A novel constant-pressure and constant-quenching distance Condensed Combustion Products(CCPs)collection system was developed,coupled with a timing control system,to collect the CCPs formed in the course of burning of ...A novel constant-pressure and constant-quenching distance Condensed Combustion Products(CCPs)collection system was developed,coupled with a timing control system,to collect the CCPs formed in the course of burning of aluminum-based composite propellants.The effects of adiabatic graphite plating,collection zone,quenching distance,time series of collection,and propellant burning rate on the microscopic morphology,particle size distribution and unburned aluminum content of CCPs were investigated.It was verified that the graphite plating can provide a high-fidelity high-temperature environment for propellant combustion.The combustion efficiency is improved by 2.44% compared to the bare propellant case.The time series of collection has a significant effect on the combustion efficiency of aluminum,and the combustion efficiency of aluminum in the thermal state(1.2-2.4 s)is 2.75% higher than that in the cold state(0-1.2 s).Similarly,the characteristics of the CCPs in different collection zones are different.At the quenching distance of 5 mm,the combustion efficiency of aluminum in the core zone(85.39%)is much lower than that in the outer zone(92.07%),while the particle size of the CCPs in the core zone(172μm)is larger than that in the outer zone(41μm).This indicates that the core zone is more likely to produce large-sized and incompletely burned agglomerates during the propellant combustion process.Different burning rates also lead to a significant difference in particle size distribution and combustion efficiency.High burning rates result in higher combustion efficiency.A detailed sequence of the elaborative collection process of CCPs is proposed,mainly including the setting of ignition delay time,burning rate,working pressure,plating length and time series of collection.The findings of this study are expected to provide a reliable tool for the evaluation of the combustion efficiency of solid propellants.展开更多
Background:Previous studies have examined the bulk transcriptome of peripheral blood immune cells in acquired immunodeficiency syndrome patients experiencing immunological non-responsiveness.This study aimed to invest...Background:Previous studies have examined the bulk transcriptome of peripheral blood immune cells in acquired immunodeficiency syndrome patients experiencing immunological non-responsiveness.This study aimed to investigate the characteristics of specific immune cell subtypes in acquired immunodeficiency syndrome patients who exhibit immunological non-responsiveness.Methods:A single-cell transcriptome sequencing of peripheral blood mononuclear cells obtained from both immunological responders(IRs)(CD4^(+)T-cell count>500)and immunological non-responders(INRs)(CD4^(+)T-cell count<300)was conducted.The transcriptomic profiles were used to identify distinct cell subpopulations,marker genes,and differentially expressed genes aiming to uncover potential genetic factors associated with immunological non-responsiveness.Results:Among the cellular subpopulations analyzed,the ratios of monocytes,CD16^(+)monocytes,and exhausted B cells demonstrated the most substantial differences between INRs and IRs,with fold changes of 39.79,11.08,and 2.71,respectively.In contrast,the CD4^(+)T cell ratio was significantly decreased(0.39-fold change)in INRs compared with that in IRs.Similarly,the ratios of natural killer cells and terminal effector CD8^(+)T cells were also lower(0.37-fold and 0.27-fold,respectively)in the INRs group.In addition to several well-characterized immune cell-specific markers,we identified a set of 181 marker genes that were enriched in biological pathways associated with human immunodeficiency virus(HIV)replication.Notably,ISG15,IFITM3,PLSCR1,HLA-DQB1,CCL3L1,and DDX5,which have been demonstrated to influence HIV replication through their interaction with viral proteins,emerged as significant monocyte marker genes.Furthermore,the differentially expressed genes in natural killer cells were also enriched in biological pathways associated with HIV replication.Conclusions:We generated an atlas of immune cell transcriptomes in HIV-infected IRs and INRs.Host genes associated with HIV replication were identified as markers of,and were found to be differentially expressed in,different types of immune cells.展开更多
基金supported by the National Natural Science Foundation of China(Nos.22375164,21975066 and U2241250)the Key Research and Development Program of Shaanxi,China(No.2023KJXX-005)。
文摘A novel constant-pressure and constant-quenching distance Condensed Combustion Products(CCPs)collection system was developed,coupled with a timing control system,to collect the CCPs formed in the course of burning of aluminum-based composite propellants.The effects of adiabatic graphite plating,collection zone,quenching distance,time series of collection,and propellant burning rate on the microscopic morphology,particle size distribution and unburned aluminum content of CCPs were investigated.It was verified that the graphite plating can provide a high-fidelity high-temperature environment for propellant combustion.The combustion efficiency is improved by 2.44% compared to the bare propellant case.The time series of collection has a significant effect on the combustion efficiency of aluminum,and the combustion efficiency of aluminum in the thermal state(1.2-2.4 s)is 2.75% higher than that in the cold state(0-1.2 s).Similarly,the characteristics of the CCPs in different collection zones are different.At the quenching distance of 5 mm,the combustion efficiency of aluminum in the core zone(85.39%)is much lower than that in the outer zone(92.07%),while the particle size of the CCPs in the core zone(172μm)is larger than that in the outer zone(41μm).This indicates that the core zone is more likely to produce large-sized and incompletely burned agglomerates during the propellant combustion process.Different burning rates also lead to a significant difference in particle size distribution and combustion efficiency.High burning rates result in higher combustion efficiency.A detailed sequence of the elaborative collection process of CCPs is proposed,mainly including the setting of ignition delay time,burning rate,working pressure,plating length and time series of collection.The findings of this study are expected to provide a reliable tool for the evaluation of the combustion efficiency of solid propellants.
基金supported by the Joint Research Project of Health and Education in Fujian Province(No.2019-WJ-15)Natural Science Foundation of Fujian Province(Nos.2021J011295 and 2020J011165)Fujian Chinese Traditional Medicine University research funding(No.XB2020147)
文摘Background:Previous studies have examined the bulk transcriptome of peripheral blood immune cells in acquired immunodeficiency syndrome patients experiencing immunological non-responsiveness.This study aimed to investigate the characteristics of specific immune cell subtypes in acquired immunodeficiency syndrome patients who exhibit immunological non-responsiveness.Methods:A single-cell transcriptome sequencing of peripheral blood mononuclear cells obtained from both immunological responders(IRs)(CD4^(+)T-cell count>500)and immunological non-responders(INRs)(CD4^(+)T-cell count<300)was conducted.The transcriptomic profiles were used to identify distinct cell subpopulations,marker genes,and differentially expressed genes aiming to uncover potential genetic factors associated with immunological non-responsiveness.Results:Among the cellular subpopulations analyzed,the ratios of monocytes,CD16^(+)monocytes,and exhausted B cells demonstrated the most substantial differences between INRs and IRs,with fold changes of 39.79,11.08,and 2.71,respectively.In contrast,the CD4^(+)T cell ratio was significantly decreased(0.39-fold change)in INRs compared with that in IRs.Similarly,the ratios of natural killer cells and terminal effector CD8^(+)T cells were also lower(0.37-fold and 0.27-fold,respectively)in the INRs group.In addition to several well-characterized immune cell-specific markers,we identified a set of 181 marker genes that were enriched in biological pathways associated with human immunodeficiency virus(HIV)replication.Notably,ISG15,IFITM3,PLSCR1,HLA-DQB1,CCL3L1,and DDX5,which have been demonstrated to influence HIV replication through their interaction with viral proteins,emerged as significant monocyte marker genes.Furthermore,the differentially expressed genes in natural killer cells were also enriched in biological pathways associated with HIV replication.Conclusions:We generated an atlas of immune cell transcriptomes in HIV-infected IRs and INRs.Host genes associated with HIV replication were identified as markers of,and were found to be differentially expressed in,different types of immune cells.
