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A variant of Newton–Raphson method with third‐order convergence for energy flow calculation of the integrated electric power and natural gas system

Jiehui Zheng, Chang-Hong Wu, Kaishun Xiahou, Zhigang Li, Qinghua Wu

2021IET Generation Transmission & Distribution11 citationsDOIOpen Access PDF

Abstract

Abstract The energy flow calculation of the integrated electric power and natural gas system (IEGS) is generally tackled by the classical Newton–Raphson (NR) method with second‐order convergence. However, this method may fail to converge or incur oscillating iterations leading to heavy computation burden if the initial point is not selected properly, especially in heterogenous integrated energy systems containing the natural gas system. To handle this problem, a variant of Newton–Raphson method with third‐order convergence is proposed, which needs one function and two derivative evaluations per iteration without increasing the number of derivative evaluations. In order to verify the effectiveness of the proposed method, simulation studies are carried out on several different cases for the energy flow calculation of IEGS. Experiment results reveal that the proposed method is superior to the classical Newton–Raphson method and its other variants in terms of computational efficiency.

Topics & Concepts

Convergence (economics)Newton's methodPower flowEnergy (signal processing)Energy flowFlow (mathematics)Order (exchange)Power (physics)Electric power systemMathematical optimizationNatural gasElectric powerComputer scienceElectric energyApplied mathematicsMathematicsMechanicsPhysicsEngineeringThermodynamicsEconomicsFinanceQuantum mechanicsNonlinear systemStatisticsEconomic growthWaste managementIntegrated Energy Systems OptimizationAdvanced Numerical Methods in Computational MathematicsNuclear reactor physics and engineering