Applied Engineering Mathematics
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UNIT –III Drives Of Hoisting Gear 9 and and power drives - Traveling gear - Rail traveling mechanism - cantilever and monorail cranes - slewing, jib and luffing gear - cogwheel drive - selecting the motor ratings. UNIT- IV Conveyors 9 Types - description – design and applications of Belt conveyors, apron conveyors and escalators Pneumatic conveyors, Screw conveyors and vibratory conveyors UNIT- V Elevators 9 Bucket elevators: design - loading and bucket arrangements - Cage elevators - shaftway, guides, counter weights, hoisting machine, safety devices - Design of form lift trucks. TOTAL : 45 periods REFERENCES
2. A. O. Spivakovsy and V. K. Dyachkov, “Conveying Machines”, Volumes I and II, MIR Publishers, 1985. 3. M. Alexandrov, M., Materials Handling Equipments, MIR PUblishers, 1981. 4.A. Boltzharol, “Materials Handling Handbook”, The Ronald Press Company, 1958. PCCA16 RELIABILITY ENGINEERING L T P C 3 0 0 3 UNIT -I Reliability Concept 9 Reliability function - failure rate - Mean Time Between Failures (MTBF) - Mean Time to Failure (MTTF) - a priori and a posteriori concept - mortality curve - useful life availability - maintainability - system effectiveness. UNIT- II Reliability Data Analysis 9 Time-to-failure distributions - Exponential, normal, Gamma, Weibull, ranking of data - probability plotting techniques - Hazard plotting UNIT –III Reliability Prediction Models 9 Series and parallel systems - RBD approach - Standby systems - m/n configuration - Application of Baye's theorem - cut and tie set method - Markov analysis - FTA - Limitations. UNIT –IV Reliability Management 9 Reliability testing - Reliability growth monitoring - Non parametric methods - Reliability and life cycle costs - Reliability allocation - Replacement model UNIT- V Risk Assessment 9 Definition and measurement of risk - risk analysis techniques - risk reduction resources - industrial safety and risk assesment. TOTAL : 45 periods REFERENCES
C.O. Smith" Introduction to Reliability in Design ", McGraw Hill, London, 1976. PCCA17 DATA COMMUNICATION IN CAD/CAM L T P C 3 0 0 3 UNIT-I Digital Computers And Microprocessors 9 Digital computer-block diagram-digital components-register transfer and micro operations-instruction code-training and control instruction cycle-I/O Interrupt design of basic computer. Machine language-assembly language-the assembler. Registers ALU and Bus systems-timing and control-machine cycle and timing diagram. History of microprocessors -block diagram of 8086 and its functions and operation. Features of Pentium Processors UNIT- II Operating Systems And Environments 9 Operating systems-types-functions-UNIX & WINDOWS NT-Architecture-GUI. Compliers-Analysis of the source program-the phases of a complier-cousin of the complier, the grouping of phases-complier construction tools. UNIT- III Communication Model 9 Overview of Data communication and Networking-Analog / Digital signals and transmission-protocols and architecture-data communication concepts and terminology-network topologies and transmission media-wireless transmission-data encoding-asynchronous and synchronous communication-Physical layer standards-RS 232C, RS 449, RS442A. UNIT –IV Computer Networks 9 Evolution of computer networks-LAN and WAN Layered networks-architecture-the OSI reference model services-network standardization-case studies-managing remote systems in network-file systems-networking in manufacturing. UNIT- V Internet 9 Internet-basic concepts-internet services-protocols-intranet services-mail based services-system and network requirements-internet tools-Usenet-E-mail-IRC-www-FTP-Telnet TOTAL : 45 periods REFERENCES 1.R.S. Goankar, “Microprocessor Architecture, Programming and Applications of 8085’, Penram International, 1997. 2.M. Morris Mano, “Computer System Architecture’, Prentice Hall of India, 1996. Alfred V. Aho, Ravi Sethji, Jeffrey D Ullman, “Compliers Principles Techniques and Tools”, Addison 3.Welley, 1986. 4.J.L. Peterson, P. Galvin and A. Silberschaz, “Operating Systems Concepts “,Addison Welley, 1997. 5.William Stallings, “Data of Computer Communications” Prentice Hall of India, 1997. 6.Andrew S. Tanenbanum “Computer Networks”, Prentice Hall of India 3rd Edition, 1996. 7. Christian Crumlish, “The ABC’s of the Internet’, BPB Publication, 1996. PCCA18 INDUSTRIAL SAFETY MANAGEMENT L T P C 3 0 0 3 UNIT –I Safety Management 9 Evaluation of modern safety concepts - Safety management functions - safety organization, safety department - safety committee, safety audit - performance measurements and motivation - employee participation in safety - safety and productivity. UNIT- II Operational Safety 9 Hot-metal Operation - Boiler, pressure vessels - heat treatment shop - gas furnace operation-electroplating-hot bending pipes - Safety in welding and cutting. Cold-metal Operation - Safety in Machine shop - Cold bending and chamfering of pipes - metal cutting - shot blasting, grinding, painting - power press and other machines. UNIT- III Safety Measures 9 Layout design and material handling - Use of electricity - Management of toxic gases and chemicals – Industrial fires and prevention - Road safety - highway and urban safety - Safety of sewage disposal – Control of environmental pollution - Managing emergencies in Industries - planning, security and risk assessments - onsite and offsite, control of major industrial hazards. UNIT –IV Accident Prevention 9 Human side of safety - personal protecive equipment - Causes and cost of accidents. Accident prevention programmes - Specific hazard control strategies - HAZOP - Training and development of employees - First Aid- Fire fighting devices - Accident reporting, investigation UNIT- V Safety, Health, Welfare & Laws 9 Safety and health standards - Industrial hygiene - occupational diseases prevention - Welfare facilities - History of legislations related to safety-pressure vessel act-Indian boiler act - Environmental protection act – Electricity act - Explosive act. TOTAL : 45 periods REFERENCES
PCCA19 MANUFACTURING SYSTEM AND SIMULATION L T P C 3 0 0 3 UNIT- I Computer Modeling And Simulation System 9 Introduction to simulation- steps in simulation-nature of computer modeling and simulation- types of models- Monte Carlo simulation, limitation of simulation, areas of application, examples. Components of a system- discrete and continuous systems- Examples, Model of a system-variety of modeling approaches. UNIT- II Random Number Generation 9 Properties of random numbers, Random number generation techniques-the mid product method- constant multiplier technique- additive congruential method- linear congruential method, Test for random numbers- frequency tests- test for autocorrelation. UNIT- III Random Variable Generation 9 Random variable generation –inverse transform technique- exponential distribution – uniform distribution- Weibull distribution- triangular distribution. Empirical continuous distribution- generating approximate normal variates- Erlang distribution. UNIT- IV Distribution And Evaluation Of Experiments 9 Discrete uniform distribution- Poisson distribution- geometric distribution- acceptance and rejection technique for poisson , gamma distribution. Variance reduction techniques- antithetic variables- Validation of simulation models- Verification of simulation models. UNIT- V Discrete Event Simulation 9 Concepts in discrete-event simulation- manual simulation using event scheduling, simulation of queuing system, simulation of inventory systems. Simulation of manufacturing and material handling systems. Introduction to Simulation packages – simulation using spreadsheet, SimQuick, WITNESS, ARENA, GPSS. Programming for discrete event systems in GPSS- case studies. TOTAL : 45 periods REFERENCES 1.Jerry Banks, John S. Carson II and Barry L. Nelson. “Discrete- Event System Simulation”. Prentice hall Inc.1984. 2.G. Gordon, “ System Simulation” Prentice hall Inc.1991. 3.Francis Neelamkovil, “Computer Simulation and Modeling.” John wiley & Sons, 1987. 4.Narsing Deo, “ System Simulation with Digital Computer.’ Prentice hall of India, 1979. 5.Ruth M. Davis and Robert M.O’ keefe, “ Simulation Modeling with Pascal.” Prentice hall inc, 1989. PCCA20 PERFORMANCE MODELING AND ANALYSIS OF MANUFACTURING SYSTEMS L T P C 3 0 0 3 UNIT- I Manufacturing Systems And Simulation 9 Modeling automated manufacturing systems- role of performance modeling-performance measures- performance modeling tools- Simulation models- Analytical models. Automated manufacturing systems- introduction- product cycle-manufacturing automation- Economics of scale and scope. Manufacturing system- input-output model- plant configurations. Performance measures- manufacturing lead time- work in process-machine utilization- throughput- capacity- flexibility- performability- quality. Computer control system- control system architecture- factory communications- local area networks- factory networks- open system interconnection model- net work to network interconnections- manufacturing automation protocol- data base management system. UNIT- II Manufacturing Process 9 Examples of Stochastic processes- Poison process, Discrete time Markov Chain models- Definitions and notation- Sojourn Times in States- Examples of DTMCs in manufacturing- Chapman-Kolmogorov equation- Steady state analysis. Continuous Time Markov chain models- Definition and notation-Sojourn times in states- Examples of CTMCs in manufacturing- Equation for CTMC evolution- Markov model of a transfer line- Birth and Death Process in manufacturing. UNIT- III Queuing Models 9 Notation for queues- Examples of queues in manufacturing-Performance measures-the M/M/m queue- queues with general distributions- queues with breakdowns- Analysis of a flexible machining center UNIT- IV Queuing Networks 9 Examples of queuing network models in manufacturing- Little’s Law in queuing networks- Open queuing network- closed queuing networks- Product form queuing networks. UNIT –V Petri Nets 9 Classical Petri nets- Stochastic Petri net- Generalized stochastic Petri nets modeling of KANBAN system- Manufacturing models. TOTAL : 45 periods REFERENCES
PCCA21 ADVANCED VIBRATION ENGINEERING L T P C 3 0 0 3 UNIT -I Single And Two Degrees Of Freedom System 9 Introduction to free, forced, transient and damped vibrations, terminology and applications. Discrete systems – single degree and two degree systems, response to free forced motions (steady state and transient) applications to vibration isolation and absorption. |
