Biogas upgrade to syngas through thermochemical recovery using exhaust gas reforming

“…Biogas is one of environmentally friendly renewable energy sources, and its utilization is very economically profitable [28]. Biogas is generally produced from anaerobic organic waste derived from the environment such as livestock manure, containing methane and carbon dioxide as the largest component and a small amount of nitrogen compounds, oxygen, hydrogen sulfide, halogen compounds, and aromatics [29]. In general, biogas can be used in combustion engines [28]; however, direct use of biogas on combustion engines can produce toxic emissions with low efficiency of biogas utilization.…”

“…In general, biogas can be used in combustion engines [28]; however, direct use of biogas on combustion engines can produce toxic emissions with low efficiency of biogas utilization. In our work [29], utilization of biogas as feed to be partially oxidized to methanol has been studied. Since biogas, obtained from the local biogas farm industry, consists mainly of methane (83.7%) and oxygen (16%), it is directly used without purification.…”

Partial Oxidation of Methane to Methanol on Cobalt Oxide-Modified Hierarchical ZSM-5

“…Biogas is one of environmentally friendly renewable energy sources, and its utilization is very economically profitable [28]. Biogas is generally produced from anaerobic organic waste derived from the environment such as livestock manure, containing methane and carbon dioxide as the largest component and a small amount of nitrogen compounds, oxygen, hydrogen sulfide, halogen compounds, and aromatics [29]. In general, biogas can be used in combustion engines [28]; however, direct use of biogas on combustion engines can produce toxic emissions with low efficiency of biogas utilization.…”

“…In general, biogas can be used in combustion engines [28]; however, direct use of biogas on combustion engines can produce toxic emissions with low efficiency of biogas utilization. In our work [29], utilization of biogas as feed to be partially oxidized to methanol has been studied. Since biogas, obtained from the local biogas farm industry, consists mainly of methane (83.7%) and oxygen (16%), it is directly used without purification.…”

Partial Oxidation of Methane to Methanol on Cobalt Oxide-Modified Hierarchical ZSM-5

“…W skład biogazu wchodzą: metan (50-75%), ditlenek węgla (25-45%), wodór (1-5%), para wodna (2-7%), pozostałe domieszki gazowe, tj. azot, tlen, siarkowodór, amoniak, w ilościach śladowych [1,3,6].…”

“…W skład biogazu wchodzą: metan (50-75%), ditlenek węgla (25-45%), wodór (1-5%), para wodna (2-7%), pozostałe domieszki gazowe, tj. azot, tlen, siarkowodór, amoniak, w ilościach śladowych [1,3,6].Biogaz o wysokiej zawartości metanu jest doskonałym paliwem, służącym do produkcji energii elektrycznej oraz cieplnej. W celu polepszenia parametrów opałowych, czyli zwiększenia stężenia metanu w biogazie, przeprowadza się następujące operacje technologiczne: wzbogacanie, oczyszczanie, osuszanie, dezodoryzację [2,4,5].…”

Purification and Enrichment of Biogas in Ash-Water Mixture

“…Solid oxide fuel cells offer the opportunity of using biogas because of its fuel feasibility and high efficiency (6). However carbon deposition occurs in conventional nickel anode-based solid oxide fuel cells (5), which can be prevented by dry reforming (7), steam reforming (8)(9)(10), partial oxidation (2,(11)(12)(13), or anode off-gas recirculation (14)(15).…”

Simulated Biogas for Nickel-Based Solid Oxide Fuel Cells