Abstract
The development of a systematic digraph-based fault-tree synthesis procedure for complex ratio-control systems is presented. First, the feasibility of the established techniques in handling the single-NFBL (NFBL=negative feedback loop) ratio-control systems is verified with an example. Next, the digraph structure of systems with multiple NFBLs is described and analyzed in detail. On the basis of qualitative simulation of the fault propagation patterns, the corresponding generalized fault-tree structures are then established. It can be observed clearly from the results of steady-state analysis that none of the existing procedures are capable of producing the correct fault trees for the more complex ratio-control systems. Also, to demonstrate the effectiveness of the technique, successful application of the proposed structure to a caprolactam reaction process is shown. Finally, the resulting fault tree is compared with one obtained from a single-NFBL system and the trade-off between the two in terms of system safety is assessed accordingly
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