Tri-Generation from Biogas
The National Fuel Cell Research Center (NFCRC) is demonstrating the first-in-the-world high temperature fuel cell Tri-Generation system at the Orange County Sanitation District (OCSD) through a public/private partnership. The system, which is fueled on biogas derived from wastewater treatment, simultaneously produces electricity, heat, and hydrogen fuel. The installation is also coupled with a hydrogen fueling dispenser which is today used to refuel fuel cell vehicles with bio-hydrogen. Tri-Generation technology was first conceived at the NFCRC in 2002 and then developed further through research and collaboration with Air Products & Chemicals, Inc. and FuelCell Energy, Inc., eventually leading to the current demonstration at the Orange County Sanitation District. The partners involved in the program include Air Products and Chemicals, FuelCell Energy, the U.S. Department of Energy, the California Air Resources Board, South Coast Air Quality Management District, and the Southern California Gas Company.
The Schematic below describes how the concept for a Tri-Generation system could
be integrating into a hydrogen fueling station. Most hydrogen fueling stations
today, including the UC Irvine hydrogen station shown below, are supplied with
hydrogen that is produced in a central plant and then delivered.
Above is a picture of the UC Irvine hydrogen fueling station, managed by
the National Fuel Cell Research Center (NFCRC). It is currently the busiest
hydrogen station in the world, serving about 50 cars operating in the region.
Currently, hydrogen is produced off site and delivered to the fueling station.
A schematic is inserted to show how hydrogen could be produced on site through
the use of a Tri-generation system. The system would simultaneously produce
electricity and heat for nearby buildings and homes.
At a typical wastewater treatment plant, biogas is produced and simply combusted in a boiler to provide heat for the wastewater treatment operations. At the OCSD, the biogas is fed to a high temperature fuel cell that uses the novel Tri-Generation system to simultaneously produce renewable electricity and heat to support wastewater treatment operations, as well as hydrogen to refuel hydrogen powered vehicles.
This schematic shows a typical wastewater treatment process. The sludge
collected at a central facility is headed and anaerobically digested to produce
a methane-rich gas. That bio-methane is burned in a boiler to produce heat that
sustains the process.
At the Orange County Sanitation District, a high temperature fuel cell system is
integrated into the wastewater treatment process to produce the electricity, and
heat for plant operations.
In addition to those two products, the high temperature fuel cell is producing a
third product – renewable hydrogen – which is being used to refuel hydrogen
The first real-world demonstration of this system went into operation on August 16th 2011, operating off of renewable digester gas from the wastewater treatment process at the orange county sanitation district. The NFCRC is one of the principal partners along with the technology providers.