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VanadiumCorp and CENELEST Testing Next Generation Electrolyte for Vanadium Redox Flow Batteries for Mobile Applications

08.12.2020  |  GlobeNewswire

VANCOUVER, Dec. 08, 2020 - VanadiumCorp Resource Inc. (TSX VENTURE:"VRB") (OTCBB:"APAFF") (FRANKFURT:"NWN") (the "Company") is pleased to announce the extensive testing of vanadium bromide “V-Br” electrolyte for VanadiumCorp by CENELEST, the German-Australian Alliance for Electrochemical Technologies for Storage of Renewable Energy. The testing is part of the tri-lateral (CENELEST-VanadiumCorp) project focused on achieving a higher energy density vanadium electrolyte and successful operation in an advanced vanadium redox flow battery cell.

CENELEST research and development for this project was and is performed at both the University of New South Wales “UNSW” Sydney, Australia and Fraunhofer Institute for Chemical Technology “ICT” in Germany, Europe. All three parties contributed technologies and several provisions for the V-Br electrolyte project. V-Br electrolyte represents the potential for a revolutionary advancement in the vanadium flow battery that could enable safe and long-life “zero emission” electrochemical energy for mobile applications (heavy duty vehicles, trains, ships, and many others) that require higher energy density battery systems only previously possible with lithium-ion.

VanadiumCorp-CENELEST conducted work in 2020 includes V-Br electrolyte formulation, electrolyte physicochemical properties characterization, cell component material selection and cell performance testing. VanadiumCorp will showcase advances made on the electrolyte and vanadium cell in Q1, 2021. The V-Br work follows the pioneering research UNSW Engineering has conducted since the 1980s on vanadium flow battery systems, which was led by their creator Emeritus Professor Maria Skyllas-Kazacos who is also an Advisory Board member of VanadiumCorp since 2011.

A higher energy density V-Br electrolyte and advancements in stack architecture could represent two to three times (2 to 3X) the energy stored and made available by a conventional VRFB. The implications for global sustainability and various industries transitioning to zero emissions is a potential game-changer.

Adriaan Bakker, Chief Executive Officer of VanadiumCorp, “We are at the forefront of VRFB innovation with CENELEST that could facilitate the electrification of both stationary and mobile applications. Vanadium is the only renewable metal in energy storage, and we plan to produce it with our 100% owned green technology as green fuel in energy storage that can be scaled to any size.”

About CENELEST - The German-Australian Alliance for Electrochemical Technologies for the Storage of Renewable Energy

The constantly increasing proportion of renewable energy supplied to the grid means that energy storage systems are becoming increasingly important. Until now, very few energy storage technologies have been able to reach the required levels of technical maturity at competitive costs, especially in the area of electricity storage. Since 2017 the Fraunhofer Institute for Chemical Technology (ICT) and the University of New South Wales (UNSW) are working closely together as an alliance to intensify research activities in the field of electrochemical energy storage systems and to establish a joint international research center for stationary energy storage (CENELEST) at UNSW in Sydney, Australia.

This cooperation aims to strengthen the world-class expertise in redox flow batteries, and concurrently develop other types of batteries and fuel cells in order to cover the entire range of electrochemical energy storage needs. Through the exchange of already existing extensive knowledge, advanced modern equipment and research networks, topics can be tackled more efficiently than would be possible with the partners acting individually. Within the framework of this process, common research preferences have been established and started at an early stage. These activities are continuously being developed through the exchange of researchers and students between institutions. This allows innovative research with additional topics on the economic operation of energy storage solutions to be taken into account both in general and in connection with renewable energy networks. In the context of linking fundamental research (UNSW: simulation, materials, heat transfer, rapid prototyping, chemistry) and applied research (Fraunhofer ICT: electrochemistry, cells, systems, production) the work is not only focused on scientific competences, but also on the requirements of industry. This provides industry easier access to the extensive capabilities of both institutions. In addition to the core competencies, this also allows for an in-depth analysis of interdisciplinary issues, e. g. together with the areas of weather forecasting, control systems, grid integration, as well as social aspects, safety and life cycle assessment.

The Fraunhofer Institute for Chemical Technology (ICT) and the University of New South Wales (UNSW) are working closely together as an alliance to intensify research activities in the field of electrochemical energy storage systems and to establish a joint international research center for stationary energy storage (CENELEST) at UNSW in Sydney, Australia. The aim of this cooperation is to strengthen the world-class expertise in redox flow batteries, and concurrently develop other types of batteries and fuel cells in order to cover the entire range of electrochemical energy storage needs for renewable energy.

About VanadiumCorp

The Company is focused on the commercial development of its 100% owned VanadiumCorp-Electrochem Process Technology “VEPT”, a green and efficient chemical process invented by Dr. Francois Cardarelli, that addresses the recovery of vanadium, iron, titanium, and silica from feedstocks such as vanadiferous titano-magnetite, iron ores and other industrial by-products containing vanadium. Furthermore, VanadiumCorp’s mandate is to become a strategic supplier of renewable, Next Generation vanadium electrolyte for redox flow batteries and other high purity applications that benefit most from exclusively green and cost-effective vanadium. VanadiumCorp Resource Inc. plans to license VEPT globally and integrate VEPT into the development of the 100% owned Lac Dor? vanadium-titanium-iron flagship project adjacent to Blackrock Metals Inc.’s property, which is currently permitted to build a mine and mill to produce a vanadium-rich magnetite concentrate product. VanadiumCorp provides investors with leverage to vanadium, titanium and iron in the mining-friendly and geopolitically stable jurisdiction of Qu?bec, Canada. Green recovery technology, primary vanadium resource size, superior grades, and well-developed infrastructure, puts VanadiumCorp in a valuable strategic position to take advantage of the strong vanadium market driven by supply shortages and growing demand from the Chinese and global steel industries, as well as the fast-emerging renewable use of vanadium in sustainable energy storage for stationary to unlimited scale applications. Nearby infrastructure at Lac Dore includes a 161kV Hydro Power at approximately $.02 kWh, CN Rail Line, available water, local airport, and a mining community of over 7,000 people in the city of Chibougamau.

On behalf of the board of VanadiumCorp:

Adriaan Bakker

President and Chief Executive Officer

For more information:

Adriaan Bakker,
President and CEO, VanadiumCorp Resource Inc. (TSX-V: “VRB”)
By phone: 604-385-4489
By email: info@vanadiumcorp.com
Website: www.vanadiumcorp.com

Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.

Cautionary Note - The information in this news release includes certain "forward-looking statements" All statements, other than statements of historical fact, included herein including, without limitation, plans for and intentions with respect to the company's properties, statements regarding intentions with respect to obligations due for various projects, strategic alternatives, quantity of resources or reserves, timing of permitting, construction and production and other milestones, are forward-looking statements. Statements concerning Mineral Reserves and Mineral Resources are also forward-looking statements in that they reflect an assessment, based on certain assumptions, of the mineralization that would be encountered and mining results if the project were developed and mined in the manner described. Mineral resources that are not mineral reserves do not have demonstrated economic viability. Forward-looking statements involve various risks and uncertainties. There can be no assurance that such statements will prove to be accurate, and actual results and future events could differ materially from those anticipated in such statements. Important factors that could cause actual results to differ materially from VRB's expectations include the uncertainties involving the need for additional financing to explore and develop properties and availability of financing in the debt and capital markets; uncertainties involved in the interpretation of drilling results and geological tests and the estimation of reserves and resources; the need for cooperation of government agencies and local groups in the exploration, and development of properties; and the need to obtain permits and governmental approval. VRB's forward-looking statements reflect the beliefs, opinions and projections of management on the date the statements are made. VRB assumes no obligation to update the forward looking statements if management's beliefs, opinions, projections, or other factors should they change.



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