ASME PTC 22 05 2005
$98.04
ASME PTC 22 Gas Turbines
| Published By | Publication Date | Number of Pages |
| ASME | 2005 | 102 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | CONTENTS |
| 5 | FIGURES TABLES NONMANDATORY APPENDICES |
| 6 | NOTICE |
| 7 | FOREWORD |
| 8 | COMMITTEE ROSTER |
| 10 | CORRESPONDENCE WITH THE PTC COMMITTEE |
| 11 | INTRODUCTION |
| 12 | Section 1 Object and Scope 1- 1 OBJECT 1- 2 SCOPE 1- 3 TEST UNCERTAINTY |
| 13 | 1- 4 OTHER REQUIREMENTS AND REFERENCES |
| 14 | Section 2 Definitions and Description of Terms 2- 1 DEFINITIONS |
| 15 | 2- 2 SYMBOLS |
| 16 | 2- 3 SUBSCRIPTS |
| 17 | Section 3 Guiding Principles 3- 1 AGREEMENTS |
| 18 | 3-1 Generic Test Boundaries |
| 19 | 3- 2 PREPARATIONS TO TEST 3-1.5.2 Required Measurements |
| 20 | 3- 3 CONDUCT OF TEST |
| 21 | 3-3.5 Maximum Permissible Standard Deviations of Measurements in Operating Conditions |
| 22 | 3- 4 TEST RECORDS 3- 5 TEST VALIDITY 3- 6 UNCERTAINTY |
| 24 | Section 4 Instruments and Methods of Measurement 4- 1 GENERAL REQUIREMENTS 4-1 Maximum Allowable Measurement Uncertainties |
| 26 | 4- 2 PRESSURE MEASUREMENT |
| 28 | 4-2.1 Five-Way Manifold for Differential Pressure (DP) Instruments |
| 29 | 4-2.2 Differential Pressure (DP) Correction for Flow in Non-Horizontal Lines |
| 30 | 4- 3 TEMPERATURE MEASUREMENT 4- 4 GAS FUEL HEAT INPUT |
| 31 | 4-4.1 Generic Gas Fuel Test Boundary |
| 33 | 4-4.5 Gas Properties of Selected Ideal Gases at 60.0°F and 14.696 psia |
| 34 | 4- 5 LIQUID FUEL HEAT INPUT 4-5.1 Generic Liquid Fuel Test Boundary |
| 36 | 4- 6 ELECTRICAL GENERATION MEASUREMENT 4-6A Two-Meter Metering System for Use on Three-Wire Delta Connected Power Systems |
| 37 | 4-6B Two-Meter Metering System for Use on Three-Wire Wye Connected Power Systems 4-6C Three-Meter Metering System for Use on Four-Wire Power Systems |
| 40 | 4- 7 MECHANICAL POWER MEASUREMENT 4- 8 SPEED MEASUREMENT 4- 9 HUMIDITY MEASUREMENT |
| 41 | 4- 10 HEAT LOSSES 4- 11 OTHER MEASUREMENTS |
| 43 | Section 5 Computation of Results 5- 1 ELECTRICAL POWER CALCULATIONS |
| 45 | 5- 2 MECHANICAL POWER OUTPUT CALCULATION 5- 3 HEAT RATE CALCULATIONS |
| 46 | 5-3.1 Typical Values for Unit Conversion Factor N1, Using Common Units of Measure |
| 47 | 5-3.2 Typical Values for Unit Conversion Factor N2, Using Common Units of Measure |
| 48 | 5- 4 CORRECTION OF TEST RESULTS— FUNDAMENTAL PERFORMANCE EQUATIONS |
| 49 | 5- 5 APPLICATION OF CORRECTION FACTORS 5-4.1 Summary of Additive Correction Factors for Power Fundamental Performance Equation 5-4.2 Summary of Correction Factors in All Fundamental Performance Equations |
| 51 | 5-6 DEGRADATION |
| 52 | Section 6 Test Report Requirements 6- 1 GENERAL REQUIREMENTS 6- 2 SUMMARY 6- 3 TEST DESCRIPTION 6- 4 TEST EQUIPMENT 6- 5 CALCULATIONS AND RESULTS 6- 6 APPENDICES |
| 53 | Section 7 Test Uncertainty 7- 1 INTRODUCTION 7- 2 UNDERSTANDING TEST UNCERTAINTY 7-2.1 Illustrating Systematic, Bi and Random Errors, 2Si |
| 55 | 7- 3 UNIT OUTPUT AND THERMAL EFFICIENCY 7-2.1.2B Test Uncertainty Illustration |
| 56 | 7-3.1A Step 1: Pretest Uncertainty Calculation, Code Limit |
| 57 | 7-3.1B Step 2: Pretest Planned Uncertainty Values |
| 58 | 7-3.1C Step 3: Post-Test Uncertainty Calculation |
| 60 | 7-3.3.2.2 Orifice Factors Uncertainty |
| 61 | 7-3.3.2.3 Heat Input Uncertainty |
| 63 | 7- 4 COMPARATIVE TESTING UNCERTAINTY |
| 64 | 7-4.4.1 Comparative Test Uncertainty Example |
| 65 | 7- 5 UNCERTAINTY OF FLOW CALCULATION FROM HEAT BALANCE |
| 67 | A DETERMINATION OF GAS TURBINE EXHAUST ENERGY, FLOW, AND TEMPERATURE A- 1 INTRODUCTION A- 2 TEST METHODOLOGY A- 3 CALCULATIONS AND RESULTS: GENERAL |
| 75 | A- 4 SAMPLE EXHAUST FLOW BY GAS TURBINE HEAT BALANCE CALCULATION |
| 87 | B COMPARATIVE TESTING B- 1 INTRODUCTION B- 2 OBJECT AND SCOPE B- 3 DEFINITIONS AND DESCRIPTION OF TERMS B- 4 GUIDING PRINCIPLES |
| 89 | B- 5 INSTRUMENTS AND METHODS OF MEASUREMENT B- 6 COMPUTATION OF RESULTS B- 7 REPORT OF RESULTS |
| 90 | C SAMPLE CALCULATIONS C- 1 CALCULATION OF HEAT INPUT |
| 93 | C- 2 CALCULATION OF ELECTRICAL OUTPUT |
| 94 | C- 3 CALCULATION OF CORRECTED PERFORMANCE ( OUTPUT, HEAT RATE, EXHAUST TEMPERATURE, AND EXHAUST FLOW) |
| 95 | C- 4 CALCULATION OF TRANSFORMER LOSS |
| 97 | D REFERENCES |
| 98 | E UNIT CONVERSION FACTORS |
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