Life-cycle assessment of flue gas CO2 fixation from coal-fired power plant and coal chemical plant by microalgae
Ye Q, Shen Y, Zhang Q, Wu X, Guo W. Life-cycle assessment of flue gas CO2 fixation from coal-fired power plant and coal chemical plant by microalgae. The Science Of The Total Environment 2022, 848: 157728. PMID: 35917957, DOI: 10.1016/j.scitotenv.2022.157728.Peer-Reviewed Original ResearchConceptsFlue gas COCoal-fired power plantsCoal chemical plantLife cycle assessmentGas COPower plantsMicroalgae growth rateEnergy conversion characteristicsChemical plantsTotal energy consumptionAeration efficiencyConversion characteristicsEnergy conversionEnergy consumptionAeration rateGas emissionsMJ/Environmental impactsWhole processSensitive parametersEmissionCOTechnologyMicroalgaeGrowth rateIn-situ high-resolution 3D imaging combined with proteomics and metabolomics reveals enlargement of subcellular architecture and enhancement of photosynthesis pathways in nuclear-irradiated Chlorella pyrenoidosa
Guo W, Feng L, Wang Z, Guo J, Park D, Carroll B, Zhang X, Liu J, Cheng J. In-situ high-resolution 3D imaging combined with proteomics and metabolomics reveals enlargement of subcellular architecture and enhancement of photosynthesis pathways in nuclear-irradiated Chlorella pyrenoidosa. Chemical Engineering Journal 2022, 430: 133037. DOI: 10.1016/j.cej.2021.133037.Peer-Reviewed Original ResearchPhotosynthetic efficiencySubcellular organellesChlorella pyrenoidosaHigh growth rateCryo-electron tomographyWild-type cellsPhotosynthesis pathwaySubcellular architectureCarbon fixationCryo-FIB millingChlorophyll synthesisMutantsGrowth rateMacroscopic traitsOrganellesSubcellular morphologyC. pyrenoidosaProteomicsBeam scanning electron microscopyIon beam scanning electron microscopyMetabolomics dataPyrenoidosaUnprecedented detailSuch modificationsChloroplasts