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

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 converg… Show more

“…There is a high demand for the generation and transmission of electric energy during the use of electric energy. With the development of society, the demand for electric power is increasing, and electric power reflects the social economic situation more and more [3][4][5]. Accurate and simple prediction of power quality is a major issue faced by power companies at present.…”

Annual Contribution Electricity Forecasting Model Based on Logistic Regression Analysis

“…There is a high demand for the generation and transmission of electric energy during the use of electric energy. With the development of society, the demand for electric power is increasing, and electric power reflects the social economic situation more and more [3][4][5]. Accurate and simple prediction of power quality is a major issue faced by power companies at present.…”

Annual Contribution Electricity Forecasting Model Based on Logistic Regression Analysis

Online coal consumption characteristics fitting for daily economic dispatch using a data-driven hybrid sequential model

Economy-carbon coordination in integrated energy systems: Optimal dispatch and sensitivity analysis