THE FUTURE OF
ENERGY STORAGE
Discover the green transformation experience with ReEnergiX
VISION
We’re Changing the Way the World Thinks About Green Energy
ReEnergiX is focused on creating an ecosystem that integrates cutting-edge energy storage solutions in the green economy and makes a sustainable contribution to society.
SERVICES
We Deliver Exceptional Products and Services Offering Long Duration Energy Storage
Vanadium Redox Flow Batteries (VRFBs)
The vanadium redox flow battery (VRFB) is considered to be a milestone in the history of regenerative energy management, well suited to many sustainable energy applications. Whether in combination with solar photovoltaic, wind power, biogas generators or in parallel operation – the VRFB ensures uninterrupted power supply.
Long-Duration Electrochemical Energy Storage System
VRFB is an electrochemical energy storage system that converts chemical to electrical energy. Energy is stored chemically in different ionic forms of vanadium in an electrolyte. The reaction is reversible, and the electrolyte never wears out, allowing the battery to be charged, discharged and recharged a nearly infinite number of times.
REX Smart Energy Applications
Our VRFB system will be widely used to stabilize the power grids and unlock the full potential of renewables. We will create a unique networked ecosystem providing solution combines hardware and software integrated green transformation into one offering that provides reliability and ease of use for global clients.
WHY REENERGIX
A different approach, using a new method of manufacturing.
We aim develop the best solution of energy storage systems. Our team has extensive experience in terms of modular design and utility-grade production capacity. ReEnergiX outperforms other flow battery competitors in the fields of round-trip efficiency and energy density.
Product In Numbers
>20,000
CHARGE-DISCARGE CYCLES
80-85%
ROUND-TRIP
EFFICIENCY
>25
YEARS
LIFE CYCLE
>97%
ELECTROLYTES
COLLECTABLE
INDUSTRY
Our Research
Partners
ReEnergiX partner with leading higher education institutions and research organizations to tackle major challenges of VRFBs, including energy density and round-trip efficiency.