API 579-1 ERTA Fitness-For-Service - Second Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- 23
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- 23.080
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- ISO GUIDE 31 Reference Materials - Contents of Certificates and Labels - Second Edition
- CEN EN 16480 Pumps - Minimum required efficiency of rotodynamic water pumps
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- CEN EN 16480 Pumps - Minimum required efficiency of rotodynamic water pumps
- 71
- ISO GUIDE 31 Reference Materials - Contents of Certificates and Labels - Second Edition
- CEN EN 16480 Pumps - Minimum required efficiency of rotodynamic water pumps
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- CEN EN 16480 Pumps - Minimum required efficiency of rotodynamic water pumps
- ISO GUIDE 31 Reference Materials - Contents of Certificates and Labels - Second Edition
- CEN EN 16480 Pumps - Minimum required efficiency of rotodynamic water pumps
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- CEN EN ISO 5198 Centrifugal, Mixed Flow and Axial Pumps - Code for Hydraulic Performance Tests - Precision Class
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- BSI BS EN 13275 Cryogenic Vessels - Pumps for Cryogenic Service
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- CEN EN ISO 9908 Technical specifications for centrifugal pumps - Class III - Incorporates Amendment A1: 2011
- ISO 1940-1 CORR 1 Mechanical vibration — Balance quality requirements for rotors in a constant (rigid) state — Part 1: Specification and verification of balance tolerances TECHNICAL CORRIGENDUM 1 - Second Edition
- ASME B73.1 Specification for Horizontal End Suction Centrifugal Pumps for Chemical Process
- ASME B16.42 Ductile Iron Pipe Flanges and Flanged Fittings Classes 150 and 300
- ASME/BPVC SEC XII SECTION XII RULES FOR CONSTRUCTION AND CONTINUED SERVICE OF TRANSPORT TANKS
- CEN CEN/TR 13931 Rotodynamic pumps - Forces and moments on flanges - Centrifugal, mixed flow and axial flow horizontal and vertical shafts pumps - Incorporating Corrigendum June 2010
- Картотека зарубежных и международных стандартов
American Petroleum Institute
Fitness-For-Service - Second Edition
N 579-1 ERTA
Annotation
The methods and procedures in this Standard are intended to supplement and augment the requirements in API 510, API 570, API 653, and other post construction codes that reference FFS evaluations such as NB-23.
The assessment procedures in this Standard can be used for Fitness-For-Service assessments and/or rerating of equipment designed and constructed to the following codes
a) ASME B&PV Code, Section VIII, Division 1
b) ASME B&PV Code, Section VIII, Division 2
c) ASME B&PV Code, Section I
d) ASME B31.1 Piping Code
e) ASME B31.3 Piping Code
f) API 650
g) API 620
The assessment procedures in this Standard may also be applied to pressure containing equipment constructed to other recognized codes and standards, including international and internal corporate standards. This Standard has broad application since the assessment procedures are based on allowable stress methods and plastic collapse loads for non-crack-like flaws, and the Failure Assessment Diagram (FAD) Approach for crack-like flaws (see Part 2 , paragraph 2.4.2).
a) If the procedures of this Standard are applied to pressure containing equipment not constructed to the codes listed in paragraph 1.2.2, then the user is advised to first review the validation discussion in Annex H. The information in Annex H, along with knowledge of the differences in design codes, should enable the user to factor, scale, or adjust the acceptance limits of this Standard such that equivalent FFS inservice margins can be attained for equipment not constructed to these codes. When evaluating other codes and standards the following attributes of the ASME and API design codes should be considered:
