Aiming at improving the capture performance of internal vortex electrostatic cyclone precipitator(ECP),a theoretical model with mechanics-electric-magnetic coupling was established,the collection efficiency of magneti...Aiming at improving the capture performance of internal vortex electrostatic cyclone precipitator(ECP),a theoretical model with mechanics-electric-magnetic coupling was established,the collection efficiency of magnetic confinement ECP under different working voltages was simulated,and the influence of magnetic flux intensity on the removal performance of submicron particles was explored.Results show that the number of particles escaped from the cyclone is greatly reduced after the introduction of magnetic field and electric field,indicating that charging effect and magnetic confinement are more conductive to trap submicron particles in the internal vortex ECP.The lower the working voltage is,the worse the charging lifting effect is,but the stronger the magnetic confinement characteristics are.Furthermore,the contributions of charging effect to collection efficiency and magnetic confinement characteristics are more obvious at a weaker magnetic flux density.The research results can provide a practical new idea for the innovative design of ECP.展开更多
Objective:Schisandra sphenanthera and S.chinensis are the two important medicinal plants that have long been used under the names of"Nan-Wuweizi"and"Wuweizi",respectively.The misuse of"NanWuwe...Objective:Schisandra sphenanthera and S.chinensis are the two important medicinal plants that have long been used under the names of"Nan-Wuweizi"and"Wuweizi",respectively.The misuse of"NanWuweizi"and"Wuweizi"in herbal medical products calls for an accurate method to distinguish these herbs.Chloroplast(cp)genomes have been widely used in species delimitation and phylogeny due to their uniparental inheritance and lower substitution rates than that of the nuclear genomes.To develop more efficient DNA markers for distinguishing S.sphenanthera,S.chinensis,and the related species,we sequenced the cp genome ofS.sphenanthera and compared it to that of S.chinensis.Methods:The cp genome of S.sphenanthera was sequenced at the lllumina HiSeq platform,and the reference-guided mapping of contigs was obtained with a de novo assembly procedure.Then,comparative analyses of the cp genomes of S.sphenanthera and S.chinensis were carried out.Results:The cp genome of S.sphenanthera was 146853 bp in length and consisted of a large single copy(LSC)region of 95627 bp,a small single copy(SSC)region of 18292 bp,and a pair of inverted repeats(IR)of 16467 bp.GC content was 39.6%.A total of 126 functional genes were predicted,of which 113 genes were unique,including 79 protein-coding genes,30 transfer RNA(tRNA)genes,and four ribosomal RNA(rRNA)genes.Five tRNA,four protein-coding genes,and all rRNA were duplicated in the IR regions.There were 18 intron-containing genes,including six tRNA genes and 12 protein-coding genes.In addition,45 SSRs were detected.The whole cp genome of S.sphenanthera was 123 bp longer than that of S.chinensis.A total of 474 SNPs and 97 InDels were identified.Five genetic regions with high levels of variation(Pi>0.015),trnS-trnG,ccsA-ndhD,psbI-trnS,trnT-psbD and ndhF-rpl32 were revealed.Conclusion:We reported the cp genome ofS.sphenanthera and revealed the SNPs and InDels between the cp genomes of S.sphenanthera and S.chinensis.This study shed light on the species identification and further phylogenetic study within the genus of Schisandra.展开更多
基金sponsored by National Natural Science Foundation of China (Grant numbers 12172228,11572187)Natural Science Foundation of Shanghai (Grant number 22ZR1444400).
文摘Aiming at improving the capture performance of internal vortex electrostatic cyclone precipitator(ECP),a theoretical model with mechanics-electric-magnetic coupling was established,the collection efficiency of magnetic confinement ECP under different working voltages was simulated,and the influence of magnetic flux intensity on the removal performance of submicron particles was explored.Results show that the number of particles escaped from the cyclone is greatly reduced after the introduction of magnetic field and electric field,indicating that charging effect and magnetic confinement are more conductive to trap submicron particles in the internal vortex ECP.The lower the working voltage is,the worse the charging lifting effect is,but the stronger the magnetic confinement characteristics are.Furthermore,the contributions of charging effect to collection efficiency and magnetic confinement characteristics are more obvious at a weaker magnetic flux density.The research results can provide a practical new idea for the innovative design of ECP.
基金This study was financially supported by the National Natural Science Foundation of China(Grant No.81703650)the CAMS Initiative for Innovative Medicine(CAMS-I2M)(Grant No.2016-I2M-2-003).The funders had no role in study design,data collection and analysis,decision to publish,or preparation of the manuscript.
文摘Objective:Schisandra sphenanthera and S.chinensis are the two important medicinal plants that have long been used under the names of"Nan-Wuweizi"and"Wuweizi",respectively.The misuse of"NanWuweizi"and"Wuweizi"in herbal medical products calls for an accurate method to distinguish these herbs.Chloroplast(cp)genomes have been widely used in species delimitation and phylogeny due to their uniparental inheritance and lower substitution rates than that of the nuclear genomes.To develop more efficient DNA markers for distinguishing S.sphenanthera,S.chinensis,and the related species,we sequenced the cp genome ofS.sphenanthera and compared it to that of S.chinensis.Methods:The cp genome of S.sphenanthera was sequenced at the lllumina HiSeq platform,and the reference-guided mapping of contigs was obtained with a de novo assembly procedure.Then,comparative analyses of the cp genomes of S.sphenanthera and S.chinensis were carried out.Results:The cp genome of S.sphenanthera was 146853 bp in length and consisted of a large single copy(LSC)region of 95627 bp,a small single copy(SSC)region of 18292 bp,and a pair of inverted repeats(IR)of 16467 bp.GC content was 39.6%.A total of 126 functional genes were predicted,of which 113 genes were unique,including 79 protein-coding genes,30 transfer RNA(tRNA)genes,and four ribosomal RNA(rRNA)genes.Five tRNA,four protein-coding genes,and all rRNA were duplicated in the IR regions.There were 18 intron-containing genes,including six tRNA genes and 12 protein-coding genes.In addition,45 SSRs were detected.The whole cp genome of S.sphenanthera was 123 bp longer than that of S.chinensis.A total of 474 SNPs and 97 InDels were identified.Five genetic regions with high levels of variation(Pi>0.015),trnS-trnG,ccsA-ndhD,psbI-trnS,trnT-psbD and ndhF-rpl32 were revealed.Conclusion:We reported the cp genome ofS.sphenanthera and revealed the SNPs and InDels between the cp genomes of S.sphenanthera and S.chinensis.This study shed light on the species identification and further phylogenetic study within the genus of Schisandra.
