AGA XQ0310 : 0

Name: AGA XQ0310 : 0
Brand: AGA

Superseded

View Superseded by

AGA REPORT NO. 10 - SPEED OF SOUND IN NATURAL GAS AND OTHER RELATED HYDROCARBON GASES

Available format(s)

Hardcopy , PDF

Superseded date

25-04-2017

Language(s)

English

Publisher

American Gas Association

DISCLAIMERS AND COPYRIGHT
FOREWORD
ACKNOWLEDGMENTS
1. INTRODUCTION
   1.1. Scope
   1.2. Background
   1.3. Field of Application
   1.4. Types of Properties
   1.5. Types of Gases
   1.6. Types of Conditions
2. UNCERTAINTY
3. CALCULATIONS
   3.1. Symbols
   3.2. Overview of Calculation Method and Sequence
   3.3. Compliance
   3.4. Equations for Speed of Sound
4. CRITICAL FLOW FACTOR DETERMINATION
5. CHARACTERISTICS OF TYPICAL GASES
6. REFERENCES
7. COMPUTATION FLOW CHARTS
8. CALCULATION OUTPUT FOR PROGRAM VERIFICATION
   8.1. Detailed Output Results for Program Development
        8.1.1. Detailed Output - Result #1
        8.1.2. Detailed Output - Result #2
        8.1.3. Detailed Output - Result #3
   8.2. Tabled Results for Compliance Checking and Program
        Development
APPENDIX - C++ LANGUAGE EXAMPLE IMPLEMENTATION
A1. OVERVIEW OF COMPUTER CODE
    A1.1. File Group 1 - Calculation Library
          A1.1.1. Overview of Classes and Key Functions
          A1.1.2. Detail Class
          A1.1.3. Therm Class
          A1.1.4. Function SOS()
          A1.1.5. Function Crit()
    A1.2. File Group 2 - Example Windows Application
A2. PRINTOUTS OF COMPUTER CODE
    A2.1. File Group 1 - Calculation Code
    A2.2. File Group 2 - Example Windows Application Code

Outlines a method for the calculation of the speed of sound in natural gas and the individual components that make up natural gas. Also calculates the entropy, enthalpy and C* coefficient for sonic nozzles. Also provides computer codes for programming calculations of speed of sound.

DocumentType	Standard
Pages	177
PublisherName	American Gas Association
Status	Superseded
SupersededBy	AGA XQ1704-1 : 2017 AGA XQ1704-2 : 2017

08/30169640 DC : 0	BS ISO 17089-1 - MEASUREMENT OF FLUID FLOW IN CLOSED CONDUITS - ULTRASONIC METERS FOR GAS - PART 1: METERS FOR CUSTODY TRANSFER AND ALLOCATION MEASUREMENT
AGA XQ0701 : 0	AGA REPORT NO. 9, MEASUREMENT OF GAS BY MULTIPATH ULTRASONIC METERS
11/30215951 DC : 0	BS ISO 17089-2 - MEASUREMENT OF FLUID FLOW IN CLOSED CONDUITS - ULTRASONIC METERS FOR GAS - PART 2: METERS FOR INDUSTRIAL APPLICATIONS
ISO 17089-1:2010	Measurement of fluid flow in closed conduits - Ultrasonic meters for gas Part 1: Meters for custody transfer and allocation measurement
BS ISO 17089-1:2010	Measurement of fluid flow in closed conduits. Ultrasonic meters for gas Meters for custody transfer and allocation measurement
ISO 17089-2:2012	Measurement of fluid flow in closed conduits - Ultrasonic meters for gas — Part 2: Meters for industrial applications

CSA Z234.1 : 0	METRIC PRACTICE GUIDE
AGA REPORT 8 : 92 REPRINT 94	COMPRESSIBILITY AND SUPERCOMPRESSIBILITY FOR NATURAL GAS AND OTHER HYDROCARBON GASES TRANSMISSION MEASUREMENT