This paper proposes a bi-level robust planning model to address the rational configuration of hydrogen energy system, accounting for impact wind power uncertainty in an integrated electricity–heat–hydrogen system (IEHHES) with increasing penetration. The upper-level problem aims determine capacity this whereas lower-level is formulated as two-stage optimization simulate typical daily operational scheme considering uncertain turbine output and on/off switching devices. considers multiple utilization modes physical characteristics various storage tanks. complex intractable directly. Therefore, initially decomposed into operation subproblems. These subproblems are then can be solved parallel using alternating direction method multipliers (ADMM) algorithm; subproblem, quadratic programming model, commercial solver; operating column constraint generation algorithm. Finally, case studies validate advantages effectiveness developed

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