2021
SO2 Impurity in Simulated Flue Gas with 15% CO2 Affects Dynamic Bubble Dissolution and Arthrospira Photosynthetic Growth
Song Y, Cheng J, Miao Y, Guo W, Zhou J. SO2 Impurity in Simulated Flue Gas with 15% CO2 Affects Dynamic Bubble Dissolution and Arthrospira Photosynthetic Growth. ACS Sustainable Chemistry & Engineering 2021, 9: 5580-5589. DOI: 10.1021/acssuschemeng.0c09197.Peer-Reviewed Original ResearchFlue gasSO2 impurityBubble diameterCO2 dissolutionBubble dissolutionCoal-fired power plantsFlue gas treatmentReal flue gasSimulated Flue GasInitial bubble diameterHigher solution pH valuePower plantsSolution pH valueGasGas treatmentHigh biomass densityTrace impuritiesSO2 concentrationImpuritiesDissolutionCO2DiameterPH valueInitial solutionEconomic benefits
2020
A novel porous nickel-foam filled CO2 absorptive photobioreactor system to promote CO2 conversion by microalgal biomass
Guo W, Cheng J, Liu S, Feng L, Su Y, Li Y. A novel porous nickel-foam filled CO2 absorptive photobioreactor system to promote CO2 conversion by microalgal biomass. The Science Of The Total Environment 2020, 713: 136593. PMID: 31955094, DOI: 10.1016/j.scitotenv.2020.136593.Peer-Reviewed Original ResearchConceptsConversion efficiencyPore diameterAbsorption reactorPhotobioreactor systemLow conversion efficiencyMicroalgal biomassGas outflow rateVolume fractionShort residence timeNumerical simulationsCO2 conversionRaceway pondsBiomass growth rateReactorGasResidence timeEfficiencyOutflow rateReaction rateCODiameterMicroalgal cellsRelative height
2018
Promoting helix pitch and trichome length to improve biomass harvesting efficiency and carbon dioxide fixation rate by Spirulina sp. in 660 m2 raceway ponds under purified carbon dioxide from a coal chemical flue gas
Cheng J, Guo W, Ameer Ali K, Ye Q, Jin G, Qiao Z. Promoting helix pitch and trichome length to improve biomass harvesting efficiency and carbon dioxide fixation rate by Spirulina sp. in 660 m2 raceway ponds under purified carbon dioxide from a coal chemical flue gas. Bioresource Technology 2018, 261: 76-85. PMID: 29654997, DOI: 10.1016/j.biortech.2018.04.017.Peer-Reviewed Original Research