Progress of Radiation Belt Exploration by a Constellation of Small Satellites TGCSS/SGRB, COSPAR

A COnstellation of Radiation BElt Survey(CORBES)program is proposed by the Sub-Group on Radiation Belt(SGRB)of TGCSS,COSPAR.To address the open qustions about the dynamics of the Earth’s radiation belt,CORBES mission would use a constellation of small/CubeSats to take an ultra-fast survey of the Earth’s radiation belt.The concept,science objectives and preliminary technical design of CORBES are introduced.This mission is an international multilateral cooperation mission coordinated by COSPAR.The SGRB Science Activities and COSPAR HQs Coordinate Activities on CORBES are summaried.

High Temperature Tensile Property and Fracture Behavior of Directionally Solidified Fe-Al-Ta Eutectic Composites

Fe-Al-Ta eutectic composites with solidification rates of 6,20,30,80 and 200μm/s were obtained by a modified Bridgman directional solidification technique and alloying.Moreover,tensile property and fracture behavior of Fe-Al-Ta eutectic composites were studied at 600℃.The relationship between mechanical property and microstructure at high temperature was studied.Microstructure of Fe-Al-Ta eutectic is composed of Fe_(2)Ta(Al)Laves phase and Fe(Al,Ta)matrix phase.In addition,the tensile strength at high temperatures is higher than that at room temperature.The tensile strength is increased with the increase of solidification rate.Moreover,fracture morphology transforms from cleavage fracture to dimple fracture as the solidification rate is increased at high temperatures.

基于Skyline的三维地质灾害信息管理系统的设计与实现

随着三维GIS应用的深入以及三维技术在场景展示、数据管理、空间分析等方面的优势展现出来,越来越多的行业和部门开始探索基于三维技术的相关应用。笔者提出了基于Skyline平台开发三维地质灾害信息管理系统的方案,首先简单介绍了Skyline平台的优势,并选定系统开发平台;其次对系统需求进行了调研与分析,包括数据需求和功能需求,为系统设计提供依据;最后依据需求及系统技术路线设计并实现了系统各功能模块,包括三维场景漫游、数据展示、数据查询、数据统计、空间分析等。

“双碳”目标下天然气分布式能源发展现状及机遇

为实现碳达峰碳中和(以下简称“双碳”)目标,必须建设清洁低碳、安全高效的新型能源体系。天然气分布式能源具有相对清洁高效、综合能源利用效率高、输出能源类型多等优点,是我国实现“双碳”目标的重要发展路径之一。为此,剖析了我国天然气分布式能源存在的问题和发展机遇,进而对天然气分布式能源项目的发展提出了建议。研究结果表明:(1)中国天然气分布式能源整体发展相对较慢,且不同地区之间发展速度也存在差异,现有项目主要集中在经济较发达的京津冀鲁、长三角、珠三角以及天然气资源丰富的川渝等地区;(2)中国天然气分布式能源发展面临的主要问题包括前期投入成本较高、电网企业与项目用户端存在利益冲突使得项目上网困难、项目用户端对能源消纳程度的不确定性影响其投资回报等;(3)随着政策普及、技术发展、碳交易市场完善及经济性的提高,天然气分布式能源项目发展有望进入快速发展期。结论认为,在“双碳”目标引领下,中国天然气分布式能源产业正处于重要的战略机遇期,建议从政策支持、调峰需求、碳排放收益以及技术突破4个方面加强研究;天然气分布式能源的高质量推进对我国构建清洁低碳、安全高效的新型能源体系,助力实现“双碳”目标具有重要的现实意义。

考虑多影响因素的电动汽车充电负荷预测

针对电动汽车数量呈突变式增长的问题,通过分析私人电动汽车保有量的相关影响因素,利用关联分析法筛选出公共充电桩数量、人均可支配收入、人均消费支出、第二产业投资额增长率和总私人电动汽车数量五个因素,建立了引入自适应系数r的灰色模型(GM(1,N))。与现有的预测模型结果进行对比,证实了所建立模型的优越性。此外,根据重庆市充电站提供的数据,建立了私人电动汽车日充电负荷模型,采用蒙特卡洛法得出私人电动汽车在2021年和2025年保有量下的日充电负荷,渗透率分别达到为0.4%和0.85%。最后,引入IEEE33节点系统分析电动汽车在不同渗透率下充电负荷对电网的影响程度。结果显示高渗透率下对电网电压造成的波动较大,网损增加近160倍,降低了能源利用率,为重庆市未来规划电动汽车充电提供了有效的数据参考。

最有利于未成年人原则的实践基础与制度理性

《中华人民共和国民法典》《中华人民共和国未成年人保护法》一致采用“最有利于(被监护人/未成年子女/被收养人/未成年人)”表达范式,由此整个未成年人法律体系得以确立贯通性的基本原则,即最有利于未成年人原则。该原则同时具有承继国内法治实践和转化国际公约义务两个向度。对解释文件和司法数据的梳理表明,当前该原则的适用主要呈点阵式分布,存在覆盖不足、标准不一、机械援引等问题。对照国际规范体系,厘清儿童最大利益原则的权利要义、制度约束、效力层级和程序保障有助于为我国最有利于未成年人原则的适用注入系统、辩证和自洽的制度理性,进而通过权利本位明晰化、权益认定规范化、个案研判独异化和保护机制协同化,将这一中国特色表达深化为中国特色实践。

Metal-seed assistant photodeposition of platinum over Ta_(3)N_(5) photocatalyst for promoted solar hydrogen production under visible light

Cocatalysts play a vital role in accelerating the reaction kinetics and improving the charge separation of photocatalysts for solar hydrogen production.The promotion of the photocatalytic activity largely relies on the loading approach of the cocatalysts.Herein,we introduce a metal-seed assistant photodeposition approach to load the hydrogen evolution cocatalyst of platinum onto the surface of Ta_(3)N_(5) photocatalyst,which exhibits about 3.6 times of higher photocatalytic proton reduction activity with respect to the corresponding impregnation or photodeposition loading.Based on our characterizations,the increscent contact area of the cocatalyst/semiconductor interface with metal-seed assistant photodeposition method is proposed to be responsible for the promoted charge separation as well as enhanced photocatalytic H2 evolution activity.It is interesting to note that this innovative deposition strategy can be easily extended to loading of platinum cocatalyst with other noble or non-noble metal seeds for promoted activities,demonstrating its good generality.Our work may provide an alternative way of depositing cocatalyst for better photocatalytic performances.

Investigating the flow characteristics of air-lift pumps operating in gas-liquid two-phase flow

Experiments were conducted to investigate the flow characteristics in the riser pipe and the suction pipe of airlift pump at a series of air flow rates and submergence ratios by using a high speed camcorder and a Laser Doppler Velocimetvy system （LDV）. A modified model was developed to predict the performance of airlift pump operating in gas-liquid two-phase flow, The results show that an unstable flow structure composed by a water falling film, a bubbly mixture, a water ascending film appearing alternately in riser pipe dominates the performance of airlift pump at large air flow rates. The bubbly mixture with a strongest capacity for pumping water first increases to its maximum and then slightly decreases. In suction pipe, the average velocity shows a flat profile and increases with increasing submergence ratio. Moreover, the predicted results of modified model are in good agreement with the experimental data in a margin of ± 12%.

Blocking backward reaction on hydrogen evolution cocatalyst in a photosystem Ⅱ hybrid Z-scheme water splitting system

Photocatalytic Z-scheme water splitting is considered as a promising approach to produce solar hydrogen.However,the forward hydrogen production reaction is often impeded by backward reactions.In the present study,in a photosystem Ⅱ-integrated hybrid Z-scheme water splitting system,the backward hydrogen oxidation reaction was significantly suppressed by loading a PtCrOx cocatalyst on a ZrO2/TaON photocatalyst.Due to the weak chemisorption and activation of molecular hydrogen on PtCrOx,where Pt is stabilized in the oxidized forms,Pt^Ⅱ and Pt^Ⅳ,hydrogen oxidation is inhibited.However,it is remarkably well-catalyzed by the metallic Pt cocatalyst,thereby rapidly consuming the produced hydrogen.This work describes an approach to inhibit the backward reaction in the photosystem Ⅱ-integrated hybrid Z-scheme water splitting system using Fe(CN)6^3-/Fe(CN)6^4-redox couple as an electron shuttle.

Recent advances in paired electrolysis coupling CO_(2) reduction with alternative oxidation reactions

Electrocatalytic CO_(2) reduction reaction(CO_(2)RR)holds great promise in green energy conversion and storage.However,for current CO_(2) electrolyzers that rely on the oxygen evolution reaction,a large portion of the input energy is"wasted"at the anode due to the high overpotential requirement and the recovery of low-value oxygen.To make efficient use of the electricity during electrolysis,coupling CO_(2)RR with anodic alternatives that have low energy demands and/or profitable returns with high-value products is then promising.Herein,we review the latest advances in paired systems for simultaneous CO_(2) reduction and anode valorization.We start with the cases integrating CO_(2)RR with concurrent alternative oxidation,such as inorganic oxidation using chloride,sulfide,ammonia and urea,and organic oxidation using alcohols,aldehydes and primary amines.The paired systems that couple CO_(2)RR with on-site oxidative upgrading of CO_(2)-reduced chemicals are also introduced.The coupling mechanism,electrochemical performance and economic viability of these co-electrolysis systems are discussed.Thereby,we then point out the mismatch issues between the cathodic and anodic reactions regrading catalyst ability,electrolyte solution and reactant supply that will challenge the applications of these paired electrolysis systems.Opportunities to address these issues are further proposed,providing some guidance for future research.

右美托咪定通过下调Dectin-1表达抑制免疫细胞浸润保护缺血/再灌注损伤的心肌

目的:探索右美托咪定(Dex)保护缺血/再灌注(I/R)诱导的心肌损伤的分子机制。方法:小鼠在体实验分组如下:野生型小鼠对照(Control)组、假手术(Sham)组、野生型小鼠缺血/再灌注模型(WT I/R)组和Dex预处理(WT Dex)组,Dectin-1基因敲除小鼠缺血/再灌注模型(KO I/R)组和Dex预处理(KO Dex)组,每组6只。TTC染色并测定小鼠心脏梗死区域(%),HE染色和病理学分析小鼠心肌损伤情况,ELISA测定小鼠血清TNF-α、IL-6和IL-10的水平,流式细胞术(FCM)计数和分选小鼠心肌浸润M2巨噬细胞和中性粒细胞,qPCR测定上述分选细胞中Dectin-1 mRNA表达情况。结果:TTC结果显示Control组和Sham组小鼠心肌未发生梗死;与WT I/R组相比,WT Dex组、KO I/R组和KO Dex组小鼠心肌梗死体积显著减少(P<0.05)。与KO I/R组相比,KO Dex组小鼠心肌梗死体积也明显减小(P<0.05)。HE染色结果显示WT I/R组小鼠心肌排列杂乱,出现大量断裂心肌纤维,WT Dex组、KO I/R组和KO Dex组小鼠心肌纤维存在少许断裂的情况,结构破坏不显著,心肌排列较为整齐;KO Dex组小鼠心肌损伤程度小于KO I/R组。ELISA结果显示,与Sham组相比,WT I/R组小鼠血清TNF-α和IL-6水平显著升高,IL-10水平显著降低;与WT I/R组相比,WT Dex组和KO I/R组小鼠血清TNF-α和IL-6水平显著降低,IL-10水平显著升高;与KO I/R组相比,KO Dex组小鼠血清TNF-α和IL-6水平显著降低,IL-10水平显著升高(P<0.05)。FCM结果显示,与Sham组相比,WT I/R组小鼠心肌浸润大量M2巨噬细胞和中性粒细胞(P<0.05);与WT I/R组相比,WT Dex组、KO I/R组和KO Dex组小鼠心肌浸润的M2巨噬细胞和中性粒细胞显著降低(P<0.05);KO I/R组和KO Dex组之间差异无统计学意义(P>0.05)。qPCR结果显示,与Sham组相比,WT I/R组小鼠心肌浸润的M2巨噬细胞和中性粒细胞中Dectin-1 mRNA表达量显著上调(P<0.05);与WT I/R组相比,Dex组则显著降低(P<0.05);KO I/R组和KO Dex组小鼠不表达Dectin-1。结论:Dex预处理对I/R损伤心肌的保护机制涉及降低I/R后小鼠心肌浸润的M2巨噬细胞和中性粒细胞数量,这一过程可能是通过抑制Dectin-1的表达来实现的。

硼同位素的正热电离质谱法测定新进展

在不同环境下, B具有不同的^(11)B/^(10)B值。因此, B同位素作为一种灵敏的示踪剂被广泛应用于地球化学、环境化学和食品科学等领域。正热电离质谱法(PTIMS)因测试精度高,是测定B同位素组成最精确的方法。本文详细总结了PTIMS测定B同位素组成的基本原理、带材料选择、石墨影响、石墨涂样顺序、点样形式、同质异位素的干扰以及离子峰接收方式,尤其是近几年在静态双接收测定B同位素上取得的成果和最新进展,以促进B同位素地球化学研究的进一步发展。

基于网络药理学方法、分子对接技术及动物实验探讨参威骨痹汤治疗骨质疏松症的作用机制

目的:探讨参威骨痹汤治疗骨质疏松症(osteoporosis,OP)的作用机制。方法:①网络药理学研究。采用超高效液相色谱-质谱法鉴定参威骨痹汤中的化合物,采用网络药理学方法初步筛选参威骨痹汤治疗OP的关键活性成分和靶点。②分子对接验证。采用分子对接技术验证网络药理学研究确定的参威骨痹汤治疗OP的关键活性成分与靶点的结合效果,从中筛选结合效果最好的组合。③动物实验验证。将60只雌性C57BL/6JNifdc小鼠随机等分为5组,模型组和参威骨痹汤低、中、高剂量组小鼠通过双侧卵巢切除手术进行OP造模,假手术组小鼠仅切取卵巢周围等体积的脂肪组织。参威骨痹汤低、中、高剂量组小鼠分别按照14.95 g·kg^(-1)·d^(-1)、29.9 g·kg^(-1)·d^(-1)、59.8 g·kg^(-1)·d^(-1)以参威骨痹汤药液灌胃,假手术组和模型组小鼠以等体积生理盐水灌胃。药物干预8周后,取股骨进行Micro-CT检查和组织病理学观察(HE染色和抗酒石酸酸性磷酸酶染色),采用实时定量PCR技术测定胫骨组织中根据网络药理学和分子对接技术确定的关键靶点基因的mRNA表达水平。结果:①网络药理学研究结果。网络药理学研究结果显示,SRC、促分裂原活化的蛋白激酶3(mitogen-activated protein kinase 3,MAPK3)、MAPK1、磷脂酰肌醇3-激酶调节亚基1(phosphatidylinositol-3-kinase regulatory subunit 1,PI3KR1)、信号转导及转录活化因子3为参威骨痹汤治疗OP的关键靶点,五味子丙素、10-姜酚、对羟基苯甲酸丁酯、倍半萜内酯和香豆雌酚为参威骨痹汤治疗OP的关键活性成分。②分子对接验证结果。分子对接结果显示,参威骨痹汤治疗OP关键活性成分与关键靶点的结合能均小于-5 kJ·mol^(-1),表明结合效果良好,其中靶点SRC、MAPK3、PI3KR1与活性成分五味子丙素、10-姜酚、对羟基苯甲酸丁酯的结合效果更好。③动物实验验证结果。Micro-CT检查及组织病理学观察结果显示,参威骨痹汤能改善OP模型小鼠的骨质疏松程度,其中中剂量参威骨痹汤效果更好。实时定量PCR测定结果显示,参威骨痹汤中剂量组胫骨组织中SRC mRNA和MAPK3 mRNA表达水平低于模型组,PI3KR1 mRNA表达水平与模型组比较差异无统计学意义。结论:参威骨痹汤治疗OP的机制可能是通过五味子丙素、10-姜酚、对羟基苯甲酸丁酯等成分调控SRC、PI3KR1、MAPK3的表达来调节骨代谢。

基于组合赋权的压裂作业人因失误概率研究

压裂作业强度大,环境恶劣,长时间枯燥的作业容易诱发人因失误,造成事故,分析压裂现场人因可靠性对于提升压裂作业的安全和效率具有重要意义。在考虑压裂现场情境因素影响基础上,提出了一种组合赋权模糊人因可靠性分析方法,用以评估压裂现场人因失误概率。首先,通过对压裂现场的调研分析,结合压裂作业情境环境特点,基于认知可靠性与失误分析方法(CREAM)建立了适用于评估压裂作业的一级共同绩效条件CPC 8个,二级CPC因子评估指标36个。其次,根据实际工况中各CPC对人的绩效可靠性的影响程度不同,提出以差异系数法确定线性组合系数,基于序关系法与熵权法对各项评估指标进行主客观线性组合赋权。最后,利用本文方法分析四川某页岩气压裂作业现场人因失误概率,结果表明,较一般模糊CREAM方法,在不同情境环境下,随着情境环境水平的下降,组合赋权模糊CREAM方法对CPC评价数据敏感度更高,人因失误概率增加,并且变化速率加快,这与现场实际工况一致,为压裂现场的人因可靠性分析和人因失误概率量化结果优化提供了参考。

数值反应堆堆芯与E级高性能计算的科学内涵

反应堆是一复杂的系统过程,是由中子场、温度场、流场、应力场、化学场等多个物理过程相互耦合的装置,这些物理场涉及从微观核反应到宏观能量释放的多尺度作用机理。随着E级(1 000PFLOPS,百亿亿次/每秒)计算机的问世,核能发展的总趋势正从传统工程驱动模式向以高性能数值模拟为主转变。当前四代堆设计立足小型化和精密化,高分辨率数值模拟对提升核装置性能和降低裕量作用突出。为研究解决当前模拟软件与计算机之间存在的浮点效率低、移植周期长、模式通用难和规模扩展难等问题的办法,突破软件和硬件之间存在的编程墙和性能墙,本文通过解读美国NEAMS、CASL和ECP计划,结合团队近年在数值反应堆和高性能计算关键技术突破方面的经验,提出基于并行中间件的集成共性、发展个性的技术路线,探索一条快速提升我国自主CAE软件整体水平的途径,供业内同行探讨,以在国产超级计算机上实现核装置的精细化建模和多物理、多尺度、多过程耦合计算。

儿童流行性感冒中西医结合诊疗指南

儿童是流行性感冒的高发人群及重症病例的高危人群。流行性感冒早期干预,特别是在轻症阶段给予中西医结合的干预措施对疾病的预后具有重要意义。本指南基于文献检索及评价、专家访谈、组内讨论、专家论证会、公开征求意见等制订流程,形成《儿童流行性感冒中西医结合诊疗指南》。此次制订提出指南适用范围、规范性引用文件、术语和定义、诊断、治疗,旨在为儿童流行性感冒中西医结合临床实践、诊疗规范和质量评价提供重要参考。

血红蛋白源抗菌肽hemocidins研究进展

血红蛋白及其降解片段在人和动物体内有着多种多样的生理功能。血红蛋白降解后产生的具有抗菌活性的片段被称为hemocidins。hemocidins是一类重要的内源性抗菌肽,其来源宿主广泛、抗菌谱广。根据抗菌肽的构效关系,计算机辅助设计的hemocidins类似肽也具有较好的抗菌活性。文章主要对hemocidins及其类似肽的抗菌活性和抗菌机制进行了简要综述,以期为深入研究和开发hemocidins及其类似肽提供一些参考,进而为防治人与动物病原菌感染提供理论依据。

南亚热带生境下6种紫珠属植物的光响应模型拟合分析

利用直角双曲线模型、非直角双曲线模型、直角双曲线修正模型和指数模型,对南亚热带生境下的6种紫珠属(Callicarpa)植物进行光合参数分析和光响应曲线拟合。通过对比4种模型计算光饱和点(LSP)、光补偿点(LCP)、最大净光合速率(P_(nmax))、暗呼吸速率(R_(d))和表观量子效率(AQE)以及决定系数(R^(2))、均方根误差(RMSE)、平均绝对误差(MAE)等参数,筛选出6种紫珠属植物最适光响应模型。结果表明:直角双曲线修正模型是6种紫珠属植物进行光合研究的最适用光响应模型,杜虹花对强光和弱光的利用能力均最高,朝鲜紫珠的光合潜能最大。综上,不同紫珠属植物对光的利用能力既表现出种间差异性,又表现出种间相似性,4种光响应模型在紫珠属植物的光合参数计算上存在较大差异,但在模型的拟合优度和拟合精度上存在一致性。

关于体外循环专业质量控制指标遴选的一些思考

质控指标体系是医疗质量管理与控制体系的重要组成部分。构建科学、规范的医疗质控指标体系对加强科学化、精细化医疗质量管理,促进医疗质量持续改进具有重要意义[1-2]。近年来,为进一步加强医疗质量与医疗技术管理,规范临床诊疗行为,促进医疗服务的标准化、同质化,国家卫生健康委办公厅陆续发布了部分临床专业质控指标、单病种质量控制指标、国家限制类技术质控指标。截止到2023年11月国家卫健委共制定了43个专业(含限制性技术等)质量质控指标,同期国家卫生健康委医院管理研究所汇总了2015年至2023年11月间由国家卫健委发布的各专业的医疗质量控制指标,并编制发布了《医疗质量管理与控制指标汇编》5.0版本供临床参阅。

Resource Scheduling Algorithm and Ecnomic Model in ForCES Networks

Resource scheduling algorithm for ForCES(Forwarding and Control Element Separation) networks need to meet the flexibility,programmability and scalability of node resources.DBC(Deadline Budget Constrain) algorithm relies on users select cost or time priority,then scheduling to meet the requirements of users.However,this priority strategy of users is relatively simple,and cannot adapt to dynamic change of resources,it is inevitable to reduce the QoS.In order to improve QoS,we refer to the economic model and resource scheduling model of cloud computing,use SAL(Service Level Agreement) as pricing strategy,on the basis of DBC algorithm,propose an DABP(Deadline And Budget Priority based on DBC) algorithm for ForCES networks,DABP combines both budget and time priority to scheduling.In simulation and test,we compare the task finish time and cost of DABP algorithm with DP(Deadline Priority) algorithm and BP(Budget Priority) algorithm,the analysis results show that DABP algorithm make the task complete with less cost within deadline,benifical to load balancing of ForCES networks.