Assessment of Reliability Allocation for a Component in Standby Redundancy Propulsion System

:- In this manuscript, we analyses that the critical factors to take into account are constructing a reliable system and reliability allocation for components. Standby redundancy provides higher dependability for any system, but active redundancy is easier to model. The standby arrangement's reliability analysis is somewhat more reliable than that of the parallel running units. On the other hand, their typical interval between failures is significantly longer, and one or more units are operating; in standby arrangements, failure detection is typically needed to activate the next unit when the first fails. One or more units are operational when the sensing device's reliability falls below 100%, as it more frequently does in this scenario. So, one effective way to extend the life of a system is to assign redundant components to it and also analyze the reliability, failure rate, and failure density functions at different points in time of a component with related hazard rate and inverted hazard rate orders established, and also discusses the components and redundancies follow a general lifetime distribution.