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OKIsItJustMe

(19,933 posts)
Sat Jun 9, 2012, 11:42 AM Jun 2012

CER researchers demonstrated best performance reported for fuel cells operating directly on ethanol

http://cer.ucsd.edu/NEWS/FuelCell.shtml
[font face=Serif][font size=5]CER News:
CER researchers demonstrated best performance reported for fuel cells operating directly on ethanol[/font]

4 June 2012

[font size=3]CER researchers - Dr. Nguyen Minh of CER and his postdoctoral scholar Dr. Eric Armstrong (now with Intel) and undergraduate student intern Jae-Woo Park - recently demonstrated the best performance for solid oxide fuel cells (SOFCs) operating directly on ethanol without external reformation. A peak power density of more than 400 mW/cm[font size=1]2[/font] was achieved at 800°C with air and a fuel containing 7.3 volume % ethanol. This power density is about four times higher than any other SOFC reported in the literature operating directly on ethanol at 20 volume % or lower at the same temperature

The SOFC is an all-solid-state fuel cell consisting of an ionic conducting oxide electrolyte sandwiched between two electrodes, the cathode or oxygen electrode where oxygen (from air) is reduced and the anode or fuel electrode where hydrogen (from the fuel) is oxidized. This type of fuel cell operates in the temperature range of 600°-1000°C. At present, the most common SOFC materials are yttria stabilized zirconia (YSZ) (an oxygen ion conductor) for the electrolyte, strontium-doped lanthanum manganite perovskite oxide (LSM) for the cathode and nickel/YSZ composite for the anode. The attractive feature of the SOFC is its clean and efficient generation of electricity from a variety of fuels. Suitable fuels for the SOFC include hydrogen, natural gas, biogas, propane, gasoline, diesel, coal gas, and other practical fuels. The SOFC has been considered and developed for a broad spectrum of power generation applications, ranging from watt-size portable devices to multi-megawatt baseload power plants. In addition, the operation of the SOFC is reversible, i.e. the fuel cell can operate in reverse or electrolysis mode when integrated with an energy source. Thus, the SOFC can be used as an electrolysis cell to produce hydrogen from water or syngas (mixtures of hydrogen and carbon monoxide) from mixtures of water and carbon dioxide. A SOFC can operate efficiently in both operating modes is referred to as a reversible SOFC.

The SOFC has been shown to be capable of directly utilizing hydrocarbons and other fuels such as alcohols without external reformation. SOFC power systems based on direct utilization do not require an external reformer, thus simplifying the system, resulting in higher system efficiencies and reduced costs. Nickel in the anode, although an excellent catalyst for hydrogen oxidation, tends to promote coking. Therefore, for direct utilization of carbon-containing fuels, copper/ceria (Cu/CeO[font size=1]2[/font]) composites have been proposed and investigated. The copper/ceria composite is resistant to coking; however, its catalytic activity for hydrogen oxidation is much lower than that of Ni/YSZ. Thus, direct utilization of non-hydrogen fuels on copper/ceria often results in poor electrochemical performance. The approach at CER to address the electrochemical performance and coking issues to demonstrate the feasibility of direct utilization SOFCs (referred to as direct SOFCs) is to engineer the anode structure into a dual (bifunctional bilayer) anode. The engineered anode structure is composed of a Ni/YSZ support outer layer impregnated with Cu/ceria nanoparticles (see scanning electron microscopy or SEM photographs) to promote reformation and minimize coking and a thinner Ni-YSZ electroactive interlayer (next to the electrolyte) to maintain high electrochemical performance. The fabrication of SOFC cells incorporating this anode structure was straightforward. Cells with dual anode layers were first fabricated using the conventional materials and techniques (tape casting and sintering). The outer anode layer of fabricated cells was then impregnated with an aqueous solution of copper and cerium nitrates of appropriate weight ratios, followed by high temperature (850°C) annealing to form oxide nanoparticles. (Nickel and copper were formed as oxides in this case and the oxides were reduced to metal when fuel was introduced to the anode.)

This work was performed under the program funded by the California Energy Commission. The research on direct SOFCs on ethanol and other practical fuels at CER is an element of the broader effort to develop direct and reversible SOFCs (DR-SOFCs). The DR-SOFC potentially can serve as a basis for future energy systems as the technology has the desired characteristics of compatibility (compatible with the environment to support constraints on carbon dioxide and other emissions), flexibility (fuel flexible and flexible in using energy resources), capability (useful for different functions), adaptability (in meeting local energy needs, suitable for a variety of applications) and affordability (competitive in costs) (see the figure on characteristics of future energy systems).

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CER researchers demonstrated best performance reported for fuel cells operating directly on ethanol (Original Post) OKIsItJustMe Jun 2012 OP
800 C is very, very hot. longship Jun 2012 #1
Both OKIsItJustMe Jun 2012 #2

longship

(40,416 posts)
1. 800 C is very, very hot.
Sat Jun 9, 2012, 12:40 PM
Jun 2012

Above the melting point for a lot of materials. Does this temperature mean that the process is exothermic, that it gets hot by the process? Or does one have to heat it up for it to work?

Fuel cells are a very interesting technology. If we could solve the problems it would take us far down the road to carbon neutral future. I'd like to have a car run by a fuel cell that worked on ethanol.

Sorry, low bandwidth here, didn't click through.

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