Control structure design for complex energy integrated networks using graph-theoretic methods

Abstract: In this paper, we propose a mixed integer program (MIP) formulation which can be used to synthesize multi-loop hierarchical control structures for tightly energy integrated plants, which are known to exhibit multiple-time scale energy dynamics. First, we represent the network as an energy flow graph, and perform graph reduction using graph-theoretic algorithms that we have previously developed, to analyze the time scale properties of the network and obtain energy flow subgraphs for each time scale. Then, from … Show more

“…Based on this information, a hierarchical control strategy can be used to control the energy dynamics of the network. For example, it was shown that the energy dynamics of the HDA network can be controlled using simple PI controllers, addressing different control objectives in different time scales as summarized in Table . Also, the reduced models derived above can be used to design nonlinear model‐based controllers.…”

Graph reduction of complex energy‐integrated networks: Process systems applications

“…Based on this information, a hierarchical control strategy can be used to control the energy dynamics of the network. For example, it was shown that the energy dynamics of the HDA network can be controlled using simple PI controllers, addressing different control objectives in different time scales as summarized in Table . Also, the reduced models derived above can be used to design nonlinear model‐based controllers.…”

Graph reduction of complex energy‐integrated networks: Process systems applications