Planification de la maintenance d'un parc de turbines-alternateurs par programmation mathématique
作者: Hakim Aoudjit
DOI:
关键词:
摘要: RESUME Une population grandissante de groupes turbines-alternateurs dans les centrales hydroelectriques arrive a sa fin vie utile et gestionnaires apprehendent la concurrence des arrets pour des renovations majeures avec un nombre tel que ressources disponibles une meme periode ne seraient pas suffisantes. Ces retraits du reseau peuvent durer jusqu'a annee entiere et mobilisent importantes en plus perte production electrique. Les previsions a hausse ventes l'export rythmes severes font craindre mise a l'arret beaucoup temps. Actuellement, le jugement experts est au coeur decisions qui se basent essentiellement sur inspections periodiques mesures effectuees in-situ dont les resultats sont centralises chez l'equipe planification retraits. La nature aleatoire des phenomenes degradations ont lieu, sorte capacite prevision l'usure par l'inspection caractere court-terme. Une vision renovations long terme est activement recherchee par souci justification rationalisation des budgetaires allouees aux renovations. Les disposent d’une quantite impressionnante donnees. Parmi elles, figurent la production horaire chaque groupe depuis plusieurs annees, l'historique reparations sur chaque organe ainsi majeurs effectues annees 1950. Dans ce projet recherche, nous proposons resoudre probleme la maintenance d’un parc 90 d'Hydro- Quebec horizon 50 ans. Nous developpons methodologie scientifique rationnelle de preparation plans serviront support prise decision exploitant les donnees historiques tout respectant ensemble de contraintes techniques economiques. Pour respecter confidentialite certaines donnees, toutes denominations originales ete modifiees rendre anonymes. Ce traite comme d’optimisation contraintes. D'abord, etudie ressortir organes influents. Un modele taux de defaillance developpe prendre compte caracteristiques technologiques l'organe et d'utilisation groupe. Ensuite, strategies remplacements sont----------ABSTRACT A growing number of Hydro-Quebec's hydro generators are at the end their useful life and maintenance managers fear to face overhauls exceeding what can be handled. Maintenance crews and budgets limited these withdrawals may take up full year and mobilize significant resources in addition loss electricity production. In addition, increased export sales forecasts severe patterns expected speed wear that can lead halting many units same time. Currently, expert judgment is heart which rely primarily on periodic inspections measurements results sent maintenance planning team who coordinate all decisions. The phenomena taking place is random prediction capability using only shortterm at best. A term major sought by for sake of justifying rationalizing resources. The able provide huge amount data. Among them, hourly production each unit several years, repairs history part as well as major since 1950's. In this research, we tackle problem fleet hydro generators Hydro-Quebec over years period. We lay scientific and rational framework available data while fulfilling set technical economic constraints. We propose approach based constrained optimization framework. begin by decomposing sorting generator components highlight most influential parts. A failure rate model developed into account characteristics unit utilization. Then, replacement repair policies evaluated then strategies derived whole unit. Traditional univariate such age replacement policy minimal calculated. These extended to build alternative bivariate strategy where state a component after rejuvenated constant coefficient.
harvard.edu参考文章(139)
D. R. Jones, C. D. Perttunen, B. E. Stuckman, Lipschitzian optimization without the Lipschitz constant Journal of Optimization Theory and Applications. ,vol. 79, pp. 157- 181 ,(1993) , 10.1007/BF00941892
Dong Sun, Tian-shu Huang, Ge Li, Fu-xong Sun, Bing-shuan Qing, The fault tendency analysis of hydro-generator based on WNN international conference on machine learning and cybernetics. ,vol. 5, pp. 3090- 3094 ,(2004) , 10.1109/ICMLC.2004.1378564
M. Newby, Perspective on Weibull proportional-hazards models IEEE Transactions on Reliability. ,vol. 43, pp. 217- 223 ,(1994) , 10.1109/24.294993
J. van Casteren, M. Bollen, M. Schmieg, Reliability assessment in electrical power systems: the Weibull-Markov stochastic model international conference on pervasive services. ,vol. 36, pp. 911- 915 ,(1999) , 10.1109/ICPS.1999.787215
Aparna Gupta, Chaipal Lawsirirat, Strategically optimum maintenance of monitoring‐enabled multi‐component systems using continuous‐time jump deterioration models Journal of Quality in Maintenance Engineering. ,vol. 12, pp. 306- 329 ,(2006) , 10.1108/13552510610685138
S. Gasmi, C.E. Love, W. Kahle, A general repair, proportional-hazards, framework to model complex repairable systems IEEE Transactions on Reliability. ,vol. 52, pp. 26- 32 ,(2003) , 10.1109/TR.2002.807850
D. Chattopadhyay, A practical maintenance scheduling program mathematical model and case study IEEE Transactions on Power Systems. ,vol. 13, pp. 1475- 1480 ,(1998) , 10.1109/59.736293
Stuart J. Russell, Peter Norvig, Artificial Intelligence: A Modern Approach ,(2020)
E. Gallestey, A. Stothert, M. Antoine, S. Morton, Model predictive control and the optimization of power plant load while considering lifetime consumption IEEE Transactions on Power Systems. ,vol. 17, pp. 186- 191 ,(2002) , 10.1109/59.982212
Rommert Dekker, Ingrid F.K. Roelvink, Marginal cost criteria for preventive replacement of a group of components European Journal of Operational Research. ,vol. 84, pp. 467- 480 ,(1995) , 10.1016/0377-2217(93)E0346-Y