Eco Energy Micro Grid Solutions

Eco H2: Powering the Future!
Cost Effective, Eco-Friendly Hydrogen Production

eco h2


• The demand for merchant market hydrogen (H2) is expected to grow twenty-fold by the year 2030.
• States like California are now requiring that upwards of 33% of all H2 must be produced from renewable sources.
• Eco H2 bio reformation produces hydrogen from renewables and:
  • - can produce hydrogen competitive to large scale reformers
  • - is modular and scalable to meet almost any demand
  • - can be located near end use reducing transportation costs
  • - sequesters all carbon resulting in a negative carbon footprint
  • - byproduct carbonate can be sold, landfilled or recycled
  • - can use solid, gaseous and liquid renewable feedstocks
• Utilizing Municipal Solid Waste (MSW) and/or Biogas to make H2 reduces waste disposal issues while producing H2 at a lower cost compared to traditional methods.

 

Hydrogen Market Market Forces & Forecast


• Historically, the hydrogen energy market has been centered on
the petroleum refinery and chemical manufacturing sectors. 
    
• “Increased energy demand, requirements to use renewable
energy, growth in the cleantech backup power market, and the
deployment of a growing number of fuel cell-powered vehicles
in the transport sector will all push overall demand for hydrogen
as a fuel to unprecedented levels.”
-Kerry-Ann Adamson,  Navigant
   
• According to a recent report from Navigant Research, hydrogen
consumption for non-traditional applications (outside the
petroleum and chemical sectors) will grow from 168 million kilograms in 2013 to nearly 3.5 billion kilograms in 2030.
   
• States are starting to mandate that 33% of all H2 production be from renewable sources: commonly called “green” hydrogen
   
• Today most of the hydrogen is produced using Steam Methane
Reformers (SMR) which use non-renewable natural gas as the
feedstock: that is why it is referred to as “brown” hydrogen
   
• SMR technology produces large amounts of CO2 (greenhouse
gas) as a by-product
    
• SMRs must be large, centralized plants to be economical resulting
in high transportation costs to the merchant market
    
• Navigant Research forecasts a 20 fold increase in the H2 merchant market to $50 billion by 2030 with stationary fuel cells, fuel cell vehicles and energy storage being major contributors

Introducing Base Facilitated Reformation (BFR)


process flow• We have developed the eco-friendly reformation process to produce
high purity hydrogen from a wide variety of renewable feedstocks:
thus it is considered “green” hydrogen
   
• The BFR process has no greenhouse gas emissions (no CO or
CO2 released into the atmosphere) making it even more eco-friendly
   
• The BFR process is modular and scalable allowing hydrogen
production near the point of use, minimizing transportation costs
    
• BFR delivered hydrogen costs to the end customer are far less than
traditional merchant hydrogen

Examples of Base Facilitated Reformation

“Landfill Gas to Hydrogen”


1800 kg/day Bio Reformation module (on the left) is producing the equivalent of 1 Megawatt of power per day. Bio Gas / Landfill Gas to Hydrogen Production Facility

Containerized Hydrogen Reformation System


Scalable from 100 kg to 2000 kg of H2 per day per module – equivalent to 1.15 megawatts of power Multiple modules can operate in parallel for greater capacity.
eco h2

Information Inquiry

Contact Us for Free Quotes or Info!

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Contact ETI by mail at:
Energy Technologies, Inc.
219 Park Avenue East
Mansfield, OH 44902-1845
USA

Contact ETI by phone or fax:
Voice: 419-522-4444
FAX: 419-522-4466