02179nam 2200397 450 99657498220331620231205170135.01-5044-8775-3(IEEE)9905544(CKB)25047741600041(NjHacI)9925047741600041(EXLCZ)992504774160004120231205d2022 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrier"2781-2022 - IEEE Guide for Load Modeling and Simulations for Power Systems" /IEEENew York :IEEE,2022.©20221 online resource (88 pages)Load modeling plays an important role in power system modeling, and the load model is an indispensable component in power system simulation. To get accurate load models and formulate a unified document, this guide has been developed to provide comprehensive policies and procedures of load modeling and simulations. A review and comparison of the two most widely used methodologies for load modeling is presented in this document, that is, the measurement based and component-based approaches. A critical and updated overview of opportunities and challenges of load modeling with emerging networks and components is also provided. The guidelines for power system simulation with a variety of load models are proposed. A case study adhering to the proposed guidelines clearly indicates the need for a hybrid approach in the future that will combine the strengths of the measurement-based and component-based approaches with the data acquisition capabilities offered by modern measurement equipment.Microgrids (Smart power grids)Electric power distributionPower electronicsMicrogrids (Smart power grids)Electric power distribution.Power electronics.621.31NjHacINjHaclDOCUMENT996574982203316"2781-2022 - IEEE Guide for Load Modeling and Simulations for Power Systems"3881759UNISA