ISSN 1608-4039 (Print)
ISSN 1680-9505 (Online)


anthraquinones

Development of a hybrid flow battery layout based on the derivatives of quinones and anthraquinones in alkaline solutions

Practical interest in redox flow batteries (RFB) has arisen in recent decades due to the intensive development of alternative energy (such as solar and wind) and the regulation of peak loads in industrial electrical networks. It turns out that large-scale energy storage devices to compensate for fluctuations in solar and wind energy generation and to reduce peak loads in industrial electrical networks and power supply systems for large households are more profitable when redox flow batteries are used.

Flow batteries based on organic redox-systems for large-scale electric energy storage

Redox flow battery technology has been known since the 1970s. Their low specific characteristics have been of interest for a long time. Practical interest has arisen in recent decades because of the intensive development of alternative energy (such as solar and wind) and the regulation of peak loads in industrial networks.

Electrochemical properties of quinones, antraquinones and their derivatives – potential redox-systems for flow batteries

Practical interest in redox flow batteries has arisen in recent decades as a result of intensive development in the field of alternative energy (such as solar and wind) and the control of peak loads in industrial electrical networks. It turned out that large-scale energy storage systems used to compensate fluctuations in the process of solar and wind generation of energy in the production of electric vehicles and power supply systems for large households, are more profitable when working on redox flow batteries.