pipeline engineering code pe 301 rationale course …
TRANSCRIPT
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Petroleum Engineering Annual Scheme
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PIPELINE ENGINEERING
CODE PE 301
L T P
2 2 -
RATIONALE
The course contains detailed knowledge flow through pipes,Material and construction of
Pipelines. Corrosion and Protection of Corrosion.
COURSE OUTCOME
On completion of this module students should be able to demonstrate knowledge and
understanding of:
1. Objective and Scope of Pipeline as a means of Fluid flow..
2. Design the pipe line
3. Differentiate between Oil and Gas pipe line.
4. The Corrosion and Protection of pipes from corrosion
CONTENTS
L
1. Objective and scope of pipeline: 15
1.1 Pipe as a means of fluid transportationwith special reference to crude
oil/gas/refined products.
1.2 Design of Pipeline: Factors influencing oil, gas and refined products as
pipeline design
2. Hydraulic surge and water hammer 12
2.1 specific heat of liquids;
river crossing; pipe size and station spacing etc.
3. Theory and different formulae of the flow of fluids 12 3.1 Oil/gas pipelines; basic equations for the flow of fluids through pipes
3.2 different flow equations for laminar and turbulent flow of
compressible and incompressible fluids. 3.3 Introduction to the flow of Non- newtonian fluids through pipes;
multiphase flow and loop pipelines.
4. Construction of pipelines:
4.1 Material project specifications
4.2 General equipment specifications (Pipes, valves and fittings);
4.3 Installation of expansion loops and thermodymetric tapping plant.
5. Pigging: 10
5.1 Pigging technology, pig launcher and receiver, intelligent pigging, types of
pigs
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6. Offshore Pipelin: 6
6.1 Design and control of Sag and Over bend
6.2 Description of stinger and riser, articulated stinger
6.3 Construction of offshore pipeline; method of underwater welding
7. Corrosion: 5
7.1 Protection and control; design of cathodic protection:
7.2 Pipeline automation. City distribution network of oil/gas.
7.3 Lease and custody transfer
REFERENCE BOOKS
1. Pipline and Risers : Young Boi ,Elsevier Ocean Engineering Book series 2001Volume 3
2. Pipe Line Corrosion, Cathodic Protection: Parker M E and Peattie E G , Elsevier USA
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NATURAL GAS ENGINEERING
CODE PE 302
L T P
2 1 -
RATIONALE
This course will take a comprehensive look at several aspects of gas reservoir engineering.
The course covers the fundamental, intermediate, or advanced gas reservoir engineering
aspect. This course includes various techniques, including basic gas reservoir engineering,
properties of natural gas, material balance, and gas reserve determination.
COURSE OUTCOME
After completion of this course, the students will be able to :
1. Understand the basic concept and applications of Natural Gas Engineering.
2. understand the Natural gas processing, Gas Compression, Gas
3. Analyse Gathering and Transport Installation.
4. Operation and trouble shooting of natural gas pipelines.
5. Understand the Current Technology for Shale Gas and Tight Gas Exploration and
Production .
6. Understand various treatment process of natural gas like : sweetening.
CONTENTS
L
1. Introduction : 10
1.1 Composition of Natural Gas
1.2 Utilization of Natural Gas, Natural Gas Industry
1.3 Natural Gas Reserves, Types of Natural Gas Resources
1.4 Future of the Natural Gas Industry
2. Properties of Natural Gas : 6
2.1 Physical properties of natural gas and hydrocarbon liquids associated with
natural gas
2.1 Reservoir aspects of natural gas
3. Gas Compression : 8
3.1 Types of Compressors, Selection
3.2 Thermodynamics of Compressors, Compression calculations
3.3 Heat and Mass Transfer Principles and Applications in Natural Gas
Engineering
4. Gas Flow Measurement : 4
4.1 Process control and instrumentation in natural gas processing plants.
5. Natural Gas Processing : 12
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5.1 Field separation and oil absorption process
5.2 Refrigeration and low temperature processing
5.3 Liquefaction Process, Dehydration of Natural Gas
5.4 Sweetening of Natural gas and sulphur recovery
5.5 Processing for LPG, CNG, system, Conversion of gas to liquid.
6. Gas Gathering, Transport and Storage : 10
6.1 Gas Gathering System. Steady Flow in Simple Pipeline System
6.2 Steady State and non Steady State Flow in Pipelines
6.3 Solution for Transient Flow
6.4 Transmission of Natural Gas, Specifications. Underground Storage and
Conservation of Natural Gas
REFERENCE BOOKS
1. Standard Handbook of Petroleum and Natural Gas Engineering. 2nd Edition.
William C Lyons, Gary C Plisga. Gulf Professional Publishing
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PETROLEUM TRANSPORTATIONAND STORAGE SYSTEM
CODE PE 303 L T P
2 2 --
RATIONALE
This course brings together the entire spectrum of hydraulics, design, and operating
requirements for pipeline transportation and storage of hydrocarbon liquids, the essence of
our energy supply. The courses will cover the basics of fluid hydraulics, transportation of oil
by tankers and pipeline, pipeline transportation of natural gas, measurement of hydrocarbon
at fields, storage and terminal designs for hydrocarbons and various pipeline operations.
COURSE OUTCOME
After completion of this course, the students will be able to :
1. Understand the fundamental concepts of transportation equipment and machinery
design.
2. Aware of different equipment and machineries used in petroleum industry.
3. Analyse and understand the working of different pumps and rotary devices.
4. Familiarise with design of PRESSURE VESSEL, flanges, nozzles
5. Analyse and trouble shoot the infield situations of rotary devices.
CONTENTS
L
1. FUNDAMENTALS OF DESIGN 12
1.1 Steps in design activity. Selection of material
1.2 Theories of failure. Stress concentration and factor of safety
1.3 Creativity in design activity
1.4 Use of standards and codes in design activity. design of shaft, keys and
coupling
2. DESIGN OF MECHANICAL DRIVE COMPONENTS APPLIED TO
PETROLEUM EQUIPMENTS
14
2.1 Design of belt drives, Types of pulleys
2.2 Design of pulleys (crown & travelling block) Wire ropesadvantages
2.3 construction, classification, factor of safety (wire rope sheaves drums),
2.4 stresses in wire ropes
2.5 Classification of chains, power transmitting chains, power calculations
2.6 Design consideration for chain and gear drives, Bevel gears. (Rotary system)
3. PUMPS & COMPRESSOR 16
3.1 Selection of pumps and valves
3.2 Specification of pumps, valves, performance curve
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3.3 System pump interaction, two pumps in parallel & series ( flow sheet)
3.4 compressors
` 3.4.1 Reciprocating,rotary
3.4.2 Centrifugal
3.4.3 Reciprocating cylinder sizing
3.4.4 Cooling & lubricating system
4. PRESSURE VESSEL : 10
4.1 Types of shell and head
4.2 Types of sealing materials and gaskets
4.3 Flanges and Nozzles
4.4 Classification of Pressure Vessels
4.5 Thickness calculations of Pressure Vessel Components i.e Shell and head
4.6 Pressure vessels Support
5. STORAGE SYSTEM : 8
5.1 Storage of hydrocarbon fluids
5.2 Introduction to oil and gas storage facility
5.3 Types of storage tank
5.4 Fixed roof cylindrical storage tank.
REFERENCE BOOKS
1. Surface Production Operations volume -I, Design of Oil Handling Systems and Facilities;
Gulf Publishing Company, Houston, Texas. Arnold Ken and
Stewart Maurice
2. Design of Machine Elements; Tata McGraw Hill. Bhandari V. B.
3. Process Equipment Design; MacMillan Joshi M. V.
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DRILLING TECHNOLOGY-II CODE PE 304
L T P
2 2 --
RATIONALE
The aim drilling technology subject is to provide the knowledge of to develop an
awareness of the equipment terminology and operations associated with the drilling
process in surface mines. It updates the students about the Classification of
drillingmethods,Principle of rock tool interaction in drilling.
COURSE OUTCOME
After completion of this course, the students will be able to:
1. Understand the concepts and techniques used in well drilling.
2. They will learn the design requirements of well planning and construction .
3. Learn Drilling Process and Drilling Equipments.
4. Optimize the design of a drilling program.
5. Understand and analyse impact of drilling and production discharge.
6. Understand and apply problems related to drilling and well planning.
CONTENTS
L
1. Directional Drilling : 10
1.1 Objectives
1.2 Types of deflection tools
1.3 Tool Orientation
1.4 Directional Well Profiles
1.5 Well path deflection & correction
2. Down Hole Motors :
2.1 Positive displacement motors
2.2 Turbo-drills – motor description
2.3 Power calculation and applications
2.4 Auto Track System
2.5 Rotatary Steerable motors
2.6 Geo Steering Tools
3. Horizontal Well Drilling : Horizontal well objectives and selection
3.1 Different profiles
3.2 Drilling techniques
3.3 Mud requirements & characteristics
3.4 Casing and drill string requirements and completion programs
3.5 Slant Hole Drilling
3.5.1 Objectives and selections
3.5.2 Well profiles and applications.
4. Down the Hole Well Surveying :
4.1 Well surveying objectives
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4.2 Surveying methods
4.3 Surveying Analysis methods
4.4 Calculations for well coordinates
5. Measurements While Drilling :
5.1 Objectives of MWD/ LWD, MWD tools
5.2 Telemetry system and data interpretation
5.3 Directional Drilling
5.4 Problems and their Remedies
6. Special Methods of Drilling :
6.1 Aerated drilling
6.2 Under-balanced drilling
6.3 Overbalanced drilling
6.4 HPHT Drilling
6.5 Variable pressure regime
6.6 Plasma drilling
6.7 Electrical Drilling
6.8 Top drive drilling
6.9 Re-entry drilling
6.10 Jet Drilling
6.11 Extended reach drilling
6.12 Multilateral drilling
6.13 Slim hole drilling
6.14 Coil tubing drilling
REFERENCE BOOKS
1. “Drilling & Casing Operations, Jim Short, J.A., Penwell Publishing Company Oklahoma
2. Well Design Drilling & Production, Craft B.C., Prentice Hall 1962
3. Horizontal and Directional Drilling, Carden, R. S., Petroskills, 2007
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PETROLEUM PRODUCTION OPERATION –II
CODE PE 305 L T P
2 -- 2
RATIONALE
The aim of the course is to introduce the student to the design, analysis,
reengineering, optimisation and functional control of Manufacturing and Service operations,
and to highlight the need for effective management of the constrained resources of operations
systems. Through the course, the student will understand the organizational structure and the
various components and functions of a Production or Service Operations System. They will
practice basic analysis and problem-solving methods that are used by all kinds of
organizations to understand and optimize operations.
COURSE OUTCOME
After completion of this course, the students will be able to:
1. Demonstrate working principle and design of separators
2. Illustrate various equipment and processes for the treatment on produced emulsion
3. Understand mechanism and factors of oil field corrosion and methods for prevention.
4. Understand and apply production logging operations.
5. Do problem well analysis and apply new techniques to sustain production rates
6. Comprehend emerging and peripheral technologies for lifelong learning.
CONTENTS
L
1. Gathering and collection of oil and gas: 6
1.1 GGS, CTF and GCS - layout, sequential treatment
1.2 safety features on installations
2. Field Processing of Oil & Gas: 18
2.1 Flash and stage separation of oil & gas
2.2 oil & gas separators, mist extractor
2.3 fluid level and pressure control system, Control valve sizing
2.4 Vertical and horizontal separators, metering separators3
2.5 Working pressure and safety feature in oil & gas separators
2.6 Special problems in oil and gas separation
2.7 Removal of suspended solid & water from oil & gas
2.8 Scrubbers and wash tank
2.9 Demulsification and desalting
3. Storage of Petroleum and Petroleum Products: 14
3.1 Different types of storage system, Types & features of storage tanks
3.1.1 fixed roof and floating roof tanks
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3.2 Design of storage tanks with introduction to API codes, Specification
3.3 maintenance and operation of tank batteries
3.4 Vapour control and gravity conservation measures
3.5 Vapour recovery system. LPG & LNG storage
4. Metering and Measurements: 10
4.1 Metering of oil & gas, Sampling and Testing of crude oil
4.2 Gauging equipment and methods.
4.3 Water and sediment determination.
4.4 Orifice and other metering devices and their characteristics
5. Well Stimulation Techniques 12
5.1 Design & Selection: Type & description, design of matrix acidization and acid
fracturing
5.2 Design of hydraulic fracturing (mini, massive & high energy frac.)
PRACTICALS
1. Measurement of fire point- Flash point
2. Measurement of Cloud point
3. Measurement of pour point.
4. Measurement of Aniline point & Bromine number
5. Measurement of Reid Vapour Pressure
6. Measurement of Sulphur Content
7. Measurement of Carbon Residue.
8. Distillation of Petroleum and Petroleum products.
9. Measurement of surface tension by Tensiometer.
REFERENCE BOOKS
1. “Gas Production Engineering” S.Kumar-Gulf publishing Co., - 1987.
2. ”Principles of well Produciton”-2nd Edition.
Mc.Graw hill T.E.W.Nind
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PETROLEUM FORMATION EVALUATION
CODE PE 306 L T P
2 2 --
RATIONALE
Formation evaluation is the application of scientific principles, engineering concepts
and technological innovations in the exploration and prospecting of hydrocarbon resources in
geological formations in an environmentally sustainable and responsible manner. It involves
detailed and systematic data acquisition, gathering, analysis and interpretation both
qualitatively and quantitatively while applying scientific and engineering principles. It is an
ever growing and evolving field of petroleum engineering
COURSE OUTCOME
After completing this course the student will be able to
1. Apply different logging methods for the evaluation of subsurface formations
2. Apply principles of mud logging in the recognition of oil and gas show
3. Apply principles of physics in the recognition and calculation of different parameters
of formations
4. Apply quick look interpretation methods in the evaluation of hydrocarbon recognition
5. Interpret broad depositional environment from log signatures
6. Develop awareness of recent developments in the evaluation of formations.
CONTENTS
L
1. Introduction : 6
1.1 Petrophysical measurements to sub-surface engineering
1.2 Mud logging
1.3 Core
2. Open hole Logs : 12
2.1 Principles, Types of tools, Limitation and Applications
2.1.1 SP and resistivity logs
2.1.2 Radioactive logs
2.1.3 Acoustic logs
3. Cased Hole Logging : 12
3.1 Introduction, type of tools
3.2 principles, limitations and applications
4. Special Type of Logging Tools : 14
4.1 principles, application and limitation : Casing inspection tools
4.2 Formation micro scanner (FMS)
4.3 NMR logging principles, Logging in high-angle wells
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5. Log Interpretation and Analysis Techniques : 16
5.1 Standard log interpretation methods
5.2 Cross-plotting methods: neutron-density, sonic-density and sonic-neutron etc
5.3 Clean sand interpretation
5.4 Concepts of invasion – RXO, Tornado charts
5.5 Shaly sand interpretation
REFERENCE BOOKS
1. Standard Handbook of Petroleum and William C Lyons,
Natural Gas Engineering. 2nd Edition. Gary C Plisga. Gulf Professional Pub.
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HEALTH ,SAFETY AND ENVIRONMENT IN PETROLEUM
INDUSTRY CODE PE 307 L T P
2 1 --
RATIONALE
The aim of this subject isto provide an overview of Safety and Environmental issues
in offshore and petroleum industries and To provide detailed understanding of methods for
resolving key issues in petroleum production and processing. It is also importantto identify
and assess hazards in any stage of operation and to quantify and manage risks and hazards.
COURSE OUTCOME
After completion of this course, the students will be able to:
1. Comprehend different industry hazards and plane safety.
2. Apply different methods of waste disposal and treatment for clean environment.
3. Understand Environmental Impact of various exploration processes.
4. Realise procedure of safety auditing and prepare safety reports.
5. Understand offshore oil spill and oil spill control
6. Apply concepts of risk analysis to develop probabilistic assessment.
7. Understand consequences of accidents.
CONTENTS
L
1. Health Hazards in Petroleum Production Refining and Utilization: 16
1.1 Toxicity, Physiological, Asphyxiation
1.2 Respiratory and Skin effect of Petroleum Hydrocarbons (including mixtures)
1.3 Sour gases (eg Hydrogen sulphide and carbon monoxide etc) with their
thresh-hold limits
2. Safety System: 18
2.1 Hazards analysis, developing a safe process, failure mode analysis
2.2 Safety analysis (API-14C) safety analysis function evaluation chart
(synergic approach)
2.3 Manual & automatic shut down system, blow down systems
2.4 Gas detection system
2.5 Disaster & crisis management
3. Environment: 26 3.1 Environment concepts, impact on eco-system, air, water and soil
3.2 The impact of drilling & production operations on environment
3.3 Environmental transport of petroleum wastes
3.3 Offshore environmental studies, offshore oil spill and oil spill control
3.4 Oil mines regulations and other environmental legislations
3.5 Environmental impact assessment
3.6 Waste treatment methods, waste disposal method, remediation of
contaminated sites
3.7 Air & noise pollution
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REFERENCE BOOKS
1. Environmental Hazards: Assessing Risk and Reducing Disaster. Third Edition.
2001. Routledge Press. Smith, K.
2., The Environment as Hazard, Second Edition. Burton, I, R.W. Kates, &
G.F. White
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UNCONVENTIONAL HYDROCARBON RESOURCES
CODE PE 308 L T P
2 1 --
RATIONALE
The aim of this subject is to provide an overview of unconventional hydrocarbon
resources. The students will be given knowledge of Non conventional Oil, Gas
,Thermodynamics of Coal bed Methane.
COURSE OUTCOME
After completion of this course, the students will be able to:
1.Differentiate the characteristic and use of Oil, Gas Coal etc
2.Understand about the Thermodynamics of coal bed methane.
3. Understand about Non conventional Gas
4 Development and production of non conventional Oil
CONTENTS
L
1. Non Conventional Oil: 1.1 Heavy oil
1.2 Extra heavy oil and Bituminous
1.3 Oil Shales
1.4 Geology of Non Conventional Oil
1.5 Origin and Occurrence Worldwide.
1.6 Reservoir rock and Fluid properties
1.7 Exploration and Evaluation
2. Non conventional Gas: 2.1 Introduction to shale gas and basin centred gas
2.2 Coal bed methane
2.3 Tight Reservoirs
2.4 Formation and properties of coal bed methane.
3. Thermodynamics of coal bed methane.
3.1 Introduction
3.2 Importanceof shale gas
3.3 Shale gas geology
3.4 Important occurrences in India,
3.5 Properties of shale gas
3.6 Petro physical properties.
3.7 Introduction and present status of gas hydrates
3.8 Formation andproperties of gas hydrates
4. Coal and Gas conversions to oil:
4.1 Introduction
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4.2 Classification andprinciples
4.3 Pyrolysis
4.4 Theoretical aspect of processes involved inconversion
5. Coal Gasification :
5.1 Technological development of direct conversion
5.2 Indirect processes and sustainability of conversions
5.3 Coalgasification and liquefaction
5.4 Fisher Tropsch synthesis. 10
6. Development and Production of Non conventional oil: 6.1 Shale oil,
6.2 Heavy oil
7. Non conventional oil production, thermal and non thermal methods of oil
recovery: 6.1 Shale oil,
6.2 Heavy oil
8. Development and Production of Non conventional gas:
8.1 Nature of CBM reservoirs
8.2 Hydro-fracturing of coal seam
8.3 Well operation and
8.4 Production equipment
8.5 Treating and disposing produced water.
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UNIT OPERATIONS FOR PETROLEUM INDUSTRY
CODE PE 309 L T P
2 2 -
RATIONALE
The purpose of this subject is to present a brief overview of chemical engineer subjects such
as hydraulics, mass transfer ,heat transfer and mechanical operations. Introduction to
important unit operations and their applications in petroleum engineering is essential in
petrochemical and various product based industries
COURSE OUTCOME
On completion of this course, the students would have knowledge on
1. General introduction to heat transfer : modes ,.principals, heat exchangers and
different types of heat transfer equipments.
2. Fluid properties, their characteristics while static and during flow through ducts, pipes
and porous medium
3. Design absorber and stripper, distillation column, extraction equipments and absorber.
4. Operations involving particulate solid such as filtration, sedimentation, settling.
5. Applications of unit operation in petroleum and petro-chemical industries.
CONTENTS L
1. INTRODUCTION 10
1.1 Introduction to unit operations
1.2 Application in petroleum engineering
2. HYDRAULICS15
2.1 Fluid mechanics
2.1.1 Fluid statics- hydrostatic equilibrium, decantation-gravity and
centrifugal
2.1.2 Fluid flow regimes-laminar and turbulent, fluid rheology
2.2 Basic flow equation through pipes
2.2.1 Bernoulli’s equation
2.2.2 Momentum equation with their correction for friction
2.3 Flow of Newtonian and non Newtonian fluid through pipe
2.4 Brief description on varieties of pumps and flow-meters
2.5 Agitation and mixing of fluids-purpose and equipments
3. MASS TRANSFER15
3.1 Mass Transfer and its application
3.1.1 Introduction to phase equilibrium
3.1.2 Basic concept of diffusion and interphase mass transfer
3.2 Mass Transfer Operations
3.2.1 Distillation; absorption;
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3.2.2 Liquid-liquid extraction, adsorption
3.3 Introduction to stage and continuous contact mass transfer units
3.3.1 Plate column
3.3.2 Packed bed
3.3.3 Fluidized bed
4. HEAT TRANSFER 12
4.1 Heat transfer and its application
4.1.1 Various modes of heat transfer,
4.1.2 Principle of heat flow through solid and fluids
4.2 Concept of steady and unsteady state heat transfer
4.2.1 Determination of overall heat transfer coefficient for composite
system
4.3 Heat transfer to fluid with and without phase change
4.4 Evaporation
4.5 Brief description on various heat exchangers
5. MECHANICAL OPERATIONS 8
5.1 Operations involving particulate solid
5.1.1 Introduction to filtration
5.1.2 Sedimentation
5.1.3 Settling
REFERENCE BOOKS
1. Mass Transfer Operation Treybel
2. Heat Transfer Kern. D.Q.
3. Fluid Mechanics & Machines Dr. Jagdish Lal
4. Fluid Mechanics & Machines Dr. R.K.Bansal
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MANAGEMENT & ENTREPRENEURSHIP
CODE PE 310 L T P
Common to all branches except CC/CE/CS/EE/ IT/MA/MR 2 1 --
RATIONALE
To achieve the target and goals in an organisation it is essential to co-ordinate
the entire system. For this purpose the knowledge of principles of management, human
resources development, material management and financial management is required.
Entrepreneurship will introduce the students about how to set up a small-scale
industry. The subject includes the procedure for how to select, proceed and start the SSI,
which also involves a concrete market survey report and project formulation.
CONTENTS
1. Principles of Management :
1.1 Management, administration and organisation, difference between them.
1.2 Scientific management : Meaning, characteristics, object and advantage :
Taylor's scientific management – Fayol’s principles of management, functions
of management
1.3 Types of ownership, sole trading, partnership, joint stock, co-operative and
public enterprise
1.4 Types of organisation, different types and their charts.
1.5 Importance of human relation professional ethics
1.6 Need for leadership, leadership qualities
1.7 Motivation
2. Human Resources Development :
2.1 Introduction, object and functions of human resource development department
2.2 Recruitment, sources and methods of selection, need for effective training,
method of training, duties of supervisor / Formen, Role of HRD in industries.
3. Wages and Incentives :
3.1 Definition and requirements of a good wage system methods of wage payment
3.2 Wage incentives - type of incentive, difference in wage incentive and bonus.
incentive to supervisor.
4. Material Management :
4.1 Purchasing Functions and duties of purchase department organisation of
purchase department, methods of purchasing, purchase order contracts,
legality of contracts types of contracts i.e. piece work contract, lumpsum
contract, item rate contract, percentage contract, merits and limitation of each
contract system, departmental execution of works, rate contract - D.G.S & D
and C.S.P.O. tender, necessity, types of tenders, tendering procedure, earnest
money and security money
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4.2 Store and store keeping : Functions and duties of store department, location
and layout of store, bin cards, store ledger, receipt and issue procedure of
materials, physical verification of stores, disposal method of unserviceable
articles and protection of stores.
4.3 Sales : function and duties of sales department sales promotion advertisement
service after sales.
5. Financial Management :
5.1 Function and duties of finance department
5.2 Brief idea of journal, ledger, trial balance, trading account, profit and loss
account, balance sheet.
5.3 Cheques (crossed and bearer ), draft, promissory note, letter of credit, brief
idea of cost accounting.
5.4 Numerical problems.
6. Marketing Management :
6.1 Concept of Marketing
6.2 Problems of Marketing
6.3 Pricing policy
6.4 Distribution channels and methods of marketing
7. Entrepreneurship :
7.1 Entrepreneurship and Entrepreneur
7.2 Need of Employment and Opportunities.
7.3 Essential Characteristics of a good Entrepreneur
7.4 Industrial Policy.
7.5 Classification of industries- Tiny, small scale , Medium scale, Large scale,
Handicraft, Ancillary
7.6 Type of industries- Production, Job based & Service
8. Entrepreneurial Development :
8.1 Product identification/ selection
8.2 Site selection
8.3 Plant layout
8.4 Institutional support needed
8.5 Pre-market survey
9. Entrepreneurship Support System:
9.1 Role of District Industries Centre in setting up industry
9.2 Function of NSIC, SISI, NISIET, NRDC, SSIC, SIDO, NMTC, KVIC,
RSMML.
9.3 Role of state finance corporation, state electricity corporations, pollution
control board, BIS, I.S.O. etc.
10. Setting up SSI :
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10.1 Registration of SSI
10.2 Allotment of land by RIICO
10.3 Preparation of project report
10.4 Structure of organisation
10.5 Building construction
10.6 Establishment of machines
11. Tax System and Insurance :
11.1 Idea of income tax, sales tax, excise duty and custom duty
11.2 Industrial and fire insurance, procedure for industrial insurance.
12. Financial Sources for SSI :
12.1 Various institutions providing loans for industries
12.2 Various types of loans
12.3 Subsidies
13. Labour Legislation and Pollution Control Acts :
13.1 Industrial acts : factory act 1948
13.2 Workmen's compensation act 1923
13.3 Apprentices act 1961
13.4 Water pollution contract act 1974 and 1981
13.5 Air pollution contract act 1981
13.6 Environmental protection act 1986
13.7 Forest (animal conservation act 1972)
13.8 Pollution control provisions in motor vehicle act.
14. Project Report :
14.1 Procedure of preparing a project report
14.2 Format of project report
14.3 Preparation of project report for some SSI items
15. ISO : 9000 Series of Quality System :
15.1 Definition of few important terms related to ISO quality system
15.2 Various models for quality assurance in ISO : 9000 series
15.3 Various elements of ISO : 9001 model (20 points)
15.4 Benefits by becoming an ISO : 9000 company
15.5 Introduction to total quality management (TQM)
REFERENCE BOOKS
1. Industrial Management V.K. Sharma & O.P. Harkut
2. Industrial Engg. & Management O.P. Khanana
3. Industrial Engg. & Management T.R. Banga
4. Hand Book of Small Scale Industry P.M. Bhandari
5. Hand Book on Entrepreneurship Development O.P. Harkut
6. Entrepreneurial Development S.S. Khanka
7. Statistical Quality Control Mahohar Mahajan
8. ISO : 9000 Quality System S. Dalela *****