Domkundwar Thermal Engineering Pdf

[Martin Glow]

The Mechanical and Automobile Engineering Department of CHRIST(Deemed to be University) is well equipped to meet the present day technological advances and industrial requirements matching global standards. The department has state-of-the-art laboratories to enhance practical knowledge and experience real world applications of the industry.

CO1: Perform basic mathematical operation and analysis on biological parameters as BMI, ECG using MATLAB.L4CO2: Perform basic image processing on RGB images pertaining to medical data using MATLABL4CO3: Perform analysis on biological parameters using TinkerCad and design mini projects applicable for healthcare and biosensing.L4

Global Temperature, Greenhouse effect, global energy balance, Global warming potential, International Panel for Climate Change (IPCC) Emission scenarios, Oceans and climate change. Adaptation methods. Green Climate fund. Climate change related planning- small islands and coastal region. Impact on women, children, youths and marginalized communities

CO1: Express the basic concepts of thermodynamics and zeroth law of thermodynamics on thermal systems to device a thermometer [L1, L2, L4] [PO1, PO2, PO4].CO2: Develop relation between heat and work for a given thermal system using first principle. [L1, L3, L4] [PO1, PO2, PO6].CO3: Solve thermal systems using Fist law of thermodynamics and second law of thermodynamics. [L2, L3, L4] [PO1, PO2, PO4].CO4: Estimate entropy for a given system using the concepts of available and unavailable energy. [L2, L4] [PO1, PO3, PO4].CO5: Distinguish between ideal and real gases using thermodynamic relations. [L1, L2, L3] [PO1, PO2, PO4].

Revision of definition and scope. Microscopic and Macroscopic approaches. System closed system and Control Volume open system, Thermodynamic properties;, intensive and extensive properties. Definitions of state, path, process and cycle. Quasi-static process.

Mechanics, definition of work and its limitations. Thermodynamic definition of work; examples, sign convention. PMM-I. Displacement work; expressions for displacement work in various processes through p-v diagrams.

For flow systems, enthalpy, Specific heat Extension of the First law to control volume; steady state steady flow energy equation, important applications, Application of SFEE for different flow systems.

Assumptions in the simple bending theory, derivation of formula: its application to beams of rectangular, circular and channel sections, Composite beams, bending and shear stresses in composite beams.

Derivation of torsion equation and its assumptions. Applications of the equation of the hollow and solid circular shafts, torsional rigidity, Combined torsion. Analysis of close-coiled-helical springs.

CO1: Enumerate the basic steps involved in casting process, their Applications and also describe various types of joining processes and select the appropriate one according to the application. [L1, L2, L3] [PO1, PO2, PO3].CO2: Illustrate the basic principle of working of machine tools viz. Lathe, Milling, Grinding, Drilling machines etc. [L1, L2] [PO1, PO2].CO3: Distinguish the hot working and cold working processes and discuss the various metal forming processes and also elaborate their applications. [L3, L4] [PO1, PO2, PO3, PO4].CO4: Explain the concept of additive manufacturing and list their areas of application. [L1, L3] [PO1, PO2, PO3].CO5: Classify and summarize the unconventional machining processes. [L2, L3] [PO1, PO2, PO3].

Metal cutting: Single and multi-point cutting; Orthogonal cutting, various force components: Chip formation, Tool wear and tool life, Surface finish and integrity, Machinability, Cutting tool materials, Cutting fluids, Coating; Turning, Drilling, Milling and finishing processes, Introduction to CNC machining.

Metal Forming: Introduction to bulk and sheet metal forming, plastic deformation and yield criteria; fundamentals of hot and cold working processes; load estimation for bulk forming(forging, rolling, extrusion, drawing) and sheet forming (shearing, deep drawing, bending) principles of powder metallurgy.

CO1: Interpret the parameters of Transducers. [L3]CO2: Operate & infer the values of Torque measurement equipment. [L3]CO3: Interpret the readings of the Cathode ray oscilloscope. [L3]CO4: Compute the strain from the strain gauge equipment. [L3]CO5: Examine the Line standards by slip gauges.[L3]

Definition, significance of measurement, generalized measurement system, definitions and concept of accuracy, precision, calibration, threshold, sensitivity, hysterisis, repeatability, linearity, loading effect, system response-times delay. Errors in measurement, classification of errors, primary and secondary transducers, electrical, mechanical, electronic transducers, advantages of each type transducers.

Mechanical systems, electronic amplifiers and telemetry. Terminating devices, mechanical, cathode ray oscilloscope, oscillographs, X-Y plotters, Machine tool Metrology, Introduction to atomic force microscopy (AFM), Scanning tunnelling microscopy (STM), Nano metrology

Definition and Objectives of metrology, Standards of length-International prototype meter, Imperial standard yard, Wave length standard, subdivision of standards, line and end standard, calibration of end bars (Numerical), Slip gauges, Wringing phenomena, Legal Metrology, Care of Measuring Instruments- Reliability.

CO2: Ability to sensitively observe and record various aspects of the immediate environment including human relationships, visual language, aesthetic characteristics and space, elements of nature, etc.

CO1: Explain the basic concepts of data structures and solve the time complexity of the algorithm CO2: Experiment with various operations on Linear Data structures CO3: Examine the Structures and Operations of Trees and Heaps Data Structures CO4: Compare various given sorting techniques with respect to time complexityCO5: Choose various shortest path algorithms to determine the minimum spanning path for the given graphs

Course Description: This is offered as a core course in first trimester. This course will provide a general introduction to management principles and theories, and a brief outline on history and development of management thought.

Ancient roots of management theory; Classical schools of management thought; Behavioral School, Quantitative School; Systems Approach, Contingency Approach; Contemporary Management thinkers & their contribution. Ancient Indian Management systems & practices. Comparative study of global management systems & practices. Social responsibility of managers, Managerial Ethics.

CO1: Summarize the working and construction of sensors measuring various physicalparameters.CO2: Design suitable signal conditioning and filter circuits for sensors.CO3: Outline operations of various data acquisition and transmission systems.CO4: Distinguish smart sensors from normal sensors by their operation and construction.CO5: Classify various sensing methods used in condition monitoring.

Introduction to condition monitoring - Non destructive testing (vs) condition
monitoring- Intelligent fault detection- Accelerometers- Acoustic Emission sensors- Thermalimaging cameras- Vibration Signature based monitoring techniques - Acoustic emissionholography - oil Analysis- Ultrasound based Non Destructive Evaluation techniques.

This mandatory course is aimed at providing a comprehensive overview of the different facets of Cyber Security. In addition, the course will detail into specifics of Cyber Security with Cyber Laws both in Global and Indian Legal environments

Cyber Security Management Risk Management and Assessment - Risk Management Process - Threat Determination Process -Risk Assessment - Risk Management Lifecycle.Security Policy Management - Security Policies - Coverage Matrix Business Continuity Planning - DisasterTypes - Disaster Recovery Plan - Business Continuity Planning Process

Vulnerability - Assessment and Tools: Vulnerability Testing - Penetration Testing Black box- white box.Architectural Integration: Security Zones - Devicesviz Routers, Firewalls, DMZ. Configuration Management - Certification and Accreditation for Cyber-Security.

CO1: To communicate in an effective manner in an organization. [L1] [PO1]CO2: To motivate the team members in an organization. [L3] [PO2]CO3: To Study the various motivational theories. [L2] [PO3]CO4: To study the various methods of learning. [L1] [PO2]CO5: To effectively manage the stress and conflicts in an organization.[L1] [P1]

Definition of conflict, functional and dysfunctional conflict, stages of conflict process. Sources of stress, fatigue and its impact on productivity. Job satisfaction, job rotation, enrichment, job enlargement and reengineering work process.

Formation of steam, Phase changes, Properties of steam, Use of Steam Tables, Study of P-V, T-S and Mollier diagram for steam, Dryness fraction and its determination, Study of steam calorimeters (Barrel, Separating, Throttling and combined). Non-flow and Steady flow vapour processes, Change of properties, Work and heat transfer.

Carnot cycle, Rankine cycle, Comparison of Carnot cycle and Rankine cycle, Efficiency of Rankine cycle, Relative efficiency, Effect of superheat, boiler and condenser pressure on performance of Rankine cycle

Operation of a single stage reciprocating compressors. Work input through p-v diagram. Effect of clearance and volumetric efficiency. Adiabatic, isothermal and mechanical efficiencies. Multi-stage compressor, saving in work, optimum intermediate pressure, inter-cooling, minimum work for compression.

Construction and use of psychometric chart. Analysis of various processes; heating, cooling, dehumidifying and humidifying. Adiabatic mixing of stream of moist air. Summer and winter air - conditioning. Problems using charts only.

Atmospheric air and psychometric properties; Dry bulb temperature, wet bulb temperature, dew point temperature; partial pressures, specific and relative humidifies and the relation between the two Enthalpy and adiabatic saturation temperature. Problems without charts only.

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