EY9003 ENERGY SYSTEMS MODELING AND ANALYSIS SYLLABUS | ANNA UNIVERSITY ME ENERGY ENGINEERING 2ND SEMESTER SYLLABUS REGULATION 2009 2011 2012-2013 BELOW IS THE ANNA UNIVERSITY M.E THERMAL ENGINEERING DEPARTMENT SECOND SEMESTER SYLLABUS SYLLABUS, TEXTBOOKS, REFERENCE BOOKS,EXAM PORTIONS,QUESTION BANK,PREVIOUS YEAR QUESTION PAPERS,MODEL QUESTION PAPERS, CLASS NOTES, IMPORTANT 2 MARKS, 8 MARKS, 16 MARKS TOPICS. IT IS APPLICABLE FOR ALL STUDENTS ADMITTED IN THE YEAR 2011 2012-2013 (ANNA UNIVERSITY CHENNAI, TRICHY, MADURAI, TIRUNELVELI, COIMBATORE), 2009 REGULATION OF ANNA UNIVERSITY CHENNAI AND STUDENTS ADMITTED IN ANNA UNIVERSITY CHENNAI DURING 2010
EY9003 ENERGY SYSTEMS MODELING AND ANALYSIS L T P C 3 0 0 3
AIM:
To provide a comprehensive and rigorous introduction to energy system design and optimization from a contemporary perspective.
OBJECTIVES:
To learn to apply mass and energy balances for the systems enable to perform enthalpy
Learn to calculate to size performance and cost of energy equipments turns modeling and simulation techniques.
Learn to optimize the energy system for its maximum or minimum performance output.
UNIT I INTRODUCTION 9
Primary energy analysis - dead states and energy components - energy balance for closed and control volume systems - applications of energy analysis for selected energy system design - modeling overview - levels and steps in model development - examples of models – curve fitting and regression analysis.
UNIT II MODELLING AND SYSTEMS SIMULATION 9
Modeling of energy systems – heat exchanger - solar collectors – distillation - rectification turbo machinery components - refrigeration systems - information flow diagram - solution of set of non- linear algebraic equations - successive substitution - Newton Raphson method- examples of energy systems simulation.
UNIT III OPTIMISATION TECHNIQUES 9
Objectives - constraints, problem formulation - unconstrained problems - necessary and sufficiency conditions.Constrained optimization - lagrange multipliers, constrained variations, Linear Programming - Simplex tableau, pivoting, sensitivity analysis.
UNIT IV ENERGY- ECONOMY MODELS 9
Multiplier Analysis - Energy and Environmental Input / Output Analysis - Energy Aggregation –Econometric Energy Demand Modeling - Overview of Econometric Methods - Dynamic programming - Search Techniques - Univariate / Multivariate.
UNIT V APPLICATIONS AND CASE STUDIES 9
Case studies of optimization in Energy systems problems- Dealing with uncertaintyprobabilistic techniques – Trade-offs between capital and energy using Pinch analysis.
TOTAL: 45 PERIODS
TEXT BOOKS:
1. Stoecker, W.F., Design of Thermal Systems, McGraw Hill, 1989.
2. Bejan, A, Tsatsaronis, G and Moran, M., Thermal Design and Optimization, John Wiley & Sons 1996.
REFERENCES:
1. Rao, S.S., Engineering Optimization - Theory and Applications, Wiley Eastern, 2000.
2. Meier, P., Energy Systems Analysis for Developing Countries, Springer Verlag, 1984.
3. Beveridge and Schechter, Optimization Theory and Practice, McGraw Hill, 1970.
4. Jaluria, S., Design and Optimization of Thermal Systems, McGrawHill, 1997.
EY9003 ENERGY SYSTEMS MODELING AND ANALYSIS L T P C 3 0 0 3
AIM:
To provide a comprehensive and rigorous introduction to energy system design and optimization from a contemporary perspective.
OBJECTIVES:
To learn to apply mass and energy balances for the systems enable to perform enthalpy
Learn to calculate to size performance and cost of energy equipments turns modeling and simulation techniques.
Learn to optimize the energy system for its maximum or minimum performance output.
UNIT I INTRODUCTION 9
Primary energy analysis - dead states and energy components - energy balance for closed and control volume systems - applications of energy analysis for selected energy system design - modeling overview - levels and steps in model development - examples of models – curve fitting and regression analysis.
UNIT II MODELLING AND SYSTEMS SIMULATION 9
Modeling of energy systems – heat exchanger - solar collectors – distillation - rectification turbo machinery components - refrigeration systems - information flow diagram - solution of set of non- linear algebraic equations - successive substitution - Newton Raphson method- examples of energy systems simulation.
UNIT III OPTIMISATION TECHNIQUES 9
Objectives - constraints, problem formulation - unconstrained problems - necessary and sufficiency conditions.Constrained optimization - lagrange multipliers, constrained variations, Linear Programming - Simplex tableau, pivoting, sensitivity analysis.
UNIT IV ENERGY- ECONOMY MODELS 9
Multiplier Analysis - Energy and Environmental Input / Output Analysis - Energy Aggregation –Econometric Energy Demand Modeling - Overview of Econometric Methods - Dynamic programming - Search Techniques - Univariate / Multivariate.
UNIT V APPLICATIONS AND CASE STUDIES 9
Case studies of optimization in Energy systems problems- Dealing with uncertaintyprobabilistic techniques – Trade-offs between capital and energy using Pinch analysis.
TOTAL: 45 PERIODS
TEXT BOOKS:
1. Stoecker, W.F., Design of Thermal Systems, McGraw Hill, 1989.
2. Bejan, A, Tsatsaronis, G and Moran, M., Thermal Design and Optimization, John Wiley & Sons 1996.
REFERENCES:
1. Rao, S.S., Engineering Optimization - Theory and Applications, Wiley Eastern, 2000.
2. Meier, P., Energy Systems Analysis for Developing Countries, Springer Verlag, 1984.
3. Beveridge and Schechter, Optimization Theory and Practice, McGraw Hill, 1970.
4. Jaluria, S., Design and Optimization of Thermal Systems, McGrawHill, 1997.
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