NOT ALL RENEWABLE ENERGY RESOURCES
ARE CREATED EQUAL!
FFNRG's Regenerative Non-Depleting
Renewable Solid Fuel "RNDR"
is formulated from targeted,
previously unrecyclable waste streams
carefully blended with our foundational
carbon base.
Our thermal-chemical
carbon capture and
sequestration process
positions the RNDR solid fuel as
the true sustainable balance to
current natural
energy resources.
FFNRG's RNDR Fuel tm consumes waste, it doesn't leave it behind.
Our Story, Mission and Plan
FFNRG campuses are dedicated to the production of a dynamic solid fuel for use in power generation utilizing specific waste streams that cannot otherwise be useful or recycled.
The proprietary FFNRG fuel will supplement, transition or convert existing coal burning facilities, biomass boilers and co-gens.
It will also be the exclusive fuel energizing new
FFNRG/Fortify projects.
Developed as an innovative 3 POD/module project, each FFNRG module can be a stand-alone unit or part of our 3 POD Fortify™ energy island that includes:
• Fuel Decarbonization, capture, sequester and production of the FFNRG high energy fuel.
• Micro Grid Co-Generation Plant for on-site energy dedication and use.
• Fortified Space for secure, disaster prepared and protected use for:
• Data Center Campus.
• 911 Call Centers and Emergency Operation
• Other clients or agencies requiring protection against risk of natural disaster destruction.
The Fuel: Safe, Clean, Reliable & Renewable Energy 100% produced from non-depleting waste resources.
The experienced FFNRG team has developed WtE01, an extruded solid biofuel boasting a higher energy density with considerably more calorific value than biomass chips or a
traditional wood pellet fuel.
Through the proprietary process, there are certified and dedicated waste streams currently considered non-recoverable and in need of second life solutions. These waste streams include woody biomass, agricultural, cellulosic and man-made materials deemed too difficult and toxic to recycle. FFNRG can combine them however, to create a hydrophobic extruded fuel that does not require special storage or handling requirements.
This allows storage of fuel rather than
storage of energy, therefore
mitigating risk of downtime or supply issues. The raw materials from these waste
streams are pretreated using a proprietary process that sequesters carbon and converts it to high value next life products.
Through the decarbonizing process, the fuel and subsequent energy created
qualifies as a complete
life cycle green energy source.
Environmental
The FFNRG RNDR solid fuel process includes a pretreatment of the infeed
waste material using a
low-temperature chemical-thermal optimization technology that is compliant with USEPA, USDA and US DOJ.
The FFNRG carbon mitigation plan includes an integrated CO2/Carbon Oxide conversion system providing the ability to achieve carbon negative status due to carbon oxide capture, sequestration and utilization. This pretreatment positively impacts the reduction of CO2 in production and in use.
Our first two projects are shovel ready. These projects will produce more than 150,000 Ton of FFNRG power fuel and in doing so, consume more than 250,000 Ton of unrecyclable waste while diverting same from landfilling.
The
FFNRG projects are legitimate carbon mitigating projects and truly worthy of the substantial credit(s) they deserve.
Safe, Clean, Reliable & Non-Depleting Source of Energy
Fortify Space
The impact of natural and
man-made disasters are life changing.
In mere moments, entire populations are consumed and transformed as a consequence.
The shock and extent a disaster has on our lives depends on the speed and efficiency
of government and business to respond quickly.
Communities and businesses invest hundreds of millions of dollars annually on disaster recovery planning and solutions.
Good plans supported by effective and tested solutions can save lives,
money and minimize disruption.
We propose to utilize technology previously available only to DOD or DOE. Safety and recovery solutions that are consistently reliable and functional for all disaster recovery, consistent and
reliable all of the time.
FFNRG Fortify offers space for three key components:
1. Campus of secure data centers or other
critical use tenants.
2. Space for production of, clean, green, RNDR Fuel.
3. CHP Cogeneration Plant that converts the
RNDR fuel to electrical energy providing the power to fuel and cool the data center campus.
Fuel Production
We have the ability to replicate the power of coal with an abundant, waste stream source. The FFNRG waste to energy RNDR solid fuel generates less than 1% ash with extremely low emissions. RNDR fuel outperform purely cellulosic fuel in significant ways: 80% less emissions with a burn rate (BTU) nearly double the output.
The RNDR fuel
fires at 11,000+ BTU.
Numerous community power sources and international companies have committed to convert to sustainable or green energy within just a few years. Likewise, many are in need of a powerful and achievable solution to sustainable energy mandates.
RNDR fuel provides the ability to begin conversion from coal or lower BTU biomass within a year and can grow with the demands of the utility or customer.
RNDR fuel can be produced, stored for years and generate the high level of energy needed to fill energy demand safely and reliably in any community.
CHP and Micro Grid
Manageable 5- 15MW micro plants housed in the FFNRG Fortify engineered structure.
FFNRG’s renewable energy produces low emission, water resistant, high heat fuel that burns at a consistent 11,000 BTUs per pound. The RNDR fuel is converted into electricity to serve the Fortify facility onsite power and chilled water requirements.
•Smaller footprint, manageable operations that are protected from natural disasters providing a faster recovery for the businesses and communities supplied.
•Creates a safety net for government and businesses delivering functionality during an emergency previously unavailable.
•Provides supplemental energy options to businesses who have capped the power available from the current power grid or wish to utilize smaller, secure, energy independent facilities for selective backup of data.
