Hydrologic Response to Future Climate Change in the Dulong-Irra-waddy River Basin Based on Coupled Model Intercomparison Project 6

Within the context of the Belt and Road Initiative(BRI)and the China-Myanmar Economic Corridor(CMEC),the Dulong-Ir-rawaddy(Ayeyarwady)River,an international river among China,India and Myanmar,plays a significant role as both a valuable hydro-power resource and an essential ecological passageway.However,the water resources and security exhibit a high degree of vulnerabil-ity to climate change impacts.This research evaluates climate impacts on the hydrology of the Dulong-Irrawaddy River Basin(DIRB)by using a physical-based hydrologic model.We crafted future climate scenarios using the three latest global climate models(GCMs)from Coupled Model Intercomparison Project 6(CMIP6)under two shared socioeconomic pathways(SSP2-4.5 and SSP5-8.5)for the near(2025-2049),mid(2050-2074),and far future(2075-2099).The regional model using MIKE SHE based on historical hydrologic processes was developed to further project future streamflow,demonstrating reliable performance in streamflow simulations with a val-idation Nash-Sutcliffe Efficiency(NSE)of 0.72.Results showed that climate change projections showed increases in the annual precip-itation and potential evapotranspiration(PET),with precipitation increasing by 11.3%and 26.1%,and PET increasing by 3.2%and 4.9%,respectively,by the end of the century under SSP2-4.5 and SSP5-8.5.These changes are projected to result in increased annual streamflow at all stations,notably at the basin’s outlet(Pyay station)compared to the baseline period(with an increase of 16.1%and 37.0%at the end of the 21st century under SSP2-4.5 and SSP5-8.5,respectively).Seasonal analysis for Pyay station forecasts an in-crease in dry-season streamflow by 31.3%-48.9%and 22.5%-76.3%under SSP2-4.5 and SSP5-8.5,respectively,and an increase in wet-season streamflow by 5.8%-12.6%and 2.8%-33.3%,respectively.Moreover,the magnitude and frequency of flood events are pre-dicted to escalate,potentially impacting hydropower production and food security significantly.This research outlines the hydrological response to future climate change during the 21st century and offers a scientific basis for the water resource management strategies by decision-makers.

基于改进N-K模型的地铁盾构掘进安全风险耦合研究

为预防和控制地铁盾构掘进施工过程中的关键安全风险,并精准判断哪些风险耦合情境是导致事故发生的显著情境,提出改进N-K模型研究地铁盾构掘进安全风险耦合;综合运用文献研究、事故案例、专家访谈等方法,辨识地铁盾构掘进的关键安全风险因素;基于N-K模型提出新的地铁盾构掘进安全风险耦合评估模型,并选用安全事故案例验证该模型的适用性。结果表明:辨识得到地铁盾构掘进关键安全风险因素清单,包括4类一级风险因素,21个二级风险因素;地铁盾构掘进施工安全风险随着耦合因素种类的增加而变大,4因素风险耦合值最高,3因素风险耦合值次之,双因素风险耦合值最低,作业人员安全意识薄弱和机械故障参与作用的耦合情境更容易发生安全事故。

陆地高分辨率水文—生物地球化学过程CNMM-DNDC三维模型的研发及应用进展

CNMM-DNDC模型是本文作者团队研发的陆地高分辨率水文—生物地球化学过程三维模型。本文系统介绍了建模背景和理念、核心过程和模型特点、模拟功能和观测验证、多尺度区域或流域初步应用以及未来发展展望。自2018年刊发首个版本以来,该模型经过了多方面科学过程改进和模拟功能扩展,在元素化学反应、物质相变和机械迁移等基本物理、化学、生物过程层面,完成了对陆地表层系统碳氮磷水循环全耦合的精细刻画。迄今开展的观测验证表明,CNMM-DNDC模型基本普适于不同生物气候带(从热带到寒区多年冻土地带)的流域或区域长时间序列“三高”(时间、空间和过程高分辨率)综合模拟,实现对陆地生态系统的碳、氮、磷、水三维运移、水土流失、水力驱动溶解态和颗粒态碳氮磷横向迁移、碳氮温室气体和污染气体排放、生态系统生产力、水分蒸散发和水分能量平衡等众多可持续发展目标表征变量的预测。该模型广泛推广应用于多尺度区域或流域的复杂过程虚拟科学试验研究和服务于面向生态环境建设与减污降碳的优化调控决策,可望为协同落实联合国多个可持续发展目标提供先进的数值模拟技术支撑。

基于DEMATEL/N-K的机坪管制系统运行风险因素耦合分析

为了分析机坪管制系统风险因素的耦合性,将决策实验室分析(DEMATEL)模型与N-K模型相结合形成新的风险因素耦合分析模型。首先,利用N-K模型对2017—2019年机坪管制运行不安全事件进行耦合分析,计算不同耦合方式的耦合值;然后,利用DEMATEL模型计算安全风险因素的影响度和被影响度,确定要素的中心度排序,通过DEMATEL模型得到的综合影响矩阵计算可达矩阵,用来分析风险因素的可达性,最后,利用风险因素耦合值对各风险节点的中心度进行修正,获得关键的风险因素。基于实际运行数据,通过DEMATEL/N-K模型分析机坪管制系统的关键风险因素。结果表明,人为因素和机械因素之间的耦合程度明显更高,即更容易导致事故的发生,其中地面保障人员操作出错或未有效观察航空器造成航空器或地面保障设备故障是重点防控的对象。此外,在夜晚或雨天等视线条件下工作,更容易发生不安全事件,应当采取措施控制此类风险。

融合N-K模型的复杂网络船舶自沉事故风险因素耦合分析

为定量分析船舶自沉风险因素间的影响关系,识别导致船舶自沉事故的关键因素,科学预防事故的发生,引入融合N-K模型的复杂网络研究船舶自沉事故风险耦合。首先结合中国海事局公布的136起船舶自沉事故案例,分析事故致因,将船舶自沉事故风险因素归纳为4个一级风险因素和15个二级风险因素,运用N-K模型计算出一级风险因素风险耦合的发生概率和风险值;然后,以二级风险因素为节点、致因关联为边,构建危险因子的关联网络,通过风险可达性分析和网络节点中心度分析,探究危险因子的作用机制,对危险因子进行初步识别,并以N-K模型计算的耦合值对节点中心度进行改进,获得最终的关键风险因素;最后,挖掘船舶自沉事故致因网络的凝聚子群并进行分析,得到密度矩阵,确定风险关联性最强的二级风险因素,以期从事故源头上采取有效措施,为船舶自沉事故的科学预防提供有益参考。结果表明:船舶自沉事故的发生与风险耦合值成正比,耦合因素越多则风险值越大;人的因素和船舶因素风险耦合易导致船舶自沉事故;导致船舶自沉事故的关键风险因素为安全意识淡薄、公司未履责、船舶管理不到位、公司管理不到位、船舶故障、船舶不适航,其中安全意识淡薄与其他风险关联性最大,须重点防范。

A Novel and Efficient Catalytic System for Aerobic Oxidative Coupling of 2-Naphthol Derivatives

The paper reported a novel and efflcient aerobic oxidative coupling reaction of 2-naphthol derivatives catalyzed by CuCu (Ⅰ or Ⅱ)N-alkylimidazole complexes in excellent yields. The crystal structure of CuCu (Ⅱ)N-methylimidazole complex to be determined by X-Ray.

基于N-K-FRAM的空中交通运行安全风险耦合机制

为探究空中交通运行安全风险耦合演化特征,厘清基于N-K模型与功能共振分析方法(FRAM)相结合的空中交通运行系统耦合变异形成机制,首先,收集不安全事件文本数据,归纳事件中的风险因素并归类,得到其历史发生频率以及风险因素之间的耦合关系;其次,利用N-K模型求解运行风险因素间的耦合度值;然后,结合输出时间与精度,定量评估FRAM功能模块的可变性,分析空中交通运行安全风险耦合机制;最后,分别以区域导航(RNAV)进近不安全事件与偏离航路不安全事件为例,分析其安全风险。结果表明:基于N-K-FRAM的风险耦合机制能够合理有效地定量计算功能模块间的变异性,弱化了传统分析方法对主观意识的依赖性,分析结果更为客观科学。

Rspo3/Lgr5促进N-钙黏蛋白表达参与小鼠肝损伤

目的本文旨在研究在损伤肝组织中,特异性顶部盘状底板反应蛋白3(R-spondin3,Rspo3)上调周细胞N-钙黏蛋白(N-cadherin,Ncad,基因名Cdh2)表达,从而参与小鼠肝损伤。方法采用反转录实时定量聚合酶链反应法(reverse transcription-quantitative polymerase chain reaction,RT-qPCR)测定Rspo3,小鼠肝组织富含亮氨酸重复序列G蛋白偶联受体5(leucine-rich repeat-containing G protein-coupled receptor 5,Lgr5)和Cdh2 mRNA表达情况;采用蛋白质免疫印迹方法以及免疫荧光染色方法测定Ncad定位以及表达情况;分离并培养小鼠原代骨髓间充质细胞(bone marrow mesenchymal stromal cell,BMSC),采用靶向Lgr5的RNA干扰实验以确定Rspo3是否通过作用于Lgr5上调Ncad表达。结果在损伤小鼠肝组织中,Rspo3及其受体Lgr5显著上调;肝损伤时黏附连接蛋白Ncad表达上调,且与Rspo3及Lgr5表达量呈正相关;Ncad主要定位于损伤肝脏的周细胞;使用Rspo3处理小鼠原代BMSC能够上调Ncad表达,Lgr5 siRNA能使Ncad水平下降。结论在小鼠损伤肝组织中,Rspo3通过作用于受体Lgr5,上调周细胞中Ncad表达,从而影响小鼠肝损伤。

Synthesis and Characterization of Triarylamine-Based Block Copolymers by Combination of C-N Coupling and ATRP for Photorefractive Applications

Poly(4-butyltriarylamine)s with t-butyldimethylsilyl terminal protecting group (PBTPA-TBS) with various molecular weights were prepared by C-N coupling polymerization. The resulting precursors were postfunctionalized and subse- quently used as macroinitiators for atom transfer radial polymerization (ATRP) of n-butyl acrylate (n-BA) and ethyl acrylate (EA). Both the polymerization processes were controlled and the polymers were characterized by 1H NMR, gel permeation chromatography (GPC) and thermal properties, which confirmed the successful synthesis of all the poly-mers. The microphase separated behaviors of the poly (4-butyltriarylamine)-block-poly (butyl acrylate) (PBTPA-b-PBA) were examined by AFM in the film showing phase separation structures for all the polymers. The photorefractive property of the composite based on PBTPA-b-PBA block copolymer was evaluated by two-beam coupling experiment. A relative high gain coefficient of 42.7 cm?1 was obtained at the electric field of 31 V/?m.

Study of nonlinear mode–mode couplings between Alfvénic modes by the Fourier bicoherence and Lissajous-curve technique in HL-2A

Nonlinear couplings of various Alfvén modes driven by energetic particles in HL-2 A are addressed by employing the Fourier bicoherence and Lissajous-curve technique. Long-lived modes and high-frequency coherent modes are presented. Then the squared bicoherence of three waves establishes the existence of three-wave coupling. Lissajous-curves of those waves manifest that their phases are locked, which again confirms that they are nonlinearly coupled to each other. Moreover, coupled modes triggered by supersonic molecular beam injection are investigated. The phase evolution of them is given by the Lissajous-curve. Further details of phase-flip and phase-slip are presented and discussed.

改进N-K模型分析装配式建筑多阶段质量风险耦合

为探究装配式建筑多阶段质量风险因素间的耦合机制,促进装配式建筑质量的提升,采用改进的N-K模型计算耦合风险的大小.在归纳总结样本文献基础上构建多阶段多层次的风险指标体系,依次采用主观赋权的AHP法、客观赋权的惩罚-激励型变权综合评估法及拉格朗日乘子组合赋权法计算指标权重,并以权重代替概率方式对传统耦合模型进行改进,将203篇有关装配式建筑质量风险样本文献统计数据进行耦合风险值的计算,结果表明:风险耦合值的大小与参与耦合的风险因素个数成正相关;客观因素和主观因素结合后风险耦合值更大,更容易导致安全事故的发生;风险具有阶段间叠加传导的性质.

Pd(OAc)2 catalyzed synthesis of heteroaryl-substituted 1,8-naphthyridine derivatives via C-N-coupling reactions of chloronaphthyridines

An efficient route to synthesize the heteroaryl-substituted 1,8-naphthyridine derivatives was described. Eight 2-heteroaryl- and 2,7-diheteroaryl-1,8-naphthyridine derivatives were obtained through palladium-catalyzed C-N-coupling reactions of chloronaphthyridines with imidazole, benzimidazole, morpholine, 3,5-dimethylpyrazole, and phthalimide in moderate to good yields.

MABR-AO耦合工艺处理乡镇低C/N比生活污水效果研究

本研究针对村镇生活污水低碳氮比导致碳源不足、硝化-反硝化工艺动能不足、脱氮难度高导致脱氮效果不理想的问题,通过设计搭建膜曝气生物反应器(MABR)与传统AO工艺的耦合工艺系统,对村镇进水条件下的挂膜启动,处理低碳氮比(COD/TN为4、3、2、1、0.5)污水,并对两种活性污泥的生物多样性检测分析。结果表明,MABR挂膜周期约30天,系统达到较为稳定的污染物去除效果;在低碳氮比进水条件下,MABR-AO耦合工艺比AO工艺有更好的脱氮能力,总氮(TN)平均去除率相比AO工艺提高17.9%;MABR生物膜中OUTs更高,且脱氮类微生物占比高于AO工艺活性污泥,是脱氮能力更强的主要原因。该工艺运维简单,低碳氮比条件下总氮去除能力较强。

基于N-K模型和尖点突变的公交车交通事故风险分析

为了探究公交车交通事故中的风险耦合关系,从单因素、双因素和多因素的角度分析了公交车交通事故风险耦合关系,并建立了公交车交通事故风险耦合层次网络模型。基于N-K模型,构建了公交车交通事故双因素和多因素风险耦合度量模型,以国内发生的664起公交车交通事故为例,得到了不同风险因素耦合发生概率和风险耦合度值,建立了公交车交通事故尖点突变模型,最后通过仿真,使公交车交通安全系统风险状态可视化。结果表明:参与风险耦合的因素数量越多,发生公交车交通事故的风险越大;人的因素和道路因素具有较强的耦合性,在风险耦合过程中造成的风险最大,是影响公交车交通安全的关键因素。

复杂社会网络与N-K模型的氢能储运系统风险因素耦合分析

将复杂社会网络(SNA)与N-K模型的融合风险因素分析体系引入氢能储运系统安全风险评价中。收集整理国内外近20年来氢能储运事故案例;运用N-K模型计算风险耦合值并确定事故耦合形式,利用SNA构建关联网络计算风险度量;结合复杂社会网络可达性分析与N-K模型修正出接近中心度以确定关键风险因素,并提出相关对策措施。结果表明:避免人-设-环-管多因素风险耦合形式是降低事故发生概率的关键方式;设-环-管三因素风险耦合形式最易引起事故的发生;人才队伍、管理执行力度、规章制度、文化水平、专业技能是需要重点防范的关键风险因素。

基于优化N-K模型的洁净室高处作业安全风险耦合分析

为量化洁净室高处坠落致因因素耦合关系,利用N-K模型构筑洁净室高处作业安全风险耦合度量模型;进一步搭建洁净室高处作业风险因素指标体系,运用层次分析法优化经典N-K模型,从而获取各个风险因素的权重及其相应风险值,识别造成洁净室高处坠落事故的关键因素。结果表明,耦合风险值与耦合风险因素数量成正比;耦合风险因素数量相同时,各准则层风险因素影响程度依次为人员因素、安全管理因素、材料及设备因素、环境因素,即主观因素耦合风险大于客观因素耦合风险。耦合风险分析与近些年洁净室高处坠落事故案例相符合,关键致因因素及耦合情况与实际情况基本一致。

基于N-K和SNA模型的物流仓储安全风险因素分析

为提高物流仓储的安全风险管理水平,降低事故发生率,收集2008—2022年的174起物流仓储安全事故,采用N-K模型进行风险因素耦合分析,借助社会网络模型实现风险因素关系可视化,并进行中心度和可达性分析。结果表明:多因素耦合导致物流仓储安全事故发生的概率最大;控制人—管双风险因素耦合可有效避免物流仓储安全事故发生;安全意识淡薄、安全投入不足、安全教育不到位是物流仓储安全事故的关键风险因素,需重点防范。

三重四极杆电感耦合等离子体质谱法测定集成电路用N-甲基吡咯烷酮中14种金属杂质的含量

提出了有机加氧进样系统结合三重四极杆电感耦合等离子体质谱法测定集成电路用N-甲基吡咯烷酮(NMP)中Na、Cd、Pb、Mg、Al、Ca、Cr、Mn、Fe、Co、Ni、Cu、Zn、K等14种金属杂质含量的方法。通过氧气在线燃烧的方式降低了碳沉积对锥口的影响,采用标准加入法匹配基体效应,使用冷等离子体-氨气碰撞反应模式解决了碳元素质谱干扰的问题,如^(12) C^(12) C^(+)对^(24) Mg^(+)的干扰,^(12)C^(40) Ar+对^(52)Cr^(+)的干扰。14种元素的加标回收率为83.2%~123%,14种元素工作曲线的相关系数均大于0.9990,方法可用于分析杂质元素质量分数低于20.00ng·kg^(-1)的样品,满足先进制程的质量要求。

TCN-TiO_(2)/Zn(CH_(3)COO)_(2)-ACF复合材料吸附耦合光催化降解烷烃类VOCs性能研究

采用Zn(CH_(3)COO)_(2)通过超声-真空浸渍法对活性炭纤维(ACF)进行改性,通过水热横向热剥离法制备了管状氮化碳(TCN),并将其与TiO_(2)复合并负载于改性ACF上制备成TCN-TiO_(2)/Zn(CH_(3)COO)_(2)-ACF复合材料。应用扫描电子显微镜、透射电子显微镜、X射线衍射、N_(2)吸附-脱附、X射线光电子能谱、傅里叶变换红外光谱、紫外-可见分光光谱、光致发光光谱、光电流响应曲线对复合材料进行表征,并对复合材料催化正己烷降解的机理与降解率进行了研究。结果表明:光照条件下,TCN质量分数为4%的复合材料对正己烷的降解效果最好,其最佳的制备条件为负载2次、450℃下煅烧。采用此条件所制复合光催化剂,在体积空速为1000 h-1的条件下,质量浓度为200 mg/m^(3)的正己烷气体降解率可达到87.9%。采用Zn(CH_(3)COO)_(2)对ACF进行改性,使ACF吸附能力得到增强;TCN与TiO_(2)复合形成异质结,降低了电子-空穴复合率,从而提高复合光催化剂的吸附耦合光催化效率。

Investigation of the coupled reaction of methyl acetate and n-hexane over HZSM-5

The coupled reaction of methyl acetate and n‐hexane was carried out over a HZSM‐5 catalyst.In addition to a thermal coupling effect,systematic variations in the product distribution were also observed in the coupled system.The bezene‐toluene‐xylene(BTX)selectivity was remarkably improved while the H2,CO,and CO2 selectivity decreased.Rapid deactivation of the catalyst was observed,caused by the extremely high reactivity of methyl acetate,which was alleviated after adding n‐hexane.These results indicated that a coupling effect exists in this system.A detailed pathway for the coupled system is suggested based on the analysis of the surface species,carbonaceous species deposited on the catalyst,as well as the product selectivity changes.The good match between the"hydrogen deficiency"of methyl acetate and the"hydrogen richness"of n‐hexane is consistent with the observed coupling effect.