Specific areas of interest include, but are not limited to: biological, thermochemical, or thermocatalytic routes for the conversion of lignocellulosic biomass to advanced biofuels beyond cellulosic ethanol;
microbial fuel cells for direct production of electricity from renewable carbon sources; hydrogen production from autotrophic or heterotrophic microorganisms; hydrocarbons and lipids from phototrophic or heterotrophic microorganisms.
There are some other groups, including a team at the J. Craig Venter Institute, that are scaling pilots of
a microbial fuel cell for wastewater treatment.
Not exact matches
And Bristol University in the UK is working on underwater robots that generate electrical energy by foraging
for biomatter to feed a chain of
microbial fuel -
cell stomachs.
... Novel technologies
for recycling wastewater [like
microbial fuel cells].
A
microbial fuel cell,
for example, could generate electricity by capturing electrons from the bacteria on electrodes instead of the rocks that these organisms evolved to breathe.
Israel - based company, Emefcy, named as a play on the acronym
for microbial fuel cell (MFC), starts with the same principle as most wastewater treatment — water is aerated so bacteria in the liquid break down organic material in a closed series of containers known as a bioreactor.
Several methods can be employed to harvest it —
for example, engineers can extract methane through anaerobic (oxygen - free) digestion, or produce electricity using
microbial fuel cells.
An unconventional solution is now presented by Singaporean and Chinese scientists: as reported in the journal Angewandte Chemie, they coated live, electroactive bacteria with a conducting polymer and obtained a high - performance anode
for microbial fuel cells.
A tiny
microbial fuel cell,
for example, would be a natural starting point.
«Coating bacteria with electron - conducting polymer
for microbial fuel -
cells: Coating of individual bacterial
cells with an electron - conducting polymer provides
for a high - performance anode
for microbial fuel -
cell applications.»
A
microbial fuel cell — which generates power by feeding organic matter (which saliva has lots of) to bacteria, which, in turn, produce electrons — was a natural candidate
for their projects.
«The
microbial fuel cell could power lights
for a full - size tree — we just don't have the room
for that,» says Haluk Beyenal, associate professor in the Gene and Linda Voiland School of Chemical Engineering and Bioengineering.
Risk Assessment Form (3) Required
for projects using hazardous chemicals, activities or devices, and some PHBA's including protists, composting, coliform test kits, decomposition of vertebrate organisms and
microbial fuel cells and must be completed and signed by the DS or QS prior to student experimentation.
Maximilian Fremerey, Steven Weyrich, Danja Voges, Hartmut Witte Sub-millilitre
Microbial Fuel Cell power
for soft robots.
He used
Microbial Fuel Cells (MFCs) and found what design and conditions work best
for generating electricity.
These initiatives include efforts
for microbial fuel cells, advanced photovoltaics, biofuel, and wave power.
Right now, students and staff at the university are being asked to use the urinal to add «
fuel» to the
microbial fuel cell stacks, which are generating electricity
for indoor lighting at the student union.
For a long time scientists have been experimenting with microbial fuel cells and finding new applications for th
For a long time scientists have been experimenting with
microbial fuel cells and finding new applications
for th
for them.
«The
microbial fuel cells work by employing live microbes which feed on urine (
fuel)
for their own growth and maintenance.
For more information about
microbial fuel cells, green technologies and other related topics, check out these great links:
More on
Fuel Cells: TreeHugger Picks:
Fuel Cell Concepts
for Laptops Juicing Up Your
Cell Phone with
Microbial Fuel Cells
He and his team are also responsible
for paper origami batteries that run on the bacteria in dirty water as well as other unique uses of
microbial fuel cell technology.
However, even that can be avoided by using the wet biomass processes, hydrothermal liquification
for biodiesel or
microbial fuel -
cells for electricity,
for example.