ASME PTC 47 4-2015 Power Block of an Integrated Gasification Combined Cycle Power Plant.pdf

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1、Power Block of an Integrated Gasification Combined CyclePower PlantPerformance Test CodesAN AMERICAN NATIONAL STANDARDASME PTC 47.4-2015ASME PTC 47.4-2015Power Block of an Integrated Gasification Combined Cycle Power PlantPerformance Test CodesASME PTC 25-2014(Revision of ASME PTC 25-2008)Pressure R

2、eliefDevicesPerformance Test CodesAN AMERICAN NATIONAL STANDARDTwo Park Avenue New York, NY 10016 USADate of Issuance: December 7, 2015The next edition of this Code is scheduled for publication in 2020.ASME issues written replies to inquiries concerning interpretations of technical aspects of this C

3、ode. Interpretations are published on the Committee Web page and under go.asme.org/InterpsDatabase. Periodically certain actions of the ASME PTC Committee may be published as Cases. Cases are published on the ASME Web site under the PTC Committee Page at go.asme.org/PTCcommittee as they are issued.E

4、rrata to codes and standards may be posted on the ASME Web site under the Committee Pages to provide correc-tions to incorrectly published items, or to correct typographical or grammatical errors in codes and standards. Such errata shall be used on the date posted.The PTC Committee Page can be found

5、 at go.asme.org/PTCcommittee. There is an option available to automatically receive an e-mail notification when errata are posted to a particular code or standard. This option can be found on the appropriate Committee Page after selecting “Errata” in the “Publication Information” section.ASME is the

6、 registered trademark of The American Society of Mechanical Engineers.This code or standard was developed under procedures accredited as meeting the criteria for American National Standards. The Standards Committee that approved the code or standard was balanced to assure that individuals from compe

7、tent and concerned interests have had an opportunity to participate. The proposed code or standard was made available for public review and comment that provides an opportunity for additional public input from industry, academia, regulatory agencies, and the public-at-large.ASME does not “approve,”

8、“rate,” or “endorse” any item, construction, proprietary device, or activity.ASME does not take any position with respect to the validity of any patent rights asserted in connection with any items mentioned in this document, and does not undertake to insure anyone utilizing a standard against liabil

9、ity for infringement of any applicable letters patent, nor assumes any such liability. Users of a code or standard are expressly advised that determination of the validity of any such patent rights, and the risk of infringement of such rights, is entirely their own responsibility.Participation by fe

10、deral agency representative(s) or person(s) affiliated with industry is not to be interpreted as government or industry endorsement of this code or standard.ASME accepts responsibility for only those interpretations of this document issued in accordance with the established ASME procedures and polic

11、ies, which precludes the issuance of interpretations by individuals.No part of this document may be reproduced in any form,in an electronic retrieval system or otherwise,without the prior written permission of the publisher.The American Society of Mechanical EngineersTwo Park Avenue, New York, NY 10

12、016-5990Copyright 2015 byTHE AMERICAN SOCIETY OF MECHANICAL ENGINEERSAll rights reservedPrinted in U.S.A.iiiCONTENTSNotice vForeword viCommittee Roster viiCorrespondence With the PTC Committee . viiiIntroduction . ixSection 1 Object and Scope .11-1 Object . 11-2 Scope 11-3 Uncertainty . 11-4 Referen

13、ces . 2Section 2 Definitions and Descriptions of Terms 32-1 General 32-2 Definitions 3Section 3 Guiding Principles . 63-1 Introduction 63-2 Test Boundary and Required Measurements 63-3 Test Plan and Object of the Test . 83-4 Test Preparations 83-5 Conduct of Test 103-6 Calculation and Reporting of R

14、esults . 12Section 4 Instruments and Methods of Measurement . 144-1 General 144-2 Pressure Measurement 184-3 Temperature Measurement 224-4 Humidity Measurement . 294-5 Flow Measurement 314-6 Primary Heat Input Measurement 334-7 Electrical Generation Measurement 344-8 Data Collection and Handling . 3

15、9Section 5 Calculations and Results . 425-1 Introduction 425-2 Data Reduction 425-3 Fundamental Equations 425-4 Correction Factors 435-5 Measured Parameters in the Fundamental Equations . 45Section 6 Report of Results . 476-1 General Requirements . 476-2 Executive Summary 476-3 Introduction 476-4 Ca

16、lculations and Results 476-5 Instrumentation . 486-6 Conclusions 486-7 Appendices . 48Section 7 Uncertainty Analysis 497-1 Introduction 497-2 Objective of Uncertainty Analysis . 497-3 Determination of Overall Uncertainty . 49iv7-4 Sources of Error 497-5 Calculation of Uncertainty . 507-6 Sensitivity

17、 Coefficients 507-7 Systematic Uncertainty . 537-8 Random Standard Uncertainty for Spatially Uniform Parameters 537-9 Random Standard Uncertainty for Spatially Nonuniform Parameters . 547-10 Correlated Systematic Standard Uncertainty 54FiguresFig. 3-2.2-1 ASME PTC 47.4 Power Block Test Boundary 7Fig

18、. 3-2.2-2 Diluent Nitrogen/Extraction Air Heat Exchanger Boundary . 8Fig. 4-2.6.2-1 Five-Way Manifold 22Fig. 4-2.6.2-2 Water Leg Correction for Flow Measurement . 22Fig. 4-3.3.2.1-1 Three- and Four-Wire RTDs . 25Fig. 4-3.6.2-1 Flow-Through Well 27Fig. 4-3.6.3-1 Duct Measurement Points 28Fig. 4-7.2.1

19、-1 Three-Wire Metering Systems 35Fig. 4-7.2.2-1 Four-Wire Metering System . 36Fig. 4-7.4.1-1 Typical Correction Curve . 38Fig. 4-7.6-1 Typical Auxiliary Loads 39TablesTable 1-3-1 Largest Expected Test Uncertainty 1Table 3-5.2-1 Variation During Test 11Table 5-1-1 IGCC Power Block Input and Output St

20、reams . 42Table 5-4-1 Test Correction Factors for IGCC Power Block 43Table 5-4.1-1 Additive Correction Factors . 44Table 5-4.2-1 Multiplicative Correction Factors 44Table 7-5-1 Uncertainty of Corrected Net Power or Corrected Heat Rate 51Nonmandatory AppendicesA Sample Calculation: IGCC Power Block 5

21、5B Sample Uncertainty Analysis . 69vNOTICEAll Performance Test Codes must adhere to the requirements of ASME PTC 1, General Instructions. The following information is based on that document and is included here for emphasis and for the convenience of the user of the Code. It is expected that the Cod

22、e user is fully cognizant of Sections 1 and 3 of ASME PTC 1 and has read them prior to applying this Code.ASME Performance Test Codes provide test procedures that yield results of the highest level of accuracy consistent with the best engineering knowledge and practice currently available. They were

23、 developed by balanced committees representing all concerned interests and specify procedures, instrumentation, equipment-operating requirements, calculation methods, and uncertainty analysis.When tests are run in accordance with a Code, the test results themselves, without adjustment for uncertaint

24、y, yield the best available indication of the actual performance of the tested equipment. ASME Performance Test Codes do not specify means to compare those results to contractual guarantees. Therefore, it is recommended that the parties to a commercial test agree before starting the test and prefera

25、bly before signing the contract on the method to be used for comparing the test results to the contractual guarantees. It is beyond the scope of any Code to determine or interpret how such comparisons shall be made.viFOREWORDASME Performance Test Codes (PTCs) have been developed and have long existe

26、d for determining the performance of most major components used in electric power production facilities. A PTC has heretofore not existed to determine the overall performance of an integrated gasification combined cycle (IGCC) power generation plant. The ability to fire a wide range of fuels has bee

27、n a key advantage of gas turbines over competing technologies. Until recently, the tradi-tional fuels for gas turbines have been natural gas and liquid fuels. Today, environmental concerns and economic con-siderations are causing power generation suppliers to develop gasification systems that can us

28、e solid and liquid fuels (e.g., coal, biomass, waste, and heavy oils). Preparation of an alternative fuel suitable for a gas turbine includes removal of ash, contaminants, erodents, and corrodents. In response to these needs, the ASME Board on Performance Test Codes approved the formation of the PTC

29、 47 Committee in 1993 with the charter of developing a code for determining overall power plant performance of gasification power generation plants. The organizational meeting of this Committee was held in November 1993. The resulting Committee included experienced and qualified users, manufacturers

30、, and gen-eral interest personnel.The Committee has striven to develop an objective code that addresses the multiple needs for explicit testing methods and procedures, while attempting to provide maximum flexibility in recognition of the wide range of plant designs.This Code was approved by the PTC

31、47 Committee and the PTC Standards Committee on February 3, 2015. It was then approved as an American National Standard by the America National Standards Institute (ANSI) Board of Standards Review on May 22, 2015.viiASME PTC COMMITTEEPerformance Test Codes(The following is the roster of the Committe

32、e at the time of approval of this Code.)STANDARDS COMMITTEE OFFICERSP. G. Albert, ChairJ. W. Milton, Vice ChairF. Constantino, SecretarySTANDARDS COMMITTEE PERSONNELP. G. Albert, Consultant J. W. Milton, Chevron USAJ. M. Burns, Burns Engineering S. P. Nuspl, ConsultantA. E. Butler, GE Power Systems

33、R. R. Priestly, ConsultantW. C. Campbell, True North Consulting S. A. Scavuzzo, The Babcock however, they should not contain proprietary names or information.Requests that are not in this format will be rewritten in this format by the Committee prior to being answered, which may inadvertently change

34、 the intent of the original request.ASME procedures provide for reconsideration of any interpretation when or if additional information that might affect an interpretation is available. Further, persons aggrieved by an interpretation may appeal to the cognizant ASME Committee or Subcommittee. ASME d

35、oes not “approve,” “certify,” “rate,” or “endorse” any item, construc-tion, proprietary device, or activity.Attending Committee Meetings. The PTC Standards Committee regularly holds meetings and/or telephone confer-ences that are open to the public. Persons wishing to attend any meeting and/or telep

36、hone conference should contact the Secretary of the PTC Standards Committee. Future Committee meeting dates and locations can be found on the Committee Page at go.asme.org/PTCcommittee.ixINTRODUCTIONThis Code describes testing procedures for the IGCC power block and is part of the following set of r

37、elated Codes:(a) ASME PTC 47, Integrated Gasification Combined Cycle Power Generation Plants, for testing the overall plant performance on an IGCC plant.(b) ASME PTC 47.1, Cryogenic Air Separation Unit, for testing the performance of the air separation unit (ASU). If the physical IGCC plant includes

38、 an ASU, the inclusion of the ASU within the overall test envelope is recommended but not required. (c) ASME PTC 47.2, Gasification System, for testing the thermal performance of the combined gasifier and fuel gas cleaning equipment.(d) ASME PTC 47.3, Fuel Gas Cleaning, for testing the contaminant c

39、ontent of gas delivered to the power block.(e) ASME PTC 47.4, Power Block of an Integrated Gasification Combined Cycle Power Plant, for testing the thermal performance of the gas turbine combined cycle power block.NOTE: ASME PTC 47.1, ASME PTC 47.2, and ASME PTC 47.3 are in the course of preparation

40、.It is recommended that overall plant and subsystems be tested separately, not simultaneously, to accommodate any boundary constraints and valve isolations and lineups that may be needed for subsystem testing. In highly integrated IGCC plants, the entire plant may need to be operating during a subsy

41、stem test, even though the only performance parameters being measured are those of the subsystem.Test results can be used as defined by a contract to determine the fulfillment of contract guarantees. Test results can also be used by a plant owner to compare plant performance to a design number, or t

42、o trend plant performance changes in time. However, the results of a test conducted in accordance with this Code will not provide a basis for comparing the thermoeconomic effectiveness of different plant designs.xINTENTIONALLY LEFT BLANKASME PTC 47.4-2015POWER BLOCK OF AN INTEGRATED GASIFICATION COM

43、BINED CYCLE POWER PLANTSection 1Object and Scope11-1 OBJECTThe object of this Code is to provide uniform test methods and procedures for the determination of the thermal performance and electrical output of an inte-grated gasification combined cycle (IGCC) power block.(a) This Code provides explicit

44、 procedures for the determination of the following performance results:(1) corrected net power(2) corrected net heat rate(3) corrected heat input(b) Tests may be designed to satisfy different goals, including(1) specified disposition(2) specified net corrected power(3) specified net power1-2 SCOPETh

45、is Code applies to combined cycle power plants (power blocks) that operate in conjunction with a gasi-fication plant, an IGCC power plant, or an IGCC cogen-eration plant. This Code does not apply to power blocks other than those associated with IGCC plants.This Code is applicable to the combined cyc

46、le power block of IGCC power plants, whereas ASME PTC 46 is applicable to conventional combined cycles. The ther-mal streams and corrections in ASME PTC 46 for con-ventional combined cycles are normally limited to gas or liquid hydrocarbon fuel input and steam or water input. In ASME PTC 47.4, test

47、measurements and associ-ated corrections are needed to address multiple thermal streams such as heated hydrocarbon syngas fuel input, water and steam inputs from gasification process units, nitrogen input from the air separation plant, and air extraction to the air separation plant. Emissions tests,

48、 operational demonstration tests, and reliability tests are outside the scope of this Code.1-3 UNCERTAINTYThe explicit measurement methods and procedures to be used for the power block of an IGCC have been developed to provide guidelines for test procedures that yield results of the highest level of

49、 accuracy based on current engineering knowledge, taking into account test costs and the value of information obtained from testing. The calculation of test uncertainty shall be performed in accordance with ASME PTC 19.1 and as outlined in this Code.Because of the diverse range of integration of the power block with the gasification block and the air sepa-ration unit block, the test results will have different lev-els of uncertainty.A pretest uncertainty analysis shall be performed to establish the expected level of uncertainties for the test. Most

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