The surface functional groups and pyrolysis characteristics of lignite irradiated by microwave were comparatively studied to evaluate the feasibility of using industrial 915 MHz for lignite drying. The drying kinetics...The surface functional groups and pyrolysis characteristics of lignite irradiated by microwave were comparatively studied to evaluate the feasibility of using industrial 915 MHz for lignite drying. The drying kinetics, micro structure, chemical functional groups, re-adsorption properties, and pyrolysis characteristics of the dried coal were respectively analyzed. Results indicated that for typical Chinese lignite studied in this paper, 915 MHz microwave drying was 7.8 times faster than that of the hot air drying. After industrial microwave drying, the sample possessed much higher total specific surface area and specific pore volume than that of air dried sample. The oxygen functional groups and re-adsorption ratio of microwave irradiated coal decreased, showing weakened hydrophilicity. Moreover, during the pyrolysis of the coal dried by hot air and microwave, the yield of tar largely increased from 1.3% to 8.5% and the gas production increased correspondingly. The composition of the tar was also furtherly analyzed, results indicated that Miscellaneous hydrocarbons(HCs) were the main component of the tar, and microwave irradiation can reduce the fraction of polycyclic aromatic hydrocarbons(PAHs) from 26.4% to 22.7%.展开更多
The genus Aquilegia(Ranunculaceae)has been cultivated as ornamental and medicinal plants for centuries.With petal spurs of strikingly diverse size and shape,Aquilegia has also been recognized as an excellent system fo...The genus Aquilegia(Ranunculaceae)has been cultivated as ornamental and medicinal plants for centuries.With petal spurs of strikingly diverse size and shape,Aquilegia has also been recognized as an excellent system for evolutionary studies.Pollinator‐mediated selection for longer spurs is believed to have shaped the evolution of this genus,especially the North American taxa.Recently,however,an opposite evolutionary trend was reported in an Asian lineage,where multiple origins of mini-or even nonspurred morphs have occurred.Interesting as it is,the lack of genomic resources has limited our ability to decipher the molecular and evolutionary mechanisms underlying spur reduction in this special lineage.Using long-read sequencing(PacBio Sequel),in combination with optical maps(BioNano DLS)and Hi–C,we assembled a high-quality reference genome of A.oxysepala var.kansuensis,a sister species to the nonspurred taxon.The final assembly is approximately 293.2 Mb,94.6%(277.4 Mb)of which has been anchored to 7 pseudochromosomes.A total of 25,571 protein-coding genes were predicted,with 97.2%being functionally annotated.When comparing this genome with that of A.coerulea,we detected a large rearrangement between Chr1 and Chr4,which might have caused the Chr4 of A.oxysepala var.kansuensis to partly deviate from the“decaying”path that was taken before the split of Aquilegia and Semiaquilegia.This high-quality reference genome is fundamental to further investigations on the development and evolution of petal spurs and provides a strong foundation for the breeding of new horticultural Aquilegia cultivars.展开更多
基金Supported by the National Natural Science Foundation of China(51621005)the Fundamental Research Funds for the Central Universities(2017FZA4013)
文摘The surface functional groups and pyrolysis characteristics of lignite irradiated by microwave were comparatively studied to evaluate the feasibility of using industrial 915 MHz for lignite drying. The drying kinetics, micro structure, chemical functional groups, re-adsorption properties, and pyrolysis characteristics of the dried coal were respectively analyzed. Results indicated that for typical Chinese lignite studied in this paper, 915 MHz microwave drying was 7.8 times faster than that of the hot air drying. After industrial microwave drying, the sample possessed much higher total specific surface area and specific pore volume than that of air dried sample. The oxygen functional groups and re-adsorption ratio of microwave irradiated coal decreased, showing weakened hydrophilicity. Moreover, during the pyrolysis of the coal dried by hot air and microwave, the yield of tar largely increased from 1.3% to 8.5% and the gas production increased correspondingly. The composition of the tar was also furtherly analyzed, results indicated that Miscellaneous hydrocarbons(HCs) were the main component of the tar, and microwave irradiation can reduce the fraction of polycyclic aromatic hydrocarbons(PAHs) from 26.4% to 22.7%.
基金supported by grants from the National Natural Science Foundation of China(Nos.31930008,31870207,and 31570227)the CAS/SAFEA International Partnership Program for Creative Research Teams,and the National Ten Thousand Talents Program of China.
文摘The genus Aquilegia(Ranunculaceae)has been cultivated as ornamental and medicinal plants for centuries.With petal spurs of strikingly diverse size and shape,Aquilegia has also been recognized as an excellent system for evolutionary studies.Pollinator‐mediated selection for longer spurs is believed to have shaped the evolution of this genus,especially the North American taxa.Recently,however,an opposite evolutionary trend was reported in an Asian lineage,where multiple origins of mini-or even nonspurred morphs have occurred.Interesting as it is,the lack of genomic resources has limited our ability to decipher the molecular and evolutionary mechanisms underlying spur reduction in this special lineage.Using long-read sequencing(PacBio Sequel),in combination with optical maps(BioNano DLS)and Hi–C,we assembled a high-quality reference genome of A.oxysepala var.kansuensis,a sister species to the nonspurred taxon.The final assembly is approximately 293.2 Mb,94.6%(277.4 Mb)of which has been anchored to 7 pseudochromosomes.A total of 25,571 protein-coding genes were predicted,with 97.2%being functionally annotated.When comparing this genome with that of A.coerulea,we detected a large rearrangement between Chr1 and Chr4,which might have caused the Chr4 of A.oxysepala var.kansuensis to partly deviate from the“decaying”path that was taken before the split of Aquilegia and Semiaquilegia.This high-quality reference genome is fundamental to further investigations on the development and evolution of petal spurs and provides a strong foundation for the breeding of new horticultural Aquilegia cultivars.
