Search results for "Microbial Fuel Cell"

showing 10 items of 49 documents

Oczyszczanie ścieków w mikrobiologicznym ogniwie paliwowym z katodą z niklu Raneya

2016

Raney nickelodnawialne źródła energiimicrobial fuel cellwastewater treatmentenvironmental engineeringoczyszczanie ściekównikiel Raneyainżynieria środowiskamikrobiologiczne ogniwa paliwoweren ewable power sources

researchProduct

The influence of sludge retention time on mixed culture microbial fuel cell start-ups

2017

Abstract In this work, the start-ups of air-cathode microbial fuel cells (MFCs) seeds with conventional activated sludge cultivated at different solid retention times (SRTs) are compared. A clear influence of the SRT of the inoculum was observed, corresponding to an SRT of 10 days to the higher current density exerted, about 0.2 A m −2 . This observation points out that, in this type of electrochemical device, it is recommended to use high SRT seeds. The work also points out that in order to promote an efficient start-up, it is not only necessary to use high SRT seeds, but also to feed a high COD concentration. When feeding 10,000 ppm COD and keeping SRT of 10 d differences of current densi…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciEnvironmental EngineeringMicrobial fuel cellMicrobial fuel cellAir-cathodeBiomedical EngineeringBioengineering02 engineering and technology010501 environmental sciencesSolid retention time Microbial fuel cell Air-cathode Acetate01 natural sciencesMixed culture0105 earth and related environmental sciencesSolid retention timChemistryAir cathodeAcetateEnvironmental engineeringSettore ING-IND/27 - Chimica Industriale E Tecnologica021001 nanoscience & nanotechnologyPulp and paper industryStart upSolid retention time Microbial fuel cell Air-cathode AcetateActivated sludge0210 nano-technologyRetention timehuman activitiesBiotechnology

researchProduct

Electrochemical Processe s and Apparatuses for the Abatement of Acid Orange 7 in Water

2014

We have studied the electrochemical treatment of aqu eous solutions contaminated by Acid Orange 7 (AO7) by electro-Fenton process (EF). The main object ive was to evaluate how the electrochemical route affects the performances of the d egradation process. EF process was carried out in a number of very different reactors: conventional bench scale electrochem ical cell, microfluidic electrochemical reactor, microbial fuel cell and stack for reverse electrodialysis processes. The utilisation of micro devices allowed to work without the addition of a supporting elec trolyte and improved the performances of EF. Microbial fuel cell did not need the supply of electric energy bu t our device requir…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicireverse electrodialysis microreactor microbial fuel cell AO7 electrofentonSettore ING-IND/27 - Chimica Industriale E Tecnologica

researchProduct

Optimization of the performance of an air–cathode MFC by changing solid retention time

2017

BACKGROUND This work is focused on the optimization of the performances of air-cathode microbial fuel cells (MFC) by changing the solid retention time (SRT) of the suspended biomass culture. RESULTS Five MFCs inoculated with activated sludge obtained from a municipal wastewater treatment plant were fed with a highly-concentrated acetate solution (10 000 ppm COD) and operated over two-month tests in order to determine how SRT may influence the performances of the bio-electrogenic cells. The MFC operated at SRTs of 2.5 days was found to outperform the other cells, operated at SRT of 1.4, 5.0, 7.4 and 10.0 days. In order to evaluate the possibility of using SRT as a manipulated parameter for t…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi Chimicisolid retention time (SRT)acetate air-cathodeMicrobial fuel cellsSettore ING-IND/27 - Chimica Industriale E TecnologicaSludge agePilas de combustible microbianasmicrobial fuel cellSolid retention time (SRT)Acetate air-cathodeAcetato de aire-cátodoTiempo de retención de sólidos (SRT)human activitiessludge ageEdad del lodo

researchProduct

Microbial Fuel Cell with Ni–Co Cathode Powered with Yeast Wastewater

2018

Wastewater originating from the yeast industry is characterized by high concentration of pollutants that need to be reduced before the sludge can be applied, for instance, for fertilization of croplands. As a result of the special requirements associated with the characteristics of this production, huge amounts of wastewater are generated. A microbial fuel cell (MFC) forms a device that can apply wastewater as a fuel. MFC is capable of performing two functions at the same time: wastewater treatment and electricity production. The function of MFC is the production of electricity during bacterial digestion (wastewater treatment). This paper analyzes the possibility of applying yeast wastewate…

cathodeControl and OptimizationMicrobial fuel cellyeast wastewaterEnergy Engineering and Power TechnologySewage02 engineering and technology010501 environmental scienceslcsh:Technology01 natural sciencesmicrobial fuel cell; yeast wastewater; environmental engineering; renewable energy source; cathode; Ni–Co alloyIndustrial wastewater treatmentmicrobial fuel cellElectrical and Electronic EngineeringEngineering (miscellaneous)0105 earth and related environmental sciencesenvironmental engineeringlcsh:TRenewable Energy Sustainability and the Environmentbusiness.industryChemical oxygen demand021001 nanoscience & nanotechnologyPulp and paper industryWaste treatmentWastewaterEnvironmental scienceSewage treatmentNi–Co alloyrenewable energy source0210 nano-technologyEnergy sourcebusinessEnergy (miscellaneous)Energies

researchProduct

MICROBIAL FUEL CELL WITH Cu-B CATHODE POWERING WITH WASTEWATER FROM YEAST PRODUCTION

2017

With the increasing standard of living, energy consumption increases as well. So, waste production, including wastewater, increases as well. One of the types of waste-water is wastewater from yeast industry. Wastewater from this industry has not only a high pollutants load but it is produced in great amounts as well. Technical devices that can accomplish the wastewater treatment and electricity production from wastewater is a microbial fuel cell. In microbial fuel cells activated sludge bacteria can be used for electricity production during wastewater treatment. The possibility of using the Cu-B alloy as cathode catalyst for microbial fuel cells to wastewater treatment of wastewater from ye…

cathodeMicrobial fuel cell02 engineering and technology010501 environmental sciences01 natural scienceslcsh:TD1-1066law.inventionmicrobial fuel celllawProduction (economics)lcsh:Environmental technology. Sanitary engineeringyeast industryrenewable energy sourcesEcology Evolution Behavior and Systematicslcsh:Environmental sciences0105 earth and related environmental sciencesGeneral Environmental Sciencelcsh:GE1-350Waste managementChemistrybusiness.industry021001 nanoscience & nanotechnologyCathodeYeastRenewable energyenvironment engineeringrenew - able energy sourceswastewater treatmentWastewaterSewage treatment0210 nano-technologybusinessJournal of Ecological Engineering

researchProduct

Electricity Production from Yeast Wastewater in Membrane-Less Microbial Fuel Cell with Cu-Ag Cathode

2023

Wastewater has high potential as an energy source. Therefore, it is important to recover even the smallest part of this energy, e.g., in microbial fuel cells (MFCs). The obtained electricity production depends on the process rate of the electrodes. In MFC, the microorganisms are the catalyst, and the cathode is usually made of carbon material (e.g., with the addition of Pt). To increase the MFC efficiency (and reduce costs by reducing use of the noble metals), it is necessary to search the new cathode materials. In this work, the electricity production from yeast wastewater in membrane-less microbial fuel cells with Cu-Ag cathode was analyzed. In the first place, the measurements of the sta…

cathodebio-electrochemical systemenvironmental engineeringControl and Optimizationyeast wastewaterRenewable Energy Sustainability and the EnvironmentMFCEnergy Engineering and Power TechnologyBuilding and Constructionbio-electricitymicrobial fuel cellCu-Ag catalystmicrobial fuel cell; MFC; bio-electrochemical system; bio-electricity; electricity production; cathode; Cu-Ag alloy; Cu-Ag catalyst; environmental engineering; yeast wastewaterelectricity productionElectrical and Electronic EngineeringEngineering (miscellaneous)Cu-Ag alloyEnergy (miscellaneous)Energies; Volume 16; Issue 6; Pages: 2734

researchProduct

Microbial fuel cell with Ni-Co cathode

2017

Wraz ze wzrostem poziomu życia wzrasta zarówno zużycie energii, jak i ilość ścieków. Istnieje jednak możliwość produkcji energii z jednoczesnym oczyszczaniem ścieków. Urządzeniem, które może zrealizować to zadanie jest mikrobiologiczne ogniwo paliwowe. W ogniwach tego typu bakterie osadu czynnego wykorzystane są do produkcji energii podczas oczyszczania ścieków. Jednym z ograniczeń tego rozwiązania jest niska gęstość uzyskiwanego prądu. Możliwe jest jednak podwyższenie tego parametru przy wykorzystaniu odpowiedniego katalizatora elektrod. W artykule przedstawiono możliwość wykorzystania stopu Ni-Co jako katalizatora katody. Badania obejmowały przygotowanie elektrody oraz porównanie zmian st…

cathodeenvironmental engineeringclean technologystop Ni-Cokatodaodnawialne źródła energiimicrobial fuel cellwastewater treatmentNi-Co alloyoczyszczanie ściekówinżynieria środowiskarenewable energy sourcesczyste technologiemikrobiologiczne ogniwa paliwoweRudy i Metale Nieżelazne

researchProduct

Wastewater treatment and electricity production in a microbial fuel cell with Cu–B alloy as the cathode

2019

The possibility of wastewater treatment and electricity production using a microbial fuel cell with Cu&ndash

cathodenon-precious metal catalysts; Cu–B alloy; microbial fuel cell; cathode; environmental engineering; oxygen electrode; renewable energy sourcesMicrobial fuel cellMaterials science02 engineering and technology010501 environmental scienceslcsh:Chemical technology01 natural sciencesCatalysislaw.inventionCatalysislcsh:Chemistrymicrobial fuel celllawCu–B alloylcsh:TP1-1185Physical and Theoretical Chemistryrenewable energy sources0105 earth and related environmental sciencesenvironmental engineeringChemical oxygen demand021001 nanoscience & nanotechnologyCathodeAnodeElectricity generationChemical engineeringnon-precious metal catalystslcsh:QD1-999oxygen electrodeSewage treatmentAeration0210 nano-technologyCatalysts

researchProduct

Microbial fuel cell with Ni-Co cathode

2016

The possibility of trwastewater treatment using the Ni-Co alloys as catalysts for cathode of mickrobial fuel cells is presented in this paper. Using the Ni-Co catalyst allows to increase the power of prototype microbal fuel sell. Use of Ni-Co catalyst will increase the efficiency of the production of electricity. Thid solution will allow to contribute to the development of high efficiency green energy sources.

energy productionmicrobial fuel cellenvironmental engineeringtrwastewater treatmentcatalyst

researchProduct