Assessment on eco-environmental quality of the Yellow River Basin by considering desertification index

Desertification has had a significant impact on the ecological environment of the Yellow River Basin(YRB)in China.However,previous studies on the evaluation of the ecological environment quality(EEQ)in the YRB have paid limited attention to the indicator of desertification.It is of great significance to incorporate the desertification index into the spatiotemporal assessment of the EEQ in the YRB in order to protect the ecological environment in the region.In this study,based on multi-source remote sensing data from 91 cities in the YRB,this article proposes a desertification remote sensing ecological index(DRSEI)model,which builds upon the traditional Remote Sensing Ecological Index(RSEI)model,to analyze the spatiotemporal changes in the EEQ in the YRB from 2001 to 2021.Furthermore,using the geographic detector(GD),and geographically and temporally weighted regression(GTWR)model,the study assesses the impact of human and natural factors on the EEQ in the YRB.The research findings indicate that:(1)Compared to the traditional RSEI,the improved DRSEI shows a decreasing trend in the evaluation results of the EEQ.Among the 24 cities,the change in DRSEI exceeds 0.05 compared to RSEI,accounting for 26.37%of the YRB.The remaining 67 cities have changes within a range of less than 0.05,accounting for 73.63%of the YRB.(2)The results of the GD for individual and interactive effects reveal that rainfall and elevation have significant individual and interactive effects on the EEQ.Furthermore,after the interaction with natural factors,the explanatory power of human factors gradually increases over time.The spatial heterogeneity results of GTWR demonstrate that rainfall has a strong direct positive impact on the EEQ,accounting for 98.90%of the influence,while temperature exhibits a more pronounced direct inhibitory effect,accounting for 76.92%of the influence.Human activities have a strong negative impact on the EEQ and a weak positive impact.

气候变化和人类活动对中国生态敏感性的影响分析与改善路径——基于响应曲面法

生态敏感性是指生态系统对外界干扰的反应程度。随着气候变化和人类活动日益加剧,二者分别以单独和交互作用的方式影响生态敏感性,进而暴露出整体或区域性的人口、资源与环境问题。因此,厘清气候变化和人类活动对生态敏感性的影响程度,并分级进行改善,有利于提升地区生态环境的韧性和可持续发展水平。该研究以中国31个省份为研究对象,基于2001—2020年的气象、遥感和统计数据,构建气候变化、人类活动和生态敏感性指标体系,运用主成分分析提取气候变化和人类活动的影响因子,利用响应曲面法(response surface methodology,RSM)分析各地区气候变化和人类活动单因子及交互作用对生态敏感性的影响,并以包含生态和气候敏感性的复合敏感值为依据,划分优化区、管控区和治理区,探究了敏感值较高的治理区的改善路径。结果表明:(1)中国生态敏感值在时间上呈波动下降态势,2001—2020年总体下降了2.2%;空间上呈现出“西高东低、北高南低”的空间布局,与2001年相比,2020年重度敏感及以上的省份数量减少了7.1%。(2)经济发展、气候变化、人口规模对不同省份生态敏感性的影响存在差异,受单因子影响的省份占比分别为77.4%、67.7%和54.8%;因子交互作用中,负交互效应占比为69.6%,说明大部分因子对另一因子影响生态敏感性的效应产生反向作用。(3)为减少气候变化对生态敏感性的负面影响,针对治理区内自然条件和发展速度不同的区域,需要有针对性地协调经济发展或人口增长,以确保在生态承载范围内推动经济社会可持续发展。

国家级一流本科专业核心课程建设与实践——以材料力学性能为例

一流课程建设是一流本科专业建设的基础,是人才培养模式的核心要素。以材料力学性能课程为例,介绍了材料专业核心课程理论与知识体系的特点,以及课程对工程教育专业认证标准的体现和支撑作用。阐述了一流课程建设中高阶性、创新性和挑战度的具体体现,详细介绍了一流课程建设的内容、思路和举措,包括课程教学内容重构、教学团队建设和实验教学改革等方面的举措,以及思政元素挖掘和课程思政实施的具体措施。课程建设的经验可为其他一流本科课程建设提供有益参考。

时空异质性视角下长江经济带水资源系统韧性评估及调控因子分析

水资源系统韧性的评估与调控是缓解水资源危机和规避水资源风险的重要途径之一。从水资源的自然资源、社会经济、生态环境等属性出发,综合考虑水资源系统韧性的抵抗性、恢复性、适应性特征,构建了包含水资源、水经济、水福利、水管理、水生态和水环境6个维度的水资源系统韧性评价指标体系,建立了基于麻雀搜索算法的投影寻踪模型,运用自然断点法识别区域空间分异特征,采用因子探测识别影响水资源系统韧性空间分布格局的调控因子。通过对2010—2019年长江经济带11个省(市)水资源系统韧性的分析发现,在空间上,长江经济带水资源系统韧性表现为西部最优、东部次之、中部最末,且南部优于北部;在时间上,长江经济带水资源系统韧性虽有波动但整体呈现上升的趋势。从6个维度来看,水生态韧性维度的韧性值区间跨度较大,在0.08~0.52之间波动,水福利韧性最高,水环境韧性次之。水资源和水福利的相关因子对水资源系统韧性的影响较为明显,水经济中的工业废水治理投资占GDP的比重和万元工业增加值用水量2个指标以及水福利中的供水管道密度和人均供水量2个指标的影响力逐渐上升。通过对长江经济带水资源系统韧性和调控因子的分析,有针对性地提出了提高长江经济带水资源系统韧性的对策建议。

长江经济带“水-能-碳”系统适应性评价及空间关联特征

为应对全球气候变化和资源环境压力,研究水资源、能源和碳排放(水-能-碳)系统间的复杂作用关系和适应性水平,对促进“自然-社会-经济”协调发展和推动经济社会高质量发展具有重要意义。基于复杂适应系统理论,界定“水-能-碳”系统适应性内涵,建立“水-能-碳”系统交互适应性框架,从敏感性、稳定性、兼容性和可持续性4个子系统构建系统适应性评价指标体系,运用综合协同进化模型评价2010—2021年长江经济带“水-能-碳”系统适应性水平,探究长江经济带“水-能-碳”系统适应性的时空演变规律。结果表明:(1)从系统适应性影响权重来看,子系统权重排序为:可持续性>稳定性>兼容性>敏感性。(2)从指标适应性来看,各指标绝对适应性大于相对适应性。从子系统适应性来看,敏感性水平呈稳定发展趋势,兼容性和稳定性水平呈上升趋势,可持续性水平呈下降趋势;从省际适应性来看,各省系统适应性差距较大且呈“下游>中游>上游”的不均衡态势;从整体适应性来看,长江经济带系统适应性处于中等水平且呈“U”型发展趋势。(3)从子系统适应性协调水平来看,敏感性协调程度保持稳定,兼容性和可持续性协调程度不断上升,稳定性协调程度有所减小。(4)从空间关联特征来看,长江经济带系统适应性水平存在显著的正向全局空间自相关,空间聚集由弱变强再变弱,区域差异逐渐缩小;并且系统适应性水平呈现出“东高西低”的梯度格局,省域差异显著且表现出较强的路径依赖。该研究据此从敏感性、兼容性、稳定性和可持续性等方面提出提高长江经济带“水-能-碳”系统适应性的政策建议。

工业集聚对县域产业绿色高质量发展的空间溢出效应研究——来自长江三峡生态经济走廊的证据

工业集聚不仅可以提升产业生产效率,还有效减少了产业发展过程中对于环境的污染,对县域经济高质量发展具有重要意义。论文基于2010-2020年长江三峡生态经济走廊42个县(市、区)的面板数据,测算出产业绿色高质量发展水平,利用空间杜宾模型检验了工业集聚对县域产业绿色高质量发展的影响。结果表明:(1)长江三峡生态经济走廊产业绿色高质量发展存在明显的空间相关性,且在研究期间内,空间相关性不断增强;(2)工业集聚对县域产业绿色高质量发展呈现显著正向的空间溢出效应,且工业集聚度增加1%,本地产业绿色高质量发展水平提升16.4%,周边县域提升17.7%;(3)该区域重庆县域工业集聚对产业绿色高质量发展产生了显著的抑制作用,控制变量对产业绿色高质量发展的影响也存在一定的区域异质性。基于此,针对长江三峡生态经济走廊建设提出建议以实现县域经济高质量发展。

TA15/YG8复合管扩散复合工艺设计及其施压阶段的有限元模拟

目的以制备钛合金/硬质合金叠层复合管为目标,基于钛合金和硬质合金的性能特点,解决使异种管材相互靠近的载荷难以直接施加的问题,设计开发钛合金/硬质合金复合管的扩散复合工艺。方法借鉴颗粒介质成形的基本原理,提出一种钛合金管-硬质合金管扩散复合方法,并以TA15钛合金和YG8硬质合金为原材料,通过有限元模拟研究了管间间隙、固体颗粒的填充度、固体颗粒的尺寸和管坯长径比等工艺参数对扩散复合施压过程中TA15钛合金管/YG8硬质合金管界面上径向应力分布的影响。结果有限元模拟结果表明,本文设计提出的钛/硬质合金异质管制备工艺确实能将轴向压力转变为径向贴合力,并且可以通过调控下压量满足扩散复合的压力需求(最小径向应力大于10 MPa)。沿轴线方向,钛合金管与硬质合金管之间的径向应力呈不均匀分布,并且受到管间间隙、颗粒填充度、颗粒的尺寸、管坯长径比等参数的影响。管间装配精度越高、固体颗粒尺寸越小、固体颗粒的填充度越多,越有益于管坯之间的扩散复合。试验结果表明,TA15钛合金/YG8硬质合金复合管在不同部位皆实现了良好的冶金结合。结论设计开发了一种钛合金/硬质合金复合管扩散复合方法,制备出具有良好冶金结合界面的TA15钛合金/YG8硬质合金复合管。

Spoke永磁同步电机多物理场设计研究

本文建立了Spoke永磁同步电机电磁-机械-温度场多物理场有限元模型,完成了方案设计和性能分析。首先采用等效方式考虑横向边端效应建立了快速的二维电磁模型,设计了转子铁心一体式结构并进行了优化,仿真得到电磁性能和额定工况损耗;然后建立三维转子机械强度分析模型,在加大负荷条件下仿真计算了转子应力和形变;其次研究了绕组及绝缘的等效处理方法,建立Fluent温度场模型,以电磁模型中的损耗作为热源,仿真模拟了电机额定工况下的动态温升;最后制作了样机并进行了电磁性能和温升试验,验证了多物理场有限元模型与设计方案的准确性。

基于体外实验的光电容积脉搏波信号检测及脉率特性

目的借助体外循环实验系统的可控参数优势考察血流参数变化对脉率特性的影响。方法建立一套搭载腕部体外模型的人体循环系统,通过分别改变心率、腕部流量、压力和系统顺应性等参数,从腕部模型中获取光电容积脉搏波信号,并提取脉率变异性的时域和频域指标。结果心率、压力和系统顺应性的改变会引起脉搏波形状的改变,但能够表明脉率变异性的时域指标NN50、PNN50数值为0,其他指标以及频域指标都处在极低值范畴。结论在未有心率变异性时,心率、腕部流量、血压和系统顺应性等血流动力学变化未产生明显的脉率变异性。本研究可为临床在更便利的腕部采集设备加持下开展更多脉率变异性和心率变异性研究提供参考。

超高输电铁塔的气动噪声特性研究

超高输电铁塔在保障居民日常生活和工业生产中起到了重要作用,由于极高的高度,其在风荷载作用下产生的气动噪声问题不容忽视。本文针对超高输电铁塔气动噪声扰民的问题,建立了其计算流体力学(Computational Fluid Dynamics,CFD)计算模型,采用标准k-ε湍流方程进行稳态初场的计算,并在此基础上采用大涡模拟方法与声类比方法进行瞬态流场计算及气动噪声计算,分析流场的流动特性及气动噪声特性。结果表明,4根主纵梁以及电梯井的左右两侧具有强烈的压力脉动,是主要的气动噪声源,其最大值出现在电梯井顶端区域;各虚拟测点的总声压级沿高度先增加后减小,总声压级沿高度的变化由风速与输电铁塔自身结构尺度参数共同控制;通过声成像测量方法确定了声源的在塔身中部以上、横担以下的位置,验证了仿真结果的正确性;声压级与风速的峰值出现的时刻基本吻合,输电铁塔风致噪声与风速存在着强相关性。本文的研究结论对于超高输电塔气动噪声特性的研究和输电塔的降噪设计具有指导意义。

可持续发展视角下水环境规制研究进展及其关键问题

全球正面临严重的水资源危机,有效的水环境治理手段是地区可持续发展的关键。环境规制作为其中一个重要的治理手段已被越来越多的学者研究,该研究领域目前已取得不少成果,对该领域现有文献进行系统的梳理,可为后续研究提供科学依据。基于CiteSpace软件,对Web of Science (WoS)数据库和中国知网(CNKI)数据库中所提取的2002—2021年水环境规制研究文献进行可视化知识图谱分析。结果表明:1)水环境规制研究领域WoS数据库文献研究起步早且发展迅速,而CNKI数据库文献研究发展较为落后;总体上该领域作者合作较少,仅核心作者间存在紧密的合作网络。2)目前研究重点为以政府管制为主的命令型水环境规制,而对以市场和公众为主导的市场激励型和隐性环境规制涉及较少。研究热点主要为水资源质量和数量规制、外部环境不确定性对水环境规制的影响以及水资源管理方法的改进。3)从研究趋势来看,水污染、水安全问题的改善是该领域持续关注的内容。未来一段时间水资源再生利用问题将是国内外水环境规制研究的热点。

城市节段预制桥梁双龙门吊平衡式高精度悬拼施工技术研究

文章针对悬拼质量与效率要求较高的节段预制装配式桥梁施工,结合深圳外环高速公路东莞段第一施工合同段现场实际施工情况,通过深入研究现有混凝土桥梁节段预制拼装技术,提出一种采用双龙门吊悬臂拼装施工方法,沿混凝土桥梁架设方向铺设龙门吊轨道,同步对称吊装桥梁预制节段,利用调节支座与万向吊具调整节段六点坐标,保证阶段安装精度。采用吊模法施工后浇湿接缝,完成混凝土桥梁节段预制拼装施工,相较于传统技术,整体施工效率与安全性得到显著提升,节段拼接质量也得到了进一步保证。

时空异质性视角下长江经济带水环境承载力评估及其驱动因子探究

基于水资源-水环境-社会经济耦合系统,构建了长江经济带水环境承载力综合评价指标体系,运用熵权-TOPSIS法测度其2010—2019年的水环境承载力,采用标准差椭圆、全局莫兰指数以及地理探测器等方法探究其时空格局演变和主要驱动因子。结果表明:长江经济带水环境承载力由大到小依次为下游、上游和中游,排名前三的省(市)依次是上海、浙江、重庆;水环境承载力省际不存在空间依赖性,其标准差椭圆呈现稳定的东西向空间分布格局和西南走向,重心分布于湖南岳阳与湖北荆州之间;水环境承载力的首要驱动因子是万元GDP用水量,社会经济子系统对水环境承载力影响程度最大,其次为水环境和水资源子系统,且不同区域的主要驱动因子存在显著空间异质性。

Characterising the nature, evolution and origin of detachment fault in central depression belt, Qiongdongnan Basin of South China Sea: evidence from seismic reflection data

Using regional geological, newly acquired 2D and 3D seismic, drilling and well log data, especially 2D long cable seismic profiles, the structure and stratigraphy in the deep-water area of Qiongdongnan Basin are interpreted. The geometry of No.2 fault system is also re-defined, which is an important fault in the central depression belt of the deep-water area in the Qiongdongnan Basin by employing the quantitative analysis techniques of fault activity and backstripping. Furthermore, the dynamical evolution of the No.2 fault sys-tem and its controls on the central depression belt are analyzed. This study indicates that the Qiongdongnan Basin was strongly influenced by the NW-trending tensile stress field during the Late Eocene. At this time, No.2 fault system initiated and was characterized by several discontinuous fault segments, which controlled a series small NE-trending fault basins. During the Oligocene, the regional extensional stress field changed from NW-SE to SN with the oceanic spreading of South China Sea, the early small faults started to grow along their strikes, eventually connected and merged as the listric shape of the No.2 fault system as ob-served today. No.2 fault detaches along the crustal Moho surface in the deep domain of the seismic profiles as a large-scale detachment fault. A large-scale rollover anticline formed in hanging wall of the detachment fault. There are a series of small fault basins in both limbs of the rollover anticline, showing that the early small basins were involved into fold deformation of the rollover anticline. Structurally, from west to east, the central depression belt is characterized by alternatively arranged graben and half-graben. The central depression belt of the Qiongdongnan Basin lies at the extension zone of the tip of the V-shaped northwest-ern ocean sub-basin of the South China Sea, its activity period is the same as the development period of the northwestern ocean sub-basin, furthermore the emplacement and eruption of magma that originated from the mantle below the Moho surface occurred at the region between Songnan-Baodao and Changchang sags, from east to west with the early-stage spreading of the South China Sea. Therefore, this study not only helps in depicting the structural features and evolution of the deep-water basin in the Qiongdongnan Basin, but also provides the geological and structural evidence for establishing a unified model of continental margin extension and oceanic spreading.

Vertical migration through faults and hydrocarbon accumulation patterns in deepwater areas of the Qiongdongnan Basin

In the Qiongdongnan Basin, faults are well developed.Based on the drilling results, the traps controlled two or more faults are oil-rich. However, when only one fault cut through the sand body, there is no sign for hy-drocarbon accumulation in the sandstone. In terms of this phenomenon, the principle of reservoir-forming controlled by fault terrace is proposed, i.e., when the single fault activates, because of the incompressibility of pore water, the resistance of pore and the direction of buoyancy, it is impossible for hydrocarbon to ac-cumulate in sandstone. But when there are two or more faults, one of the faults acts as the spillway so the hydrocarbon could fill in the pore of sandstone through other faults. In total five gas bearing structures and four failure traps are considered, as examples to demonstrate our findings. According to this theory, it is well-advised that south steep slope zone of Baodao-Changchang Depression, south gentle slope zone of Lingshui Depression, north steep slope zone of Lingshui Depression, and north steep slope zone of Baodao Depression are the most favorable step-fault zones, which are the main exploration direction in next stage.

长江三峡生态经济走廊生态系统服务的时空演化特征及影响因素研究

论文基于2000—2020年五期土地利用数据,定量分析长江三峡生态经济走廊生态系统服务价值的时空演化特征,采用空间相关、时空地理加权回归模型分析驱动力。结果表明:(1)从土地利用类型来看,森林是研究区域最主要的土地利用类型,建设用地与未利用土地是两种变化较快的土地利用类型;(2)从时空演化上看,该区域在2000—2020年时间段内的生态系统服务价值呈先增后减的趋势,生态调节服务始终是核心功能,气候调节的贡献率最大;空间分布呈现中部地区高、西部地区和东部边缘低的布局;(3)生态系统服务价值的正向空间相关性逐渐增强,中部区域巫溪县、云阳县等九个区县为高—高聚集区,东部西陵区、伍家岗区、猇亭区、点军区及垫江县为低—低聚集区,东部夷陵区为高—低聚集区,南部黔江区、秀山县为低—高聚集区;(4)影响因素中,蔓延度指数、斑块密度、斑块聚合度、第三产业占GDP比重、人均GDP影响在42个区县中呈现差异化表现,其中人均GDP负向影响程度最大。

跨国界河流水资源冲突演化博弈模拟研究

为分析个体行为特征和决策偏好对水资源冲突演化的影响,应用前景价值函数构建跨国界河流水资源冲突感知收益矩阵,运用演化博弈分析上下游决策行为演化路径与结果,构建系统动力学模型进行模拟仿真。结果表明:合作决策集的选择需要满足复杂的博弈条件;当上游积极放水的感知成本、上游消极放水的感知收入、下游主动争取的感知成本增加和水资源冲突风险感知成本减少时,将降低上下游合作的概率,流域将可能爆发水资源冲突。

Evaluation of abundant hydrocarbon-generation depressions in the deepwater area of Qiongdongnan Basin,South China Sea

It has been confirmed that the key source rocks of Qiongdongnan Basin are associated with the Yacheng Formation, which was deposited in a transitional marine-continental environment. Because the distribution and evolution patterns of the source rocks in the major depressions are different, it is important to determine the most abundant hydrocarbon-generation depressions in terms of exploration effectiveness. Based on an analysis of organic matter characteristics of the source rocks, in combination with drilling data and seismic data, this paper establishes a model to evaluate the hydrocarbon-generation depressions in the deepwater area of Qiongdongnan Basin. First of all, by using the method of seismic-facies model analysis, the distribution of sedimentary facies was determined. Then, the sedimentary facies were correlated with the organic facies, and the distribution of organic facies was predicted. Meanwhile, the thickness of source rocks for all the depressions was calculated on the basis of a quantitative analysis of seismic velocity and lithology. The relationship between mudstone porosity and vitrinite reflectance（Ro） was used to predict the maturity of source rocks. Second, using the parameters such as thickness and maturity of source rocks, the quantity and intensity of gas generation for Yacheng and Lingshui Formations were calculated. Finally, in combination with the identified hydrocarbon resources, the quantity and intensity of gas generation were used as a guide to establish an evaluation standard for hydrocarbon-generation depressions, which was optimized for the main depressions in the Central Depression Belt. It is proposed that Lingshui, Ledong, Baodao and Changchang Depressions are the most abundant hydrocarbon depressions, whilst Songnan and Beijiao Depressions are rich hydrocarbon depressions. Such an evaluation procedure is beneficial to the next stage of exploration in the deep-water area of Qiongdongnan Basin.

基于减法集对势的漳河上游水资源冲突风险评价与态势分析研究

为有效预防漳河上游水资源冲突,积极维护地区水安全,科学合理地评价水资源冲突风险和预测风险态势演化尤为重要。基于水量、用水效率、水质、生态环境和社会经济等5个维度构建了水资源冲突风险评价及态势分析框架,运用熵权法和集对分析理论构建了基于减法集对势的水资源冲突风险评价及态势分析模型,对漳河上游2011-2020年的水资源冲突风险进行评价,通过五元减法集对势动态分析风险发展态势。结果表明:漳河上游水资源冲突风险水平较低且呈现下降的态势;3个省份水资源冲突风险等级由高到低依次为山西省、河北省、河南省。从水资源冲突的5个维度来看,河北省需重点关注水量和用水效率引起的冲突风险,河南省整体情况较好,山西省则需重点关注水量、水质和社会经济引起的冲突风险。研究结果对识别漳河上游水资源冲突风险、缓解水事纠纷和维护地区稳定具有重要的现实意义。

Identification methods of coal-bearing source rocks for Yacheng Formation in the western deepwater area of South China Sea

Owing to the fact that the coal-beds are with the characteristics of multi-beds, thin single-bed, rapid lateral changes and deep burial, coal-bearing source rocks are difficult to be identified and predicted, especially in the lower exploration deepwater area. In this paper, a new integrative process utilizing geology and geophysics is proposed for better predicting the distribution of coal-bearing source rocks. Coal-beds were identified by the logging responses of“three higher, three lower, and one expand”and carbargilite were recognized by the characteristics of“four higher and one lower”. Based on the above logical decision, coal-beds and carbargilite can be distinguished automatically by cluster analysis of logging curves in verticality. Within the constraints of well-seismic calibration, the coal-beds group also can be detected in horizontality by the integrated representation of“negative phase, higher Q, lower impedance and lower frequency”within the seismic data. However, the distribution of coal-bearing source rocks utilizing geophysical methodology may do not conform to the geological rules of coal accumulation. And then the main geological controlling factors of coal accumulation are comprehensively analyzed as follows：（1） Paleotopography and tectonic subsidence determine the planar range of terrestrial-marine transitional facies markedly;（2） The relative sea level changes affect the accommodation space and shoreline migration, and limit the vertical range of coal-beds. More specifically, the relationship between the accommodation creation rate and the peat accumulation rate is a fundamental control on coal accumulation. The thickest and most widespread coals form where those two factors reached a state of balance;（3） The supply of autochthonous clasts and the distance between deposition places and paleovegetation accumulated area are the critical factor to form abundant coal, which means that if deposition area is close to paleouplift, there would be sufficient organic matters to form abundant source rocks. The results show that the integrated methods can significantly improve prediction accuracy of coal-bearing source rocks, which is suitable for early exploration of western deepwater area of South China Sea.