IEEE STD 399 1997:1998 Edition

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IEEE Std 399-1997 IEEE Recommended Practice for Industrial and Commercial Power Systems Analysis

Published By	Publication Date	Number of Pages
IEEE	1998	497

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PDF Catalog

PDF Pages	PDF Title
1	Title Page Title Page
2	Acknowledgment Acknowledgment
4	Introduction Introduction
9	Contents Contents
15	Chapter 1 Overview Chapter 1 Overview 1.1 Scope and general information 1.1 Scope and general information 1.2 History of power system studies 1.2 History of power system studies
16	1.3 Applying power system analysis techniques to industrial andcommercial power systems 1.3 Applying power system analysis techniques to industrial andcommercial power systems 1.4 Purposes of this Recommended Practice 1.4 Purposes of this Recommended Practice
19	1.5 References 1.5 References
21	Chapter 2 Applications of power system analysis Chapter 2 Applications of power system analysis 2.1 Introduction 2.1 Introduction 2.2 Load flow analysis 2.2 Load flow analysis
22	2.3 Short-circuit analysis 2.3 Short-circuit analysis 2.4 Stability analysis 2.4 Stability analysis 2.5 Motor-starting analysis 2.5 Motor-starting analysis
23	2.6 Harmonic analysis 2.6 Harmonic analysis
24	2.7 Switching transients analysis 2.7 Switching transients analysis 2.8 Reliability analysis 2.8 Reliability analysis 2.9 Cable ampacity analysis 2.9 Cable ampacity analysis
25	2.10 Ground mat analysis 2.10 Ground mat analysis 2.11 Protective device coordination analysis 2.11 Protective device coordination analysis
26	2.12 DC auxiliary power system analysis 2.12 DC auxiliary power system analysis
27	Chapter 3 Analytical procedures Chapter 3 Analytical procedures 3.1 Introduction 3.1 Introduction
28	3.2 Fundamentals 3.2 Fundamentals
54	3.3 Bibliography 3.3 Bibliography
57	Chapter 4 System modeling Chapter 4 System modeling 4.1 Introduction 4.1 Introduction 4.2 Modeling 4.2 Modeling
58	4.3 Review of basics 4.3 Review of basics
63	4.4 Power network solution 4.4 Power network solution
67	4.5 Impedance diagram 4.5 Impedance diagram
68	4.6 Extent of the model 4.6 Extent of the model
69	4.7 Models of branch elements 4.7 Models of branch elements
85	4.8 Power system data development 4.8 Power system data development
94	4.9 Models of bus elements 4.9 Models of bus elements
113	4.10 References 4.10 References
114	4.11 Bibliography 4.11 Bibliography
117	Chapter 5 Computer solutions and systems Chapter 5 Computer solutions and systems 5.1 Introduction 5.1 Introduction
118	5.2 Numerical solution techniques 5.2 Numerical solution techniques
136	5.3 Computer systems 5.3 Computer systems
143	5.4 Bibliography 5.4 Bibliography
147	Chapter 6 Load flow studies Chapter 6 Load flow studies 6.1 Introduction 6.1 Introduction
148	6.2 System representation 6.2 System representation
151	6.3 Input data 6.3 Input data
154	6.4 Load flow solution methods 6.4 Load flow solution methods
163	6.5 Load flow analysis 6.5 Load flow analysis
165	6.6 Load flow study example 6.6 Load flow study example
176	6.7 Load flow programs 6.7 Load flow programs
177	6.8 Conclusions 6.8 Conclusions 6.9 References 6.9 References 6.10 Bibliography 6.10 Bibliography
179	Chapter 7 Short-circuit studies Chapter 7 Short-circuit studies 7.1 Introduction and scope 7.1 Introduction and scope
180	7.2 Extent and requirements of short-circuit studies 7.2 Extent and requirements of short-circuit studies
182	7.3 System modeling and computational techniques 7.3 System modeling and computational techniques
186	7.4 Fault analysis according to industry standards 7.4 Fault analysis according to industry standards
193	7.5 Factors affecting the accuracy of short-circuit studies 7.5 Factors affecting the accuracy of short-circuit studies
196	7.6 Computer solutions 7.6 Computer solutions
201	7.7 Example 7.7 Example
217	7.8 References 7.8 References
220	7.9 Bibliography 7.9 Bibliography
223	Chapter 8 Stability studies Chapter 8 Stability studies 8.1 Introduction 8.1 Introduction 8.2 Stability fundamentals 8.2 Stability fundamentals
230	8.3 Problems caused by instability 8.3 Problems caused by instability 8.4 System disturbances that can cause instability 8.4 System disturbances that can cause instability
231	8.5 Solutions to stability problems 8.5 Solutions to stability problems
232	8.6 System stability analysis 8.6 System stability analysis
237	8.7 Stability studies of industrial power systems 8.7 Stability studies of industrial power systems
242	8.8 Summary and conclusions 8.8 Summary and conclusions
243	8.9 Bibliography 8.9 Bibliography
245	Chapter 9 Motor-starting studies Chapter 9 Motor-starting studies 9.1 Introduction 9.1 Introduction 9.2 Need for motor-starting studies 9.2 Need for motor-starting studies
249	9.3 Recommendations 9.3 Recommendations
251	9.4 Types of studies 9.4 Types of studies
252	9.5 Data requirements 9.5 Data requirements
255	9.6 Solution procedures and examples 9.6 Solution procedures and examples
273	9.7 Summary 9.7 Summary
277	9.8 References 9.8 References 9.9 Bibliography 9.9 Bibliography
279	Chapter 10 Harmonic analysis studies Chapter 10 Harmonic analysis studies 10.1 Introduction 10.1 Introduction
280	10.2 Background 10.2 Background
281	10.3 Purpose of harmonic study 10.3 Purpose of harmonic study
282	10.4 General theory 10.4 General theory
290	10.5 System modeling 10.5 System modeling
304	10.6 Example solutions 10.6 Example solutions
316	10.7 Remedial measures 10.7 Remedial measures
321	10.8 Harmonic standards 10.8 Harmonic standards
323	10.9 References 10.9 References 10.10 Bibliography 10.10 Bibliography
327	Chapter 11 Switching transient studies Chapter 11 Switching transient studies 11.1 Power system switching transients 11.1 Power system switching transients
352	11.2 Switching transient studies 11.2 Switching transient studies
373	11.3 Switching transients—field measurements 11.3 Switching transients—field measurements
377	11.4 Typical circuit parameters for transient studies 11.4 Typical circuit parameters for transient studies
381	11.5 References 11.5 References 11.6 Bibliography 11.6 Bibliography
389	Chapter 12 Reliability studies Chapter 12 Reliability studies 12.1 Introduction 12.1 Introduction 12.2 Definitions 12.2 Definitions
391	12.3 System reliability indexes 12.3 System reliability indexes
392	12.4 Data needed for system reliability evaluations 12.4 Data needed for system reliability evaluations 12.5 Method for system reliability evaluation 12.5 Method for system reliability evaluation
394	12.6 References 12.6 References
397	Chapter 13 Cable ampacity studies Chapter 13 Cable ampacity studies 13.1 Introduction 13.1 Introduction
398	13.2 Heat flow analysis 13.2 Heat flow analysis
400	13.3 Application of computer program 13.3 Application of computer program
402	13.4 Ampacity adjustment factors 13.4 Ampacity adjustment factors
413	13.5 Example 13.5 Example
417	13.6 Conclusion 13.6 Conclusion
418	13.7 References 13.7 References 13.8 Bibliography 13.8 Bibliography
421	Chapter 14 Ground mat studies Chapter 14 Ground mat studies 14.1 Introduction 14.1 Introduction 14.2 Justification for ground mat studies 14.2 Justification for ground mat studies 14.3 Modeling the human body 14.3 Modeling the human body
424	14.4 Traditional analysis of the ground mat 14.4 Traditional analysis of the ground mat
429	14.5 Advanced grid modeling 14.5 Advanced grid modeling
432	14.6 Benchmark problems 14.6 Benchmark problems
434	14.7 Input/output techniques 14.7 Input/output techniques 14.8 Sample problem 14.8 Sample problem 14.9 Conclusion 14.9 Conclusion
437	14.10 References 14.10 References
438	14.11 Bibliography 14.11 Bibliography
443	Chapter 15 Coordination studies Chapter 15 Coordination studies 15.1 Introduction 15.1 Introduction
444	15.2 Basics of coordination 15.2 Basics of coordination
449	15.3 Computer programs for coordination 15.3 Computer programs for coordination
450	15.4 Common structure for computer programs 15.4 Common structure for computer programs
455	15.5 How to make use of coordination software 15.5 How to make use of coordination software
457	15.6 Verifying the results 15.6 Verifying the results 15.7 Equipment needs 15.7 Equipment needs
458	15.8 Conclusion 15.8 Conclusion 15.9 Bibliography 15.9 Bibliography
459	Chapter 16 DC auxiliary power system analysis Chapter 16 DC auxiliary power system analysis 16.1 Introduction 16.1 Introduction 16.2 Purpose of the recommended practice 16.2 Purpose of the recommended practice 16.3 Application of dc power system analysis 16.3 Application of dc power system analysis
460	16.4 Analytical procedures 16.4 Analytical procedures 16.5 System modeling 16.5 System modeling
475	16.6 Load flow/voltage drop studies 16.6 Load flow/voltage drop studies
478	16.7 Short-circuit studies 16.7 Short-circuit studies
480	16.8 International guidance on dc short-circuit calculations 16.8 International guidance on dc short-circuit calculations 16.9 Bibliography 16.9 Bibliography
483	INDEX INDEX A-B A-B
484	B-C B-C
485	C-D C-D
486	D-F D-F
487	F-H F-H
488	H-I H-I
489	I-M I-M
490	M-O M-O
491	O-P O-P
492	Q-S Q-S
493	S S
495	S-T S-T
496	T-U T-U
497	U-Y U-Y

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Standard Title	IEEE Std 399-1997 IEEE Recommended Practice for Industrial and Commercial Power Systems Analysis
Published Code	IEEE
Publication Date	1998
Pages Count	497

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