An autonomous fuel cell: Methanol and dimethyl ether steam reforming direct fed to fuel cell

Studies of reforming systems integrated with Fuel Cells are interesting for energy production in remote regions, especially to develop multi-fuel processors, which can be fed by more than one fuel with no need to modify the unit. In this work, an Autonomous Fuel Cell (AFC) system with methanol and/or Dimethyl Ether Steam Reforming (SR) was modeled and simulated in Aspen Plus, evaluating process variables, appropriate operational conditions, and the need for additional processes. The maximum hydrogen formed is H₂/C = 3.0 (yield of 99.9%) and occurs generally with S/C ≥ 2 for several temperatures. The presence of a WGS reactor and a membrane for hydrogen purification was identified as vital to develop an AFC. In six situations that were studied with different operating conditions that meet the AFC operation, it was observed that the lowest temperature is preferable since it will consume the least amount of utility to maintain the SR.     

Comparative evaluation of the biohydrogen production potential of thermophilic microorganisms isolated from hot springs located in Izmir

Biohydrogen production with the utilization of thermophilic microorganisms is a green process contributing to the mitigation of fossil fuel dependency. This study reports an improved water-gas shift reaction (WGSR) methodology with isolation of thermophilic and anaerobic microorganisms from 5 different closely-located hot springs, employing enrichment and characterization techniques to evaluate their biohydrogen production capacities with 100% CO in the headspace. Enriched mixed and pure cultures were screened for biohydrogen production. An isolate from Doğanbey hot spring reached the highest H₂ yield of 0.43 mmol H₂/mmol CO with a 43% CO conversion. Using growth profiling and morphologically with SEM imaging, this isolate was characterized biochemically, and was identified as an isolated bacilli shaped bacteria capable of producing hydrogen through WGSR. This is the first study to report potential thermophilic hydrogen producers in selected hot springs in the Izmir region.