Reinforcement learning based adaptive power pinch analysis for energy management of stand-alone hybrid energy storage systems considering uncertainty

Author:

Nyong-Bassey Bassey Etim,Giaouris Damian,Patsios Charalampos,Papadopoulou Simira,Papadopoulos Athanasios I.ORCID,Walker Sara,Voutetakis Spyros,Seferlis Panos,Gadoue Shady

Funder

Petroleum Technology Development Fund Nigeria

Publisher

Elsevier BV

Subject

General Energy,Pollution,Mechanical Engineering,Building and Construction,Electrical and Electronic Engineering,Industrial and Manufacturing Engineering,Civil and Structural Engineering

Reference80 articles.

1. A summary of optimal methods for the planning of stand-alone microgrid system;Qiao;Energy Power Eng,2013

2. Parallel operation of wind turbine, fuel cell, and diesel generation sources;Muljadi,2004

3. Options for off-grid electrification in the kingdom of Bhutan;Dorji;Renew Energy,2012

4. Generation unit sizing and cost analysis for stand-alone wind, photovoltaic, and hybrid wind/PV systems;Kellogg;IEEE Trans Energy Convers,1998

5. A power grand composite curves approach for analysis and adaptive operation of renewable energy smart grids;Giaouris;Clean Technol Environ Policy,2015

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