IEEE 1046 1991

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IEEE Application Guide for Distributed Digital Control and Monitoring for Power Plants

Published By	Publication Date	Number of Pages
IEEE	1991	120

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Description

New IEEE Standard – Inactive – Withdrawn. Withdrawn Standard. Withdrawn Date: Feb 06, 2006. Alternate approaches to applying a digital control system, for both new construction and existing plant modernization projects, are described, and their advantages and disadvantages are compared. Criteria to be used to judge the suitability of commercially available systems for use in the power generation industry are provided. Terminology is defined, and the objectives of distributed control and monitoring systems are described. The following system application issues are addressed: integrated versus segregated systems functional and geographic distribution, hierarchical architecture and automation, control and protection functions, input/output systems, environmental considerations, and documentation. The data communications structure and the functions that support it are considered. Data acquisition and monitoring (the man/machine interfaces) are discussed. Reliability, availability, and fault tolerance of distributed control and monitoring systems are addressed.

PDF Catalog

PDF Pages	PDF Title
4	Introduction Participants
6	CONTENTS
8	1. Scope and Purpose 1.1 Introduction
9	1.2 Scope
11	1.3 Purpose
12	2. Terminology and Definitions 2.1 Introduction
17	3. Objectives of Distributed Control and Monitoring 3.1 Introduction 3.2 Dependability 3.3 Plant Efficiency
18	3.4 Improved Response Time 3.5 Extended Equipment Life 3.6 Improved Operatoin 3.7 Improved Operator Interface
19	3.8 Accessibility of Plant Data 3.9 Cost-Related Factors 4. System Application Issues 4.1 Introduction
21	4.2 Integrated vs. Segregated Systems
23	4.3 Functional and Geographic Distribution
26	4.4 Hierarchical Architecture and Automation
30	4.5 Control and Protection Functions
35	4.6 Input/Output System
37	4.7 Environmental Considerations
40	4.8 Documentation
42	5. Data Communications Structure 5.1 Scope and Purpose
43	5.2 Data Communication Functions 5.3 Data Communication Structure Characteristics
47	5.4 Control Data Communication Requirements
53	5.5 Control Data Communications Assessment
54	6. Network Architectural View 6.1 Introduction
55	6.2 Remote Intelligence of Distributed Control Systems
58	6.3 Single Linear Network Topology—Data Station Architecture
64	6.4 Some Special Features of Proprietary Control Networks
68	6.5 Hierarchical Network Architectures and the Field Bus
71	7. Data Acquisition and Monitoring 7.1 Introduction 7.2 Man/Process, Man/System Interfaces
81	7.3 Reporting Functions
82	7.4 Monitoring Function
83	7.5 Operating Functions 7.6 Diagnosing Functions
86	7.7 Plant Performance Function 7.8 Optimization
87	7.9 Processing
88	7.10 Data Acquisition and Preprocessing Functions 8. Reliability, Availability, and Fault Tolerance of Distributed Control and Monitoring Systems 8.1 Introduction 8.2 Overall View
89	8.3 Reliability
91	8.4 Software/Human/Hardware Reliability
92	8.5 Partitioning, Redundancy, and Fault Tolerance
94	8.6 Fault Tolerance
96	8.7 General Requirement for Reliability/Availability of Distributed Control System
97	8.8 Introduction to Reliability/Availability Calculations
101	9. Bibliography
106	Annex A—Reliability and Availability
118	Annex B—FMEA/FTA Failure Mode Effect Analysis (FMEA)

Additional information

Standard Title	IEEE Application Guide for Distributed Digital Control and Monitoring for Power Plants
Published Code	IEEE
Publication Date	1991
Pages Count	120

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IEEE 1046 1991

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