Independent board with range of expertise.
Building the sustainable energy storage supply chain.
Partners, consultants memberships
Proven record of operational experience.
Vanadium mining & energy expertise.
Principles of honesty, integrity and ethics.
Disruptive Technology for Energy Storage to Steel Production
Progress of global deployment targeting cashflow and commercialization (Optioning, Licensing, Royalties and more)
Vanadium, Iron and Titanium recovered from Multiple Sources Efficiently and Sustainably
Development VTM Resource with 22.5km Geophysical Footprint
Former Crown Asset With Over 60yrs of Development next to Blackrock Metals Proposed VTM Mine and Concentrator
Copper Gold Exploration Projects and Royalties Available For Option or Sale
The Future of Sustainable Energy
Reusable and Lowest Cost Battery Electrolyte without Carbon
Current Demand and Price for Vanadium
Our latest press releases
Latest Vanadium Industry Developments
Sustainable Energy, Development, and Innovation
Conventional & Emerging Applications
VRB Stock Fundamentals
General Investment Information
Frequently asked Questions and Terminology
Extensive Compendium of most Relevant Research
Corporate Presentations & Global Directory
By Dallon Adams — Updated June 20, 2017 6:33 am
China has announced that the largest floating photovoltaic (PV) facility on earth has finally been completed and connected to the local power grid. Long reviled for its carbon emission record, this is the Chinese government’s latest achievement in its ongoing effort to lead the world in renewable energy adoption.
Located in the city of Huainan in the Anhui province, the 40-megawatt facility was created by PV inverter manufacturer Sungrow Power Supply Co. Ironically, the floating grid itself was constructed over a flooded former coal-mining region.
Floating solar farms are becoming increasingly popular around the world because their unique design addresses multiple efficiency and city planning issues. These floating apparatuses free up land in more populated areas and also reduce water evaporation. The cooler air at the surface also helps to minimize the risk of solar cell performance atrophy, which is often related to long-term exposure to warmer temperatures.
This is just the first of many solar energy operations popping up around China. In 2016, the country unveiled a similar 20MW floating facility in the same area. China is also home to the Longyangxia Dam Solar Park, a massive 10-square-mile, land-based facility touted as the largest solar power plant on earth.
This transition to solar is in large part due to the rapidly plummeting cost of the technology itself. By 2020, China could reduce prices offered to PV developers by more than a third with solar power plants projected to rival coal facilities. The nation has also announced plans to increase its use of non-fissile fuel energy sources by 20 percent.
That said, the U.S. is no slouch when it comes to power innovation. The University of Texas professor who pioneered the lithium-ion battery technology recently pushed the envelope on batteries again, and wireless chargers from California’s Energous beam electricity like a modern-day Tesla coil. (Their first home transmitter could be approved by the FCC within “weeks,” reps told Digital Trends in June.) Meanwhile, Immotor’s green “Super Battery” may be the smartest battery every released.
An annual report released by NASA and NOAA determined that 2016 was the warmest year on record globally, marking the third year in a row in which a new record was set for global average surface temperatures. That said, if we as a species hope to reverse this dire trend, initiatives like this and others will need to be adopted around the globe. And small changes at home may help: Solar chargers for your smartphone are just one way to reduce your dependence on fossil fuels.