Hassan Monsef
University of Tehran
85 Papers
499 Citations
Hassan Monsef is an academic researcher from University of Tehran. The author has contributed to research in topics: Electric power system & Computer science. The author has an hindex of 25, co-authored 85 publications.
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Papers
Optimal Smart Home Energy Management Considering Energy Saving and a Comfortable Lifestyle
TL;DR: A multiobjective mixed integer nonlinear programming model is developed for optimal energy use in a smart home, considering a meaningful balance between energy saving and a comfortable lifestyle.
432
An Optimal Frequency Control Method Through a Dynamic Load Frequency Control (LFC) Model Incorporating Wind Farm
TL;DR: A novel model to control the frequency of the wind farm connected to conventional units is presented and the defined frequency control parameters are optimized based on a multiobjective function using particle swarm optimization algorithm.
160
Coordination strategies of distributed energy resources including FESS, DEG, FC and WTG in load frequency control (LFC) scheme of hybrid isolated micro-grid
TL;DR: The simulation results depict that renewable energy resources have the capability to improve frequency excursion during various operating conditions if comprehensive small-signal dynamic models for RESs are introduced in isolated micro-grid and proper contribution of them in load frequency control studies is considered.
159
A new self-scheduling strategy for integrated operation of wind and pumped-storage power plants in power markets
TL;DR: In this paper, a self-scheduling strategy for increasing the profits of wind resources is proposed, where a Generation Company (GenCo), who owns both wind and pumped-storage plants, selfschedules the integrated operation of them regarding the uncertainty of wind power generation.
135
Integrated distribution network expansion planning incorporating distributed generation considering uncertainties, reliability, and operational conditions
TL;DR: In this article, an integrated methodology is proposed for distribution network expansion planning which considers most of the planning alternatives, including the uncertainties related to renewable DGs, load demand, and energy price have been considered in the calculation of cost components.
130