Abstract
This research work presents a novel approach that addresses the concept of an adaptive power management system design and development framed in the Prognostics and Health Monitoring(PHM) perspective of an Electrical power Generation and distribution system(EPGS).PHM algorithms were developed to detect the health status of EPGS components which can accurately predict the failures and also able to calculate the Remaining Useful Life(RUL), and in many cases reconfigure for the identified system and subsystem faults. By introducing these approach on Electrical power Management system controller, we are gaining a few minutes lead time to failures with an accurate prediction horizon on critical systems and subsystems components that may introduce catastrophic secondary damages including loss of aircraft. The warning time on critical components and related system reconfiguration must permits safe return to landing as the minimum criteria and would enhance safety. A distributed architecture has been developed for the dynamic power management for electrical distribution system by which all the electrically supplied loads can be effectively controlled. The different failure modes were generated by injecting faults into the electrical power system using a fault injection mechanism. The data captured during these studies have been recorded to form a “Failure Database” for electrical system. A hardware in loop experimental study was carried out to validate the power management algorithm with FPGA-DSP controller. In order to meet the reliability requirements a Tri-redundant electrical power management system based on DSP and FPGA has been developed.
Highlights
The Electrical power Generation and distribution system (EPGS) is a key airframe system on any of modern aircraft
In the conventional IDG modelling both Permanent Magnet Generator (PMG) and Exciter Generator modelled as a constant voltage source which is not an effective method for studying the structural faults in EPGS System
The main generator is connected to the electrical system by using Generator Line Contactors (GLCs).Generator Control Unit (GCU)
Summary
The Electrical power Generation and distribution system (EPGS) is a key airframe system on any of modern aircraft. There has been research works happening on PHM of EPGS system and Power Management Based More Electric Aircraft Design. This research work aims at design and development of a PHM based Electrical Power Management which is based on PHM, variable priority Load scheduling and optimization of power capacity. These approach will reduce the Direct Operating Cost (DOC) which is largely depends on amount of fuel burned and maintenance cost in the civil aircraft. This research work is a novel approach in the design of fault tolerant power management design which combines PHM and MEA concept in a single platform
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