Availability and cost analysis of an engineering system involving subsystems in series configuration

Purpose The purpose of this paper is to evaluate various reliability measures like availability, reliability, mean time to failure and profit function. Design/methodology/approach The authors present a novel method for availability analysis of an engineering system incorporating waiting time to repair. The considered system consists of two subsystems, namely, A and B connected in series. The subsystem B has two identical units in standby arrangement. Each unit of the subsystem has two modes, i.e. normal efficiency or failed. The two standby units of the subsystem B are connected by an imperfect switching. The system is analyzed by supplementary variable technique, Laplace transformation and Gumbel-Hougaard family of copula. Findings Numerical examples with a way to highlight the important results have been appended at last. Numerical calculation shows that availability and reliability of the system is decreasing with respect to time when failure rates are fixed at different values. Finally, cost analysis of system reveals that the expected profit decreases with increase in service cost. Originality/value This paper presents a mathematical model in which an important aspect of switching has been taken into consideration, which is consistent with actual failures of switching by assuming two different types of failure between adjacent transition. It is evaluated with the help of the Gumbel-Hougaard family of copula.

[1]  P. F. Frutuoso e Melo,et al.  Unavailability analysis of safety systems under aging by supplementary variables with imperfect repair , 2005 .

[2]  Mangey Ram,et al.  Availability, MTTF and cost analysis of complex system under preemptive‐repeat repair discipline using Gumbel‐Hougaard family copula , 2010 .

[3]  J. A. Nachlas,et al.  Availability Analysis for the Quasi-Renewal Process , 2009, SMC 2009.

[4]  R. Subramanyam Naidu,et al.  Cost—benefit analysis of a one-server two-unit cold standby system subject to inspection , 1982 .

[5]  Mangey Ram,et al.  Stochastic Analysis of a Standby System With Waiting Repair Strategy , 2013, IEEE Transactions on Systems, Man, and Cybernetics: Systems.

[6]  Jai Singh,et al.  Availability analysis of a standby complex system having imperfect switch-over device , 1995 .

[7]  Jeh-Nan Pan Reliability prediction of imperfect switching systems subject to multiple stresses , 1997 .

[8]  Balbir S. Dhillon Human errors: A review , 1989 .

[9]  Anuj Kumar,et al.  Application of a multi-objective particle article swarm optimization technique to solve reliability optimization problem , 2015, 2015 1st International Conference on Next Generation Computing Technologies (NGCT).

[10]  Balbir S. Dhillon,et al.  Human error in maintenance: a review , 2006 .

[11]  Madhu Jain,et al.  RELIABILITY ANALYSIS OF REDUNDANT REPAIRABLE SYSTEM WITH DEGRADED FAILURE , 2004 .

[12]  D. Cox The analysis of non-Markovian stochastic processes by the inclusion of supplementary variables , 1955, Mathematical Proceedings of the Cambridge Philosophical Society.

[13]  Mangey Ram,et al.  AVAILABILITY AND COST ANALYSIS OF A PARALLEL REDUNDANT COMPLEX SYSTEM WITH TWO TYPES OF FAILURE UNDER PREEMPTIVE-RESUME REPAIR DISCIPLINE USING GUMBEL-HOUGAARD FAMILY COPULA IN REPAIR , 2008 .

[14]  A. Bendell,et al.  Optimum component switching for systems that operate and idle , 1984 .

[15]  P. P. Gupta,et al.  Reliability and M.T.T.F. evaluation of a two duplex-unit standby system with two types of repair , 1993 .

[16]  Nicolas Brunel,et al.  Modeling and Unsupervised Classification of Multivariate Hidden Markov Chains With Copulas , 2010, IEEE Transactions on Automatic Control.

[17]  Soumaya Yacout,et al.  Evaluating the Reliability Function and the Mean Residual Life for Equipment With Unobservable States , 2010, IEEE Transactions on Reliability.

[18]  Mangey Ram,et al.  ANALYSIS OF THE RELIABILITY OF A THREE-COMPONENT SYSTEM WITH TWO REPAIRMEN , 2011 .

[19]  D. K. Rawal,et al.  Availability, MTTF and Cost analysis of complex system under Preemptive resume repair policy using copula distribution , 2014 .

[20]  Madhu Jain,et al.  MAINTENANCE COST ANALYSIS FOR REPLACEMENT MODEL WITH PERFECT/MINIMAL REPAIR , 2002 .