Friday, July 22, 2011

INSTITUTE OF ELECTRICAL AND ELECTRONICS ENGINEERS

Another week has passed by again, and now is weekend again and yesterday Piping & Fabrication can't do post because there is some problem with the connection, but now we will continue with :
INSTITUTE OF ELECTRICAL AND ELECTRONICS ENGINEERS
The following standards published by the Institute of Electrical and Electronics Engineers (IEEE) are of interest to those involved in the design and construction of nuclear power plant piping systems:

IEEE 323-83     Standard forQualifying Class 1E Equipment for Nuclear Power Generating Stations
IEEE 336-85     Standard Installation, Inspection, and Testing Requirements for Power, Instrumentation, and Control Equipment at Nuclear Facilities
IEEE 344-87     Recommended Practice for Seismic Qualification of Class IE Equipment for Nuclear Power Generating Stations
IEEE 352-87     Guide for General Principles of Reliability Analysis of Nuclear Power Generating Station Safety Systems
IEEE 379-94     Standard Application of the Single Failure Criterion to Nuclear Power Generating Station Safety Systems
IEEE 382-96     Standard for Qualification of Actuators for Power Operated Valve Assemblies with Safety-Related Functions for Nuclear Power Plants

INSTRUMENT SOCIETY OF AMERICA
The Instrument Society of America (ISA) develops and publishes periodicals, books, standards, recommended practices, monographs, references, and training aids pertaining to instruments and automated controls. The following publications of the ISA contain information related to piping:

Recommended Practices (RP)
RP 16.5-61     Recommended Practice for Installation, Operation, Maintenance Instructions for Glass Tube Variable Area Meters (Rotometers)
RP 31.1-77     Recommended Practice for Specification, Installation, and Calibration of Turbine Flowmeters
RP 42.1-92     Recommended Practice for Nomenclature for Instrument Tube Fittings
RP 60.9-81     Recommended Practice for Piping Guide for Control Centers
RP 75.18-89     Recommended Practice for Control Valve Position Stability
RP 75.21-89     Recommended Practice for Process Data Presentation for Control Valves
RP 75.23-95     Considerations for Evaluating Control Valve Cavitation

Standards
S 5.1-84     Instrumentation Symbols and Identification
S 5.2-76     Binary Logic Diagrams for Process Operations
S 5.3-83     Graphic Symbols for Distributed Control/Shared Display Instrumentation, Logic, and Computer
S 5.4-91     Standard Instrument Loop Diagrams
S 5.5-85     Graphic Symbols for Process Displays
S 7.0.01     Quality Standard for Instrument Air
S 12.4-70     Instrument Purging for Reduction of Hazardous Area Classification
S 18.1-79     Annunciator Sequences and Specifications (R 1985)
S 20-81     Specification Forms for Process Measurement and Control Instruments, Primary Elements, and Control Valves
S 26-68     Dynamic Response Testing of Process Control Instrumentation
S 37.3-75     Strain Gauge Pressure Transducers, Specifications, and Tests (R 1982)
S 37.5-75     Strain Gauge Linear Acceleration Transducers, Specifications, and Tests (R 1982)
S 37.6-76     Specifications and Tests of Potentiometric Pressure Transducers (R 1982)
S 37.8-77     Specifications and Tests for Strain Gauge Force Transducers (R 1982)
S 51.1-79     Process Instrumentation Terminology
S 67.01-94     Transducer and Transmitter Installation for Nuclear Safety Applications
S 67.02.01-96     Nuclear - Safety - Related Instrument Sensing Line Piping and Tubing Standards for Use in Nuclear Power Plants
S 67.03-82     Light Water Reactor Coolant Pressure Boundary Leak Detection
S 67.04-94     Setpoints for Nuclear Safety-Related Instrumentation
S 67.10-94     Sample-Line Piping and Tubing Standard for Use in Nuclear Power Plants
S 75.01-85     Flow Equations for Sizing Control Valves
S 75.02-96     Control Valve Capacity Test Procedure
S 75.03-92     Face-to-Face Dimensions for Integral Flanged Globe-Style Control Valve Bodies (ANSI Classes 125, 150, 250, 300, and 600)
S 75.04-95     Face-to-Face Dimensions for Flangeless Control Valves (ANSI Classes 150, 300, and 600)
S 75.05-83     Control Valve Terminology
S 75.07-87     Laboratory Measurement of Aerodynamic Noise Generated by Control Valves
S 75.08-85     Installed Face-to-Face Dimensions for Flanged Clamp or Pinch Valves
S 75.11-85     Inherent Flow Characteristic and Rangeability of Control Valves
S 75.12-93     Face-to-Face Dimensions for Socket Weld-End and Screwed-End Globe-Style Control Valves (ANSI Classes 150, 300, 600, 900, 1500, and 2500)
S 75.14-93     Face-to-Face Dimensions for Butt-Weld-End Globe Style Control Valves (ANSI Classes 4500)
S 75.15-94     Face-to-Face Dimensions for Butt-Weld-End Globe-Style Control Valves (ANSI Classes 150, 300, 600, 900, 1500, and 2500)
S 75.17-89     Control Valve Aerodynamic Noise Prediction Standard
S 75.19-95     Hydrostatic Testing of Control Valves (Formerly ASME/ANSI B16.37-80)
ISA MC96.1     Temperature Measurement Thermocouples (1982)
ISA RP2.1     Manometer Tables (1985)
ISA RP12.4     Pressurized Enclosures (1996)
ISA RP75.23     Considerations for Evaluating Control Valve Cavitation
ISA S75.16     Face-to-Face Dimensions for Flanged Globe-Style Control Valve Bodies (ANSI Classes 900, 1500, and 2500) (1994)
ISA S75.20     Face-to-Face Dimensions for Separable Flanged Globe-Style Control Valves (ANSI Classes 150, 300, and 600) (1991)
ISA S75.22     Face-to-Centerline Dimensions for Flanged Globe-Style Angle Control Valve Bodies (ANSI Classes 150, 300, and 600) (1992)
ISA S77.70     Fossil Fuel Power Plant Instrument Piping Installation (1995)
ISA S84.01     Application of Safety Instrumented Systems for the Process Industries (1996)
ISA DIRECT     Directory of Instrumentation, 1992

Handbook
ISA Handbook of Control Valves

Please wish me luck guys, because I really need it, thanks!

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