LiNi0.8Co0.15Al0.05O2(NCA)正极材料的磷酸表面改性

针对新一代空间型号产品对储能电源提出的更高需求,提出采用表面改性的方法提升LiNi0.8Co0.15Al0.05O2（NCA）正极材料在锂离子电池中的循环稳定性。通过采用磷酸（H3PO4）对NCA正极材料进行表面处理,H3PO4会与NCA颗粒表面的含锂碱性物质发生反应,从而在NCA颗粒表面生成稳定且导电性良好的Li3PO4界面层。循环以及阻抗测试结果表明,经H3PO4表面处理的NCA材料组装电池循环50次后电池容量为170.5mA·h/g,容量保持率达到94%以上,界面阻抗得到抑制。H3PO4表面处理有效抑制了NCA颗粒表面碱性残留对电化学性能的不良影响,提升了界面稳定性,获得了更好的循环性能。     

GEO卫星氢镍蓄电池在轨温度波动机理分析

在某地球静止轨道通信卫星平台布局的基础上,通过合理地简化和假设建立了南蓄电池舱作为热分析计算模型,对影响蓄电池在轨温度波动的机理进行分析。分析结果表明：在冬至,西板、对地+Y板和背地+Y板受照外热流的日变化会引起其内表面温度大幅度波动,通过舱内热辐射又会引起服务舱南板等结构板内表面温度波动,而服务舱南板通过导热将引起安装其上的蓄电池温度波动,这是导致蓄电池温度波动的根本原因。     

Involvement of nitric oxide in the mechanism of biochemical alterations induced by simulated microgravity in Microcystis aeruginosa

Simulated microgravity (SMG) can inhibit proliferation and enhance microcystin production of Microcystis aeruginosa. We investigated the role of nitric oxide (NO) in regulating the SMG induced changes of proliferation, photochemical system II photochemical activity, pigment, soluble protein and microcystin production in M. aeruginosa. M. aeruginosa was exposed to 0.1 mM sodium nitroprusside (SNP, NO donor) or 0.02 mM 2-(4-carboxyphenyl)-4, 4, 5, 5-tetramethylimidazoline-1-oxyl-3-oxide (c-PTIO, NO scavenger) alone or in combination with SMG for 48 h. SMG and SNP inhibited the growth of M. aeruginosa while c-PTIO had no effect on cell number. As to yield, the negative effect of SMG was augmented by SNP and suppressed by c-PTIO. The intracellular concentrations of chlorophyll a, carotenoid, phycocyanin, soluble protein and microcystin were increased by SMG after 48 h. The effects of SMG on these metabolic processes could be enhanced by SNP and be partly eliminated by c-PTIO. Moreover, SNP and c-PTIO only functioned in these biochemical processes under SMG, unlike in the regulation of cell proliferation and yield. These results showed that the effects of SMG could be enhanced by adding exogenous NO and be mitigated by scavenging endogenous NO, revealing the involvement of NO in the changes in biochemistry processes induced by SMG in M. aeruginosa.     

Variations in the thermosphere and ionosphere response to the 17–20 April 2002 geomagnetic storms

The responses of the thermospheric density and ionospheric foF2 to the intense magnetic storms event on 17–20 April were analyzed by using data from CHAMP/STAR and ionosonde stations respectively, and NRLMSISE-00 and IRI-2007 models were used to simulate. The models can capture the tendency of changes, especially under quiet or moderate geomagnetic conditions, but are less accurate under geomagnetic storms. The thermospheric density is sensitive to the EUV emission and geomagnetic activity, and double-peak structure appeared in the dayside. On 19 April dayside, TADs traveled toward the equator with phase speeds of the order of 300–750 m/s, interfered near the equator to produce a total density perturbation of 25%, and then passed through each other and into the opposite hemisphere. For ionospheric foF2, there are non-symmetric hemispheres’ features during the intense geomagnetic activities. In details, middle latitudes in the north and high latitudes in both hemispheres are negative ionospheric storms, and the maximum amplitudes of δfoF2$\delta \mathit{foF}2$ is about 60%, but the amplitudes decrease from the higher to lower latitudes in the Southern Hemisphere. Meanwhile, the equatorial station shows positive phase, and the maximum value is about 100%. Finally, the mechanisms for these features will be discussed in this study.     

星载天线传感器优化部署的均匀设计方法

为提高模态密集大型星载天线在轨模态参数辨识精度,提出基于均匀设计的遗传算法对传感器数量和位置进行优化部署。根据模态空间H₂范数确定参振模态阶数;分别以测量信息正交性和能量最大为优化目标,引入均匀设计方法对传感器数量、种群规模、交叉概率和变异概率4个组合参数进行选取;采用特征实现算法进行在轨模态参数辨识研究。数学仿真表明：所提出的方法可以有效解决传感器数量和位置的优化部署问题,避免了以往人为经验选取参数时存在的主观性和盲目性问题。     

无侧滑二元超声速进气道侧板遮挡度对其性能影响

针对某Ma_d=2.4矩形进口截面的二元混压式进气道,在Ma_∞=2.51及2.27条件下,数值研究了无侧滑角时侧板遮挡度对进气道性能的影响,获得了喉道处各性能参数随侧板遮挡度的变化关系并分析了其变化原因.研究表明:当侧板下端位于压缩面平直段后,各性能参数变化明显;对于所研究的进气道采用位置靠后的侧板有利于改善进气道的起动性能,但却大大增加了阻力也牺牲了流量系数.      

基于尺度共生矩阵的滚动轴承故障诊断研究

基于滚动轴承振动信号的各种三维或二维谱图中包含的不同故障信息的客观现实,通过二维小波变换在不同尺度空间下构造的小波共生矩阵提取了谱图的纹理特征向量.利用灰关联分析表征这些纹理特征的不同发展态势从而实现滚动轴承的故障诊断.对实测滚动轴承不同状态故障数据的分析表明:该方法具有较高的故障模式分类精度;随着故障尺寸的增加,由于轴承各部件的相互影响诊断正确率会有所降低.同时研究表明对于特定的诊断方法是否进行特征向量归一化需区别对待.      

Variation of ionospheric electron and ion temperatures during periods of minimum to maximum solar activity by the SROSS-C2 satellite over Indian low and equatorial latitudes

To study the variation of ionospheric electron and ion temperatures with solar activity the data of electron and ion temperatures were recorded with the help of Retarding Potential Analyzer payload aboard Indian SROSS-C2 satellite at an average altitude of ∼500 km. The main focuses of the paper is to see the diurnal, seasonal and latitudinal variations of electron and ion temperatures during periods of minimum to maximum solar activity. The ionospheric temperatures in the topside show strong variations with altitude, latitude, season and solar activity. In present study, the temperature variations with latitude, season and solar activity have been studied at an average altitude ∼500 km. The peak at sunrise has been observed during all seasons, in both electron and ion temperatures. Further, the ionospheric temperatures vary with latitude in day time. The latitudinal variation is more pronounced for low solar activity than for high solar activity.     

Ionospheric variation at Thailand equatorial latitude station: Comparison between observations and IRI-2001 model predictions

In this paper, the F2-layer critical frequency (foF2) and peak height (hmF2) measured by the FM/CW ionosonde at Thailand equatorial latitude station, namely Chumphon (10.72°N, 99.37°E, dip 3.22) are presented. The measurement data during low solar activity from January 2004 to December 2006 are analyzed based on the diurnal, seasonal variation. The results are then compared with IRI-2001 model predictions. Our study shows that: (1) In general, both the URSI and CCIR options of the IRI model give foF2 close to the measured ones, but the CCIR option produces a smaller range of deviation than the URSI option. The agreement during daytime is generally better than during nighttime. Overestimation mostly occurs in 2004 and 2006, while underestimation is during pre-sunrise hours in June solstice in 2005. The peak foF2 around sunset is higher during March equinox and September equinox than the other seasons, with longer duration of maximum levels in March equinox than September equinox. Large coefficients of variability foF2 occur during pre-sunrise hours. Meanwhile, the best agreement between the observed foF2 and the IRI model is obtained in June solstice. (2) In general, The IRI (CCIR) model predicts the observed hmF2 well during daytime in June solstice from 2004–2006, but it overestimates during March equinox, September equinox and December solstice. For nighttime, the model overestimates hmF2 values for all seasons especially during March equinox and September equinox. However, the model underestimates hmF2 values during September equinox and for some cases during June solstice and December solstice at pre-sunrise. The agreement between the IRI model and the hmF2(M3000_OBS) is worst around noontime, post-sunset and pre-sunrise hours. All comparative studies give feedback for new improvements of CCIR and URSI IRI models.     

The effects of CO2 on growth and transpiration of radish (Raphanus sativus) in hypobaria

Plants grown on long-term space missions will likely be grown in low pressure environments (i.e., hypobaria). However, in hypobaria the transpiration rates of plants can increase and may result in wilting if the water is not readily replaced. It is possible to reduce transpiration by increasing the partial pressure of CO₂ (pCO₂), but the effects of pCO₂ at high levels (>120 Pa) on the growth and transpiration of plants in hypobaria are not known. Therefore, the effects of pCO₂ on the growth and transpiration of radish (Raphanus sativus var. Cherry Bomb II) in hypobaria were studied. The fresh weight (FW), leaf area, dry weight (DW), CO₂ assimilation rates (C_A), dark respiration rates (DR), and transpiration rates from 26 day-old radish plants that were grown for an additional seven days at different total pressures (33, 66 or 101 kPa) and pCO₂ (40 Pa, 100 Pa and 180 Pa) were measured. In general, the dry weight of plants increased with CO₂ enrichment and with lower total pressure. In limiting pCO₂ (40 Pa) conditions, the transpiration for plants grown at 33 kPa was approximately twice that of controls (101 kPa total pressure with 40 Pa pCO₂). Increasing the pCO₂ from 40 Pa to 180 Pa reduced the transpiration rates for plants grown in hypobaria and in standard atmospheric pressures. However, for plants grown in hypobaria and high pCO₂ (180 Pa) leaf damage was evident. Radish growth can be enhanced and transpiration reduced in hypobaria by enriching the gas phase with CO₂ although at high levels leaf damage may occur.