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Title of Thesis

Development Of Simulatio Techniques Applicable To Scientific And Engineering Systems

Author(s)

Nazir Ahmad Shahid

Institute/University/Department Details
Department Of Mathematics / University Of Engineering & Technology, Lahore
Session
2010
Subject
Mathematics
Number of Pages
181
Keywords (Extracted from title, table of contents and abstract of thesis)
Applicable, Simulation, Equipment, Technique, Development, Systems, Optimum, Generator, Scientific, Steady, Nuclear, Numerical, Scheme

Abstract
Not Available

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2,283 KB
S. No. Chapter Title of the Chapters Page Size (KB)
1 0 CONTENTS

 

 
67 KB
2

1

INTRODUCTION AND OVERVIEW

1.1 Introduction
1.2 Physical Model of the System
1.3 Motivation
1.4 Objectives and Scope
1.5 Previous Work
1.6 Organization

1
299 KB
3 2 PRELIMINARIES

2.1 Introduction
2.2 Basic Definitions and Equations
2.3 Equation of Continuity
2.4 Steady State Condition
2.5 Transient or Unsteady State Condition
2.6 Two Basic Laws for System Analysis
2.7 Mass and Component Balance Equations
2.8 Rate of Change of Pressure in a Control Volume
2.9 Energy Balance Equations
2.10 Rate of Change of Fluid Temperature in Control Volume
2.11 External Heat Transfer Rate in Control Volume
2.12 Heat Exchangers
2.13 Heat Exchanger Effectiveness

12
286 KB
4 3 MATHEMATICAL SIMULATION FOR STEADY HEAT TRANSFER PROCESS IN A STEAM GENERATOR

3.1 Introduction
3.2 Mathematical Model Formulation
3.3 Analytical Solution Under Steady State Condition
3.4 Model Layout and Solution Procedure
3.5 Analysis of Important Parameters Involved in the Model
3.6 Graphical Method of Analysis
3.7 Results and Discussion

31
 585 KB
5 4 NUMERICAL SIMULATION MODELING FOR STEADY HEAT TRANSFER PROCESS IN A STEAM GENERATOR

4.1 Introduction
4.2 Formulation of Numerical Models for Primary and Secondary Fluids
4.3 Algorithms
4.4 Model Layout and Solution Procedure
4.5 Implementation of Numerical Scheme
4.6 Results and Discussion

53
622 KB
6 5 SIMULATION TECHNIQUE FOR UNSTEADY HEAT TRANSFER PROCESS IN A STEAM GENERATOR

5.1 Introduction
5.2 Formulation of Empirical Relations
5.3 Transients During NPP Start Up
5.4 Development of Finite Differences Scheme Using Mathematical Model in Transient Condition
5.5 Model Layout and Solution Procedure
5.6 Implementation of Finite Differences Scheme
5.7 Graphical Representation of Temperature Distribution for Secondary and Primary Fluids Relative to RP
5.8 Tabular Results
5.9 Conclusions
5.10 Recommendations

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478 KB
7 6 REFERENCES AND APPENDICES

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191 KB