machinery and equipments, Movement of
Materials & personnel, Heavy/Long items, Railway wagons, Motor trucks,
Vehicles and Hazardous materials, High rise building, bridges, roads, railways,
asphalting, pneumatic caissons, electrical, installations & lifts, safety
in prevention and protection at work site including collapsing of structures.
SAFETY IN DEMOLITION OPERATIONS
Planning & permit,
Precautions prior to demolition, Protection of public, Precautions during
demolition. Sequence of demolition operations from safety point of view, Safety
measures with respect to building materials including cement, lime, timber,
steel, glass, paints, varnishes, and petroleum products.
WORKING AT HEIGHT
Fall protection in construction,
OSHA 3146, Requirement for working at height, Work permit system, Height pass,
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)
COURSE OUTCOME
1. Graduate will be able to demonstrate various components
of Town Planning Including planning surveys, topography, water supply &
types of roads
2. Graduate will be able to apply the basics of
architectural aesthetics and layout of housing with site orientation.
3. Graduate will be able to develop the basic philosophy of
Safety in construction operation Including above Ground and Underwater
operations
4. Graduate will be able to develop safety culture towards
Occupational hazard & diseases related to construction industries
5. Graduate will be able to explain n maintain the
importance of Construction worker acts and rule between workers n employers.
EVALUATION
Evaluation will be continuous
an integral part of the class as well through external assessment.
REFERENCES
Accident prevention manual for
Industrial operations, NSC, Chicago, 1982.
Fulman, J.B., Construction
Safety, Security & Loss Prevention, John Wiley and Sons, 1979.
The Building and other
construction workers (Regulation of Employment & conditions of service)Act
1996 and central rules 1998.
P.S. Rangwala, Town Planning,
Charotar Publishing Housing Pvt. Ltd., 2008
RAJIV GANDHI PROUDYOGIKI
VISHWAVIDYALAYA, BHOPAL
Credit Based Grading System
Fire Technology & Safety
Engineering, III-Semester
FT-3006 Field Training in
Rescue Operations
COURSE OBJECTIVE:
1. To understand the Aim, Principle & Instruction Method
of Squad Drill.
2. To perform the position of Attention, Stand at Ease,
Stand Easy, Sizing, Right dress, Dismiss, Step forward/backward March and Side
step.
3. To understand the tricks of Parade Inspection, how &
whom to salute and perform the position of Saluting.
COURSE CONTENT:
INTRODUCTION:
Aim of drill, The Principle of
good Instructions, Words of command, Timing and Techniques for Instructions.
POSITION:
Attention, Stand at ease, Stand
easy, Turning and Inclining, Dressing, Forming up in Three ranks, Numbering,
Open and Close order March, Sizing.
MARCHING:
Length of pace and time of
marching, Marching in quick time, Elementary instruction, Regular pace, Halt,
Marching in slow time, Position in marching.
CHANGING, BREAKING AND TURNING:
Changing step in slow march,
changing step in quick march, Breaking into slow march, Breaking into quick
march, Turning and Diagonal march in slow time and quick time.
FORMING:
Forming squad on the march in
slow and quick time, Marching of in single file,Reforming in three ranks.
Practice for word of command, Correction of Faults, Inspection and Handling a
Squad, Application of Instruction Techniques, Organizing Instructional Periods.
COURSE OUTCOME
1. Graduate will able to conduct Squad Drill of Fire
Fighting Crew in an Organization.
2. Graduate will able to trained Fire Fighting crew in
different Squad Drills.
EVALUATION
Evaluation will be continuous
an integral part of the class as well through external assessment.
REFERENCES
Drill manual for Fire Services
of India by Govt. of India. Fire Fighters Skill drill manual by NFPA.
LABORATORY
1. To Study the
Aim, Principle, Instruction Method of Drill
2. To perform the
position of Attention, Stand at Ease, Stand Easy, Sizing, Right dress, Dismiss,
Step forward/backward March and Side step.
3. To perform the
position of March and pace, Turning by numbers, Mark Time, The Halt, Marching
in squad, Quick March and The Halt (on the move).
4. To perform the
position of ‘Right (or Left) ---Turn’, Changing direction by wheeling and
Changing steps on the March, Forming File from Single File and Forming Single
File from File.
5. To study the
tricks of Parade Inspection, how & whom to salute and perform the position
of Saluting.
RGPV CBGS 3rd Sem Fire Tech Subject list
RGPV CBGS 3rd Sem Subjects FTSE | Bachelor of Technology B.Tech. (Fire Technology & Safety Engineering) |
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S. NO.
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Subject Code
|
Subject Name
|
1
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BT-3001
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Energy, Environment, Ecology & Society
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2
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FT-3002
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Building Planning & Architecture
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3
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FT-3003
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Strength of Materials
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4
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FT-3004
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Heavy Vehicles & Automobile Engineering & Safety
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5
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FT-3005
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Town Planning & Safety in Construction
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6
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FT-3006
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Field Training in Rescue Operations
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7
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FT-3007
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Rural Outreach (Internal Assessment)
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8
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FT-3008
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NSS/NCC/Social Work (Internal Assessment)
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Download RGPV CBGS 3rd Sem Fire Technology & Safety Engineering Syllabus
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