Saturday, February 8, 2014

EV7005 WATER QUALITY MODELING Syllabus | Anna University Regulation 2013 ME Environmental Engineering First Year Second Semester Syllabus

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Anna University Syllabus - Anna University ME Syllabus

EV7005 WATER QUALITY MODELING Syllabus | Anna University Regulation 2013 ME Environmental Engineering First Year Second Semester Syllabus. Below is the Anna University 2013 Regulation Syllabus for 2nd Semester for ME Environmental Engineering, 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 Academic year 2013-2014 onwards for all its Affiliated institutions in Tamil Nadu.

OBJECTIVES:

 To introduce the fundamentals of mathematical models for water quality and the importance of model building.
 To acquaint with various water flow models and their kinetics.
 To educate about the water parameters modeling and various ground water quality modeling.
 To demonstrate the features and the use of most widely used computerized models for water quality

UNIT I MODELING CONCEPTS 9 Engineers and water quality-Mathematical models-Overview of different types of models-- Steps in model development - Importance of model building.- balance –calibration and verification of models- conservation of mass- mass balance analysis -chemical reaction kinetics – Law of mass action, Rate constants, reaction order, types of reactions, equilibrium principles.

UNIT II COMPLETELY AND INCOMPLETELY MIXED SYSTEM 10 Transport phenomena – Advection, diffusion, dispersion- simple transport models – Plug flow models- Application of PFR model to streams-MFR model to estuaries-Steady state and time variable solutions-completely mixed systems, concept and models in Completely Stirred Tank Reactors, mass balance equations, loading types, feed forward vs. feedback reactor systems.

UNIT III WATER QUALITY ENVIRONMENTS 12 Lakes and impoundments – Water quality response to input ; water quality modeling process – model sensitivity – assessing model performance; Models for dissolved oxygen, pathogens and BOD-Streeter Phelps equations for point and distributed sources - Modified Streeter Phelps equations -Toxicant modeling in flowing water-Eutrophication model-Trophic state correlations.

UNIT IV GROUNDWATER QUALITY MODELING 8 Mass transport of solutes, degradation of organic compounds, application of concepts to predict groundwater contaminant movement, seawater intrusion – basic concepts and modeling

UNIT V COMPUTER METHODS 6 Exposure to computer models for surface water and groundwater quality - QUAL2E Model and its application TOTAL: 45 PERIODS OUTCOME
 Developed conceptual schematics required for modeling and an ability to translate pertinent criteria into system requirements
REFERENCES:
1. Steven C.Chapra, Surface Water Quality Modelling, The McGraw-Hill Companies, Inc., New Delhi, 1997.
2. J.L.Schnoor, Environmental Modeling Fate and Transport of Pollutants in Water, Air and Soil, John Wiley & Sons Inc., New York, 1996.
3. Deaton and Wine Brake, “Dynamic Modeling of Environmental Systems”, Wiley & Sons, 2002.
4. Hipel, K.W and A.I. McLeod. 1994. Time Series Modelling of Water Resources and Environmental Systems. Elsevier Science.

5. Thomann, R.V. and J.A. Mueller. 1987 .Principles of Surface Water Quality Modelling and Control, Harper and Row.