Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells. - Wikidata - awgldk - TriplyDB

Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

http://www.wikidata.org/entity/Q53110119

about

Merging metabolism and power: development of a novel photobioelectric device driven by photosynthesis and respiration Bioelectrochemical production of hydrogen in an innovative pressure-retarded osmosis/microbial electrolysis cell system: experiments and modeling Microbial Reverse-Electrodialysis Electrolysis and Chemical-Production Cell for H2 Production and CO2 Sequestration Electrochemically active biofilms: facts and fiction. A review.Electricity and disinfectant production from wastewater: Microbial Fuel Cell as a self-powered electrolyser Conversion of wastes into bioelectricity and chemicals by using microbial electrochemical technologies.Energy positive domestic wastewater treatment: the roles of anaerobic and phototrophic technologies.Towards energy neutral wastewater treatment: methodology and state of the art.Bioinspired Nanosucker Array for Enhancing Bioelectricity Generation in Microbial Fuel Cells.Reverse Electrodialysis-Assisted Solar Water Splitting.A Thermally-Regenerative Ammonia-Based Flow Battery for Electrical Energy Recovery from Waste Heat.Comparison of hydrogen production and electrical power generation for energy capture in closed-loop ammonium bicarbonate reverse electrodialysis systems.Evaluating Battery-like Reactions to Harvest Energy from Salinity Differences using Ammonium Bicarbonate Salt Solutions.Validation of a questionnaire about the perception of occupational biohazard in Spanish companies.Integrating Reverse-Electrodialysis Stacks with Flow Batteries for Improved Energy Recovery from Salinity Gradients and Energy Storage.A Single-Use Paper-Shaped Microbial Fuel Cell for Rapid Aqueous Biosensing.Enhancing low-grade thermal energy recovery in a thermally regenerative ammonia battery using elevated temperatures.Highly active bidirectional electron transfer by a self-assembled electroactive reduced-graphene-oxide-hybridized biofilm.Reducing nitrogen crossover in microbial reverse-electrodialysis cells by using adjacent anion exchange membranes and anion exchange resin Dual-Function Conductive Copper Hollow Fibers for Microfiltration and Anti-biofouling in Electrochemical Membrane Bioreactors When Bioelectrochemical Systems Meet Forward Osmosis: Accomplishing Wastewater Treatment and Reuse through Synergy Emerging electrochemical and membrane-based systems to convert low-grade heat to electricity Membrane-based processes for sustainable power generation using water Energy harvesting from enzymatic biowaste reaction through polyelectrolyte functionalized 2D nanofluidic channels

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

http://www.wikidata.org/entity/Q53110119

description

2012 nî lūn-bûn

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2012年の論文

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年學術文章

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2012年學術文章

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name

Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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type

label

Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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SCIENCE.1219330

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Energy capture from thermolytic solutions in microbial reverse-electrodialysis cells.

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Bruce E Logan

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Roland D Cusick

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Younggy Kim

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P2860

Hydrogen production from inexhaustible supplies of fresh and salt water using microbial reverse-electrodialysis electrolysis cells

Microbial fuel cells: methodology and technology.

Towards practical implementation of bioelectrochemical wastewater treatment.

Exoelectrogenic bacteria that power microbial fuel cells.

Use of carbon mesh anodes and the effect of different pretreatment methods on power production in microbial fuel cells.

Integrated hydrogen production process from cellulose by combining dark fermentation, microbial fuel cells, and a microbial electrolysis cell.

Production of electricity during wastewater treatment using a single chamber microbial fuel cell.

Determination of the internal chemical energy of wastewater.

Domestic wastewater treatment as a net energy producer--can this be achieved?

Power generation using different cation, anion, and ultrafiltration membranes in microbial fuel cells.

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1474-1477

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scholarly article

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10.1126/SCIENCE.1219330

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6075

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335

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2012-03-01T00:00:00Z

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221882414

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22383807

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