Air-cathode ML-MFC reactor configuration using wood as container and separator to prevent deterioration and biofilm formation on cathode surface
  • Metaadatok
Tartalom: http://doktori.uni-sopron.hu/id/eprint/913/
Archívum: SOE Doktori Repozitórium
Gyűjtemény: Állapot = Kéziratban
Típus = Disszertáció
Tudományterület = műszaki tudományok: faipari tudományok
Cím:
Air-cathode ML-MFC reactor configuration using wood as container and separator to prevent deterioration and biofilm formation on cathode surface
Létrehozó:
Tahir, Chenar
Tartalmi leírás:
In this study, we introduce a novel application of wood as the construction material for Microbial Fuel Cell (MFC) containers, developing what we term the Wooden Membrane-less Microbial Fuel Cell (WML-MFC). This innovative approach leverages the natural properties of wood to enhance the sustainability and cost-effectiveness of MFCs. Employing three different types of wood—pine, oak, and black locust—the WML-MFC design incorporates a carbon felt anode inside the wooden container and a carbon cloth cathode wrapped externally. This configuration not only protects the cathode from biofouling but also utilizes the inherent moisture management capabilities of wood to maintain operational stability. The performance of these wooden MFCs was assessed in terms of electricity generation and water treatment efficacy. Pine and oak containers achieved maximum power densities (MPD) of 35 mW/m2 and 4 mW/m2, respectively, with corresponding maximum open-circuit voltages of 551 mV and 269 mV. Black locust showed the least effective bioelectricity generation. COD removal efficiency was observed between 18% and 48% for pine and 3% to 39% for oak over hydraulic retention times of 24-48 hours. Notable water loss due to moisture diffusion was recorded at 20%/d in pine and 6%/d in oak. Durability assessments through DMA and SEM analyses confirmed the suitability of wood as a container material, emphasizing the dual environmental and economic benefits of this WML-MFC design. Notably, 2 mm and 3 mm thick Scots pine and oak containers exhibited lower electricity production, reduced water treatment capacity, higher water loss with thinner walls, and increased voltage fluctuations compared to the 4 mm thick containers. Briefly, This study demonstrates that the wooden membrane-less microbial fuel cell (WML-MFC) system offers a cost-effective, environmentally friendly, and sustainable approach. It effectively safeguards the cathode from biofilm formation, thus preventing its deterioration and showcasing its potential as an eco-friendly energy generation and water treatment technology.
Nyelv:
angol
magyar
magyar
magyar
Típus:
Disszertáció
NonPeerReviewed
Formátum:
application/pdf
application/pdf
application/pdf
application/pdf
Azonosító:
Tahir, Chenar Air-cathode ML-MFC reactor configuration using wood as container and separator to prevent deterioration and biofilm formation on cathode surface. Doktori értekezés, Soproni Egyetem.
35753469
Kapcsolat:
35753469