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Gas and oil reliability engineering : modeling and analysis /

The advent of reliability engineering tools coupled with the cost of oil and gas operations has changed the paradigm of maintenance technology. A simple strategy of efficient replacement of failed equipment/component has been transformed into a more complex but proactive approach for keeping equipme...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Calixto, Eduardo (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Gulf Professional Publising, 2016.
Edición:Second edition.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Gas and Oil Reliability Engineering; Gas and Oil Reliability Engineering: Modeling and Analysis; Copyright; Dedication; Contents; Preface; Acknowledgment; 1
  • LIFETIME DATA ANALYSIS; 1.1 QUANTITATIVE FAILURE DATA ANALYSIS; 1.2 PROBABILITY DENSITY FUNCTIONS; 1.2.1 EXPONENTIAL PROBABILITY DENSITY FUNCTION; 1.2.2 NORMAL PROBABILITY DENSITY FUNCTION; 1.2.3 LOGISTIC PROBABILITY DENSITY FUNCTION; 1.2.4 LOGNORMAL PROBABILITY DENSITY FUNCTION; 1.2.5 LOGLOGISTIC PROBABILITY DENSITY FUNCTION; 1.2.6 GUMBEL PROBABILITY DENSITY FUNCTION; 1.2.7 WEIBULL PROBABILITY DENSITY FUNCTION.
  • Mixed Weibull Probability Density Function1.2.8 GAMMA PROBABILITY DENSITY FUNCTION; 1.2.9 GENERALIZED GAMMA PROBABILITY DENSITY FUNCTION; 1.2.10 RAYLEIGH PROBABILITY DENSITY FUNCTION; 1.3 GOODNESS OF FIT METHODS: HOW TO DEFINE PDF PARAMETERS AND CHOOSE PDF THAT FITS BETTER IN FAILURES DATA; 1.3.1 PLOT METHOD; 1.3.2 RANK REGRESSION; 1.3.3 MAXIMUM LIKELIHOOD METHODS; 1.3.4 CHI SQUARE METHODS; 1.3.5 KOLMOGOROV-SMIRNOV METHOD; 1.3.6 CRAMER-VON MISES TESTS; 1.4 HOW RELIABLE IS RELIABILITY: CONFIDENCE BOUND WILL TELL YOU ABOUT!!!; 1.5 LIFETIME DATA ANALYSIS CASES; 1.5.1 PUMP LIFETIME DATA ANALYSIS.
  • 1.5.2 screw compressor lifetime data analysis case1.5.3 valve lifetime data analysis case; 1.5.4 sensor lifetime data analysis case; 1.5.5 heat exchanger lifetime data analysis cases; 1.5.6 pipeline lifetime data analysis cases; 1.5.7 furnace lifetime data analysis cases; references; 2
  • accelerated life test, reliability growth analysis, and probabilistic degradation analysis; 2.1 introduction; 2.2 quantitative accelerated test; 2.2.1 arrhenius life-stress model; 2.2.2 eyring life-stress model; 2.2.3 inverse power law life-stress model; 2.2.4 temperature-humidity stress model.
  • 2.2.5 thermal-nonthermal stress model2.2.6 general loglinear life-stress model; 2.2.7 proportional hazard model; 2.2.8 cumulative risk model; 2.3 qualitative accelerated test (halt and hass); 2.4 reliability growth analysis; 2.4.1 duane model; 2.4.2 crow-amsaa model (nhpp); 2.4.3 lloyd-lipow; 2.4.4 gompertz model; 2.4.5 logistic model; 2.4.6 crow extended model; 2.4.7 power law; 2.5 probabilistic degradation analysis (pda); 2.5.1 linear; 2.5.2 exponential; 2.5.3 power; 2.5.4 logarithmic; 2.5.5 phase exponential model; references; 3
  • reliability and maintenance; 3.1 introduction.
  • 3.1.1 FMEA INTRODUCTIONDesign Failure Mode Effects Analysis; Failure Mode Analysis: Process and Operational Applications; Water Supply System; Electrical System; Load Movement System; Diethylamine Treatment System; Criticality Analysis to Define the Critical Equipment List; 3.2 MAINTENANCE STRATEGY; 3.3 RCM ANALYSIS; 3.4 RBI ANALYSIS; 3.5 REBI ANALYSIS (RELIABILITY BASED INSPECTION); 3.6 REGBI ANALYSIS (RELIABILITY GROWTH BASED INSPECTION); 3.7 OPTIMUM REPLACEMENT TIME ANALYSIS; 3.8 FRACAS ANALYSIS; 3.8.1 WARRANTY ANALYSIS; REFERENCES; APPENDIX; 3.9 FMEA, RCM, AND RBI CASE STUDIES.