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MEEM 101 - Applied Mathematics & Computational Methods

Unit 1Fourier & Laplace Transform, Elementary Properties and application in B.V.P., FiniteElements methods. Complex & Vector analysis, Matrices.

Unit 2Axiomatic Approach to Probability, Random or stochastic Variate, MathematicalExpectations. Elementary idea about probability distribution.Sampling Distribution and confidence interval, time series, testing of hypothesis inanalysis of invariance, Chi- Square Test.

Unit 3Error Analysis, Principles of flow charts, Program Testing, Difference Operator,Testing of wrong and missing Data using different Techniques.

Unit 4Linear Programming, Feasible Solutions, Solutions, Simplex and Revised SimplexMethods, Duality.

Unit 5Difference equation, Solving Simultaneous equations using numerical methods,Solving B. V. Problems using difference techniques. Optimization techniques.

References:

1. Statistics; Reliability & Decision Making for Engineers by Dr. Pran Nath-- TaraPrinting Works.

2. Mathematical Models in Biology & Medicines, by J.N. Kapur--Affiliated East West Press..

3. Numerical Methods for Scientific and Engineering Computation, by M.K.Jain;4. S.R.K. Iyenger; R.K.JainWiley Eastern Limited

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MEEM 102 Power Generation, Transmission & Distribution

Electrical Energy Generation, concepts, various types of generating stations and theirlocations. Study of Thermal, Hydel, Nuclear and Non Conventional energy generationschemes. Block diagram of various power stations- schemes and sub systems.

Steam Power Plants: Types of power plants, steam power plant: Design Operation &Thermodynamic Analysis, steam turbine power output, Power Plant PerformanceMonitoring & Testing, Heat Rate, Efficiency, Optimization of Performance

Steam Generators: Boiler and steam Generator construction types, Energy Balance andefficiency of steam Generator, Furnace & burners, steam Generators with fluidizedbased Combustion (FBC): fluidized bed types; emissions reduction in Fluidized bedfurnaces, Steam turbines, Condensers, feed Water Heaters and Cooling Water systems

Gas Turbine Power Plants: Air standard joule Cycle, Actual efficiency of the GasTurbine Power Plant, Enhancing the Gas Turbine Plant Performance: increasing thecompression Pressure Ratio and Turbine inlet Temperature;

Hydro Power Generation, Hydro Turbine, Large medium and small hydro power station,Micro Hydel Nuclear power generation and peaceful uses of nuclear energy.

Generation :synchronous generator, operation, power angle characteristics, and theinfinite bus concept, dynamic analysis and modeling of synchronous machines,excitation systems, prime mover governing systems, automatic generation control,auxiliaries.

AC transmission: over head cables, transmission line equations, regulation &transmission losses, performance estimation, reactive power compensation, flexible ACtransmission, skin, proximity and Ferranti effects, corona phenomena, critical voltagesand power loss. HVDC transmission.

Distribution system: distribution system, conductors size, Kelvins law performancecalculations and analysis, distribution inside industrial & commercial buildings entranceterminology, substation & feeder circuit design considerations, distribution automation.

References:

1. Elements of power station design by M.V. Deshpande- Wheeler Publishing.2. Generation, distribution and utilization of electrical energy by C.L. Wadhwa, New Age3. Elements of power system analysis- William Stevenson Mc-Graw Hill4. Modern power system analysis- I..S. Nagrah and D.P. Kothari, Tata Mc Graw Hill.5. Power system analysis- John Grainger and willian Stevenson, Mc- Graw Hill.6. Electrical power transmission system: Analysis and Design- Turan Gonen, John Wiley7. Theory and problems of electric power systems by S. A. Nasqr.

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MEEM 103 - Energy Sources, Policy and Planning

Review of world & Indian energy situation in respect of demand, supply & resources in

the historic context. Review of power development in India. Primary & secondary energy

resources, their inter convertibility.

Energy (and Power) in the country, Tariffs and subsidies. Energy Utility interface.

Private sector participation in Power Generation. State role and physical properties,

Energy and Development; National Energy Plan; Role of modeling in energy policy

analysis.

Energy demand analysis; trend analysis, econometric models; elasticity approach; input

output models; simulation /process models.

Energy supply analysis; cost of exploration and economics of utilization of depletableand renewable resources; scarcity rent; international energy supply.

Energy demand supply balancing; energy economy iteration; Energy investment

planning; Energy environment interaction; Energy pricing

Energy Action Planning: Key elements, force field analysis, Energy policy purpose,

perspective, contents, formulation, ratification, Organizing location of energy

management, top management support, managerial function, roles and responsibilities

of energy manager, accountability. Motivating-motivation of employees: Informationsystem-designing barriers, strategies; Marketing and communicating-training and

planning.

Material and Energy balance: Facility as an energy system, methods for preparing

process flow, material and energy balance diagrams.

Energy Monitoring and Targeting: Defining monitoring & targeting, elements of

monitoring & targeting, data and information-analysis, techniques energy consumption,

production, cumulative sum of differences (CUSUM).

References:

1. Energy policy, Efficiency, Conservation & Management by Prit-Peer

2. General Aspects of Energy Management & Energy Audit by BEE

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MEEM 104 Hydro Power Generation

Fundamental of Hydraulic Engineering Water resource and its potential.

Hydrology- Hydrological cycles, hydrograph, steam flow characteristics, flow durationcurve, mass curve storage, pond age , site selection.

Classification of Hydropower plants- According to water flow, regulation, load, headpumped, storage plant, storage requirement determination.

Small Hydropower Plants- Site configurations, planning a small hydropowerscheme, speed increasers, generators and turbine control.

Hydraulic turbine classification Classification criteria, turbine selection criteria,efficiency, performance characteristics, Biological aspects, economics analysis.

Environmental Impacts and its mitigation- Burdens and impacts identification,impacts in the construction phase

References :

1. S. Palmer Small scale Hydro Power Developments and its environmentalConsequences.

2. Finn R. Forsund Hydropower Economics Laymans Guidebook on how todevelop a small hydro site.

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MEEM 105 Environment Policy, Standards & Regulations

Global environmental concerns: The Scenario, The Changing Global atmosphere &common concerns. United Nations Framework Convention on Climate Change

(UNFCC), Kyoto Protocol, Conference of Parties (COP), Various Clean DevelopmentMechanism (CDM), Prototype Carbon fund (PCF), Earth Summit, Sustainabledevelopment.

The Global Program for protected area management, Strategies for environmentalimprovement plan. Organizations working in the field of energy and environment -UNEP, IPCCC, CPCB etc. Basic features of ISO 14000.

Water Quality: Parameters: Physical, Chemical and Bacteriological .Potable Water Standards,Waste Waster Effluent Standards. Minimal National Standards (MINAS).

Environment Policies: Water Act 1974, The Air Act, 1981, Environmental (Protection)Act.-1986, M. P. State Environment Policy, Municipal Solid Waste (Management &Handling) Rules, 1998, Biomedical Waste (Management & Handling ) Rules 1998.

References:

1. Environmental Issues and Polices, Prentice HallStephon Ison, Stephen Peake,Stuart Wall

2. ISO 14000 Environmental Management by Goetsch, Davis. Prentice Hall

3. Standard methods for the Examination of Water and Wastewater. (1989).17th

Ed.APHA, Washigton. D.C., 2-12

4. Energy Management by Paul OCallaghan McGraw Hill5. Cleaner Production Energy Efficiency Manual for GERIAP, UNEP, Bangkok

prepared by National Productivity Council6. Training material on Environmental concerns prepared by National Productivity

Council7. Parivesh, October 2002 Central Pollution Control Board

www.epa.orgwww.uneptie.orgwww.cpcb.nic.inwww.wri.orgwww.safeclimate.net

www.globalwarming.org, Bureau of Energy Efficiency 186