Evolution of syngas from cardboard gasification

“…In comparison with the other samples, sewage sludge yielded higher mole fraction of hydrogen than that obtained from cardboard steam gasification [2], food waste steam gasification [14], and sewage sludge air gasification [11,12,15]. As compared to air gasification of the sewage sludge, steam gasification resulted in about 40% higher mole fraction of hydrogen.…”

“…Solid wastes are considered renewable sources of energy and can be substituted as a fuel in many fossil fuel power applications with simultaneous reduction in greenhouse gas emissions [1,2]. Several countries have promoted technology developments on the potential use of sewage sludge as a source of energy in power plants while simultaneously addressing the environmental issues.…”

High temperature steam gasification of wastewater sludge

“…In comparison with the other samples, sewage sludge yielded higher mole fraction of hydrogen than that obtained from cardboard steam gasification [2], food waste steam gasification [14], and sewage sludge air gasification [11,12,15]. As compared to air gasification of the sewage sludge, steam gasification resulted in about 40% higher mole fraction of hydrogen.…”

“…Solid wastes are considered renewable sources of energy and can be substituted as a fuel in many fossil fuel power applications with simultaneous reduction in greenhouse gas emissions [1,2]. Several countries have promoted technology developments on the potential use of sewage sludge as a source of energy in power plants while simultaneously addressing the environmental issues.…”

High temperature steam gasification of wastewater sludge

“…The bypass line with this configuration assured that the sample is not diluted by any surrounding air. More details about the experimental setup and experimental procedures are provided elsewhere [12]. …”

Characteristics of cardboard and paper gasification with CO2

“…Many research works addressed the utilization of waste oils that are of lubricating oils originated from crude oil [3] and biomass origin waste oils for the case of diesel engine applications [4][5][6] as sources of energy. The gaseous yield from steam gasification and pyrolysis of biomass have been investigated experimentally, the results of steam gasification have been compared to that of pyrolysis [7][8][9][10][11][12][13]. The temperature range investigated at elevated temperature in the range of 550-1000°C.…”

“…The temperature range investigated at elevated temperature in the range of 550-1000°C. Hydrogen is produced from steam gasification and pyrolysis at the elevated temperatures [7][8][9].…”

Production of diesel-like fuel from waste engine oil by pyrolitic distillation