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Energy Capture from Thermolytic Solutions in Microbial Reverse-Electrodialysis Cells
by
Logan, Bruce E.
, Kim, Younggy
, Cusick, Roland D.
in
acetates
/ Alternative energy sources
/ Ammonium
/ ammonium bicarbonate
/ Anodes
/ Applied sciences
/ Bicarbonates - chemistry
/ Bioelectric Energy Sources
/ cathodes
/ Chemical oxygen demand
/ Coastal zone
/ coasts
/ Current density
/ Dialysis
/ Domestic wastewater
/ Electric power generation
/ Electric power plants
/ Electrical engineering. Electrical power engineering
/ Electrical power engineering
/ Electricity
/ Electrodes
/ Electrodialysis
/ Energy
/ Energy efficiency
/ Energy recovery
/ Energy sources
/ Energy. Thermal use of fuels
/ Exact sciences and technology
/ Exchange resins and membranes
/ Forms of application and semi-finished materials
/ Fuel cells
/ Fuel technology
/ Fuels
/ heat
/ Hot Temperature
/ Ion Exchange
/ ion-exchange membranes
/ Microorganisms
/ Miscellaneous
/ municipal wastewater
/ Organic matter
/ Oxidation-Reduction
/ P branes
/ Polymer industry, paints, wood
/ Rational use of energy: conservation and recovery of energy
/ Salinity
/ Salts
/ Scientific Concepts
/ surface area
/ Sustainable energy
/ Technology of polymers
/ Waste heat
/ Wastewater
/ Wastewater treatment plants
/ Water treatment
2012
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Energy Capture from Thermolytic Solutions in Microbial Reverse-Electrodialysis Cells
by
Logan, Bruce E.
, Kim, Younggy
, Cusick, Roland D.
in
acetates
/ Alternative energy sources
/ Ammonium
/ ammonium bicarbonate
/ Anodes
/ Applied sciences
/ Bicarbonates - chemistry
/ Bioelectric Energy Sources
/ cathodes
/ Chemical oxygen demand
/ Coastal zone
/ coasts
/ Current density
/ Dialysis
/ Domestic wastewater
/ Electric power generation
/ Electric power plants
/ Electrical engineering. Electrical power engineering
/ Electrical power engineering
/ Electricity
/ Electrodes
/ Electrodialysis
/ Energy
/ Energy efficiency
/ Energy recovery
/ Energy sources
/ Energy. Thermal use of fuels
/ Exact sciences and technology
/ Exchange resins and membranes
/ Forms of application and semi-finished materials
/ Fuel cells
/ Fuel technology
/ Fuels
/ heat
/ Hot Temperature
/ Ion Exchange
/ ion-exchange membranes
/ Microorganisms
/ Miscellaneous
/ municipal wastewater
/ Organic matter
/ Oxidation-Reduction
/ P branes
/ Polymer industry, paints, wood
/ Rational use of energy: conservation and recovery of energy
/ Salinity
/ Salts
/ Scientific Concepts
/ surface area
/ Sustainable energy
/ Technology of polymers
/ Waste heat
/ Wastewater
/ Wastewater treatment plants
/ Water treatment
2012
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Do you wish to request the book?
Energy Capture from Thermolytic Solutions in Microbial Reverse-Electrodialysis Cells
by
Logan, Bruce E.
, Kim, Younggy
, Cusick, Roland D.
in
acetates
/ Alternative energy sources
/ Ammonium
/ ammonium bicarbonate
/ Anodes
/ Applied sciences
/ Bicarbonates - chemistry
/ Bioelectric Energy Sources
/ cathodes
/ Chemical oxygen demand
/ Coastal zone
/ coasts
/ Current density
/ Dialysis
/ Domestic wastewater
/ Electric power generation
/ Electric power plants
/ Electrical engineering. Electrical power engineering
/ Electrical power engineering
/ Electricity
/ Electrodes
/ Electrodialysis
/ Energy
/ Energy efficiency
/ Energy recovery
/ Energy sources
/ Energy. Thermal use of fuels
/ Exact sciences and technology
/ Exchange resins and membranes
/ Forms of application and semi-finished materials
/ Fuel cells
/ Fuel technology
/ Fuels
/ heat
/ Hot Temperature
/ Ion Exchange
/ ion-exchange membranes
/ Microorganisms
/ Miscellaneous
/ municipal wastewater
/ Organic matter
/ Oxidation-Reduction
/ P branes
/ Polymer industry, paints, wood
/ Rational use of energy: conservation and recovery of energy
/ Salinity
/ Salts
/ Scientific Concepts
/ surface area
/ Sustainable energy
/ Technology of polymers
/ Waste heat
/ Wastewater
/ Wastewater treatment plants
/ Water treatment
2012
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Energy Capture from Thermolytic Solutions in Microbial Reverse-Electrodialysis Cells
Journal Article
Energy Capture from Thermolytic Solutions in Microbial Reverse-Electrodialysis Cells
2012
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Overview
Reverse electrodialysis allows for the capture of energy from salinity gradients between salt and fresh waters, but potential applications are currently limited to coastal areas and the need for a large number of membrane pairs. Using salt solutions that could be continuously regenerated with waste heat (>40°C) and conventional technologies would allow much wider applications of salinity-gradient power production. We used reverse electrodialysis ion-exchange membrane stacks in microbial reverse-electrodialysis cells to efficiently capture salinity-gradient energy from ammonium bicarbonate salt solutions. The maximum power density using acetate reached 5.6 watts per square meter of cathode surface area, which was five times that produced without the dialysis stack, and 3.0 ± 0.05 watts per square meter with domestic wastewater. Maximum energy recovery with acetate reached 30 ± 0.5%.
Publisher
American Association for the Advancement of Science,The American Association for the Advancement of Science
Subject
/ Ammonium
/ Anodes
/ cathodes
/ coasts
/ Dialysis
/ Electrical engineering. Electrical power engineering
/ Electrical power engineering
/ Energy
/ Energy. Thermal use of fuels
/ Exact sciences and technology
/ Exchange resins and membranes
/ Forms of application and semi-finished materials
/ Fuels
/ heat
/ P branes
/ Polymer industry, paints, wood
/ Rational use of energy: conservation and recovery of energy
/ Salinity
/ Salts
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