Estimating Recoverable Performance Degradation Rates and Optimizing Maintenance Scheduling

Abstract: Many of the components on a gas turbine are subject to fouling and degradation over time due to debris buildup. For example, axial compressors are susceptible to degradation as a result of debris buildup on compressor blades. Similarly, air-cooled lube oil heat exchangers incur degradation as a result of debris buildup in the cooling air passageways. In this paper, we develop a method for estimating the degradation rate of a given gas turbine component that experiences recoverable degradation due to normal ope… Show more

“…The main drawback of this approach is that the data-driven degradation rate lacks physical meaning. This may lead to unrealistic and un-physical results [7]. An example of this type of analysis is the work of Hanaki et al [6].…”

A strategy for the robust forecasting of gas turbine health subjected to fouling

“…The main drawback of this approach is that the data-driven degradation rate lacks physical meaning. This may lead to unrealistic and un-physical results [7]. An example of this type of analysis is the work of Hanaki et al [6].…”

A strategy for the robust forecasting of gas turbine health subjected to fouling

A Minimal Cardinality Solution to Fitting Sawtooth Piecewise-Linear Functions

A rigorous optimization method for long-term multi-stage investment planning: Integration of hydrogen into a decentralized multi-energy system