Spatio-temporal Evaluation of Multi-scale Cultivated Land System Resilience in Black Soil Region from 2000 to 2019:A Case Study of Liaoning Province,Northeast China

It is of great significance to systematically analyze the cultivated land system resilience(CLSR) for the black soil protection and national food security.The CLSR is impacted by planting structure adjustment and cultivated land quality decline,posing major hidden dangers to food security.It is urgent to evaluate the CLSR at multiple spatio-temporal scales.This study took Liaoning Province in the black soil region of Northeast China as an example.Based on the resilience theory,this study constructed the CLSR evaluation system from the input-feedback perspective at the provincial-scale and the city-scale,and used the rank-sum ratio comprehensive evaluation method(RSR) to analyze the key influencing factors of CLSR in Liaoning Province and its 14 cities from 2000 to 2019.The results showed that:1) the time series changes of CLSR at the provincial-scale and the city-scale in Liaoning Province were similar,both showing an increasing trend.2) The CLSR in Liaoning Province presented a spatial pattern of ‘high in the west and low in the east’ at the city-scale.3) There were seven and six main influencing factors of CLSR at the provincial-scale and the city-scale,respectively.In addition to the net income per capita of rural households,other influencing factors of CLSR were different at the provincial-scale and the city-scale.The feedback factors were dominant at the provincial-scale,and the input factors and feedback factors were dominant at the city-scale.The results could provide a reference for the utilization of black soil and draw on the experience of regional agricultural planning and adjustment.

MULTIAXIAL CREEP-FATIGUE LIFE EVALUATION UNDER PROPORTIONAL LOADING

A new method was proposed for the multiaxial creep-fatigue life evaluation under proportional loadings. Because this method was derived from the strain range partitioning method with a multiaxiality factor, it was possible to consider the influence of both creep-fatigue interaction and multiaxial stress state on fatigue life. In order to predict the combined axial-torsional fatigue life the damage under combined loading was defined as linear summation of the damages under axial loading and torsional loading. Axial-torsional creep-fatigue tests were carried out using tubular specimens of 316LC austenitic stainless steel and the ferritic rotor steel. This rotor steel was developed for the permanent magnet type eddy current retarder in heavy trucks. Experimentally obtained lives of both steels were well corresponded with the lives predicted by the proposed method. It was found that the proposed method was effective in multiaxial fatigue life evaluation under proportional creep-fatigue loadings.

Health evaluation method for degrading systems subject to dependent competing risks

This paper proposes a health evaluation method for degrading systems subject to competing risks of dependent soft and hard failures. To characterize the time-varying degradation rate, the degradation process is determined by a non-stationary Gamma process and the soft failure is encountered when it exceeds a predefined critical level. For the hard failure, a Cox’s proportional hazard model is applied to describe the hazard rate of the time to system failure. The dependent relationship is modeled by incorporating the degradation process as a time-varying covariate into the Cox’s proportional hazard model. To facilitate the health characteristics evaluation, a discretization technique is applied both to the degradation process and the monitoring time.All health characteristics can be obtained in the explicit form using the transition probability matrix, which is computationally attractive for practical applications. Finally, a numerical analysis is carried out to show the effectiveness and the performance of the proposed health evaluation method.

Fairness Aware Rate Adaptation and Proportional Scheduling for IEEE 802.11 WLANs Using FSE

With its rapid development in the wireless markets, IEEE 802.11 WLAN is experiencing a huge popularity. However, due to the limitation of frequency bandwidth of WLANs, it is essential that the available radio resource should be fully utilized to offer different services to multiple users. In order to maximize system throughput while still guaranteeing the fairness among users, a proportional fairness based algorithm is proposed in this work. Since most of the previous resource allocation algorithms were simply based on the channel conditions without taking into account user's demand, in this paper, we introduce the theory of fuzzy synthetic evaluation(FSE) which also allows us to consider user's demand as an important factor. As such, the fairness among users can be improved based on different users' requirements for services. In addition, a channel state information based rate adaptation scheme is also proposed. Through simulation studies, the results clearly validate that our proposed scheme shows advantages on providing user fairness while still improving the system throughput.

基于离差最大化-灰色关联的修补混凝土配合比评价

针对西北地区损伤混凝土的复杂服役环境,采用硅粉取代率、水玻璃取代率、玄武岩纤维掺量以及UEA膨胀剂取代率为考察因素进行修补混凝土正交试验方案设计。基于流动性、力学性能和体积稳定性这三个评价性能,按照重要性排序引入了12个具体试验指标(即3 d、7 d和28 d抗压强度,1 d、3 d、7 d、14 d、28 d、45 d、60 d和90 d膨胀率以及塌落度),进行测试。对于试验结果,建立了离差最大化-灰色关联体系进行修补混凝土配合比综合评价,优选出了一种流动性好、早期强度高且后期强度发展好的微膨胀修补混凝土配合比X4(A_(2)B_(1)C_(2)D_(3))。此外,该综合评价体系能够科学、合理地反映评价者对指标重要性的主观意见与实际试验的客观性,可用于多因素、多动态指标下混凝土配合比的优选与综合评价。

椰糠型生态保育基质的水力-入渗特性及配比寻优

[目的]荒漠戈壁因降水量少、蒸发量大等环境因素胁迫,植被稀疏,水土流失严重。探索适宜的土壤改良方法,以提升其保水性、持水性,对于荒漠化防治及戈壁生态农业发展十分重要。[方法]以无椰糠基质组别T0(风沙土∶有机肥∶人造泥炭=7∶3∶1)为对照,对理化性质较好的3组配比椰糠型生态保育基质(风沙土∶椰糠∶有机肥∶人造泥炭=3.5∶3.5∶3∶1或3∶4∶3∶1或2∶5∶3∶1,依次为T1、T2、T3)进行水力-入渗特性试验;利用离心机法测定基质水分与吸力的关系,探究该基质的水力特性;再通过室内定水头土柱入渗试验分析基质的入渗特征;并以测定的各项指标为基础,结合坐标综合评定法进行配比寻优。[结果]T1、T2、T3组别较之T0组别,田间持水量分别增加10.22%,12.13%,14.99%,全有效水含量分别增加8.10%,8.81%,12.83%;在吸力水头的对数值P f=1.8~3.8阶段(基质吸力对数值),各组别比水容量均值大小为T3>T2>T1>T0;根据灰色关联分析,入渗能力大小为T3>T2>T0>T1。[结论]适宜比例椰糠混掺改变基质的有效水含量和孔隙分布比,显著提升基质的保水持水能力。从理化性质、水力及入渗特性角度综合来看,T3配比最优。

基于切片采样-马尔科夫链蒙特卡洛模拟的高比例新能源电力系统等效惯量概率评估

风电、光伏新能源发电功率的不确定性给高比例新能源电力系统的等效惯量评估带来了新的挑战。基于确定性的惯量评估方法不能有效反映全分析时段高比例新能源电力系统惯量的时序变化态势。为了评估新能源波动所引起的系统惯量不确定性,该文提出了一种基于切片采样–马尔科夫链蒙特卡洛模拟(slice sample Markov chain Monte Carlo,S-MCMC)的系统等效惯量概率评估方法。首先,对高比例新能源电力系统惯量组成及特性进行了分析,并对同步旋转设备的有效机械惯量、风电光伏电源的有效虚拟惯量进行量化计算。然后,基于Copula函数建立风速和光照强度之间的相关性模型,利用S-MCMC对系统等效惯量进行概率评估,从而得到系统等效惯量时序变化区间。最后,以改进的IEEE 39节点系统进行仿真分析,验证了所提出方法及分析结果的有效性。

含代赭石方剂主治病证的用药规律分析

目的 基于数据挖掘方法,对《中医方剂大辞典》中含代赭石的方剂进行分析,为指导代赭石临床用药提供新参鉴。方法 收集整理《中医方剂大辞典》中包含代赭石的方剂,按时期和主治疾病进行对应分析、加权秩和比综合评价和关联分析,分析代赭石应用的主治病证的用药规律及时代特点。结果 共收集处方160个,治疗新生儿病、小儿特发病类主要与朱砂、麝香配伍;治疗妇女经带杂病类主要与赤石脂、熟地黄配伍;治疗脾系病类主要与旋覆花配伍。结论 《中医方剂大辞典》中含代赭石的方剂用药特点明确,在不同时期与不同主治时的用药规律和特点有其独特的优势,有助于指导新的现代临床应用。

Optimization of Open-cast Mining Procedure Based on RSR Method

To explore the optimal evaluation mechanism of open-cast mining procedure,this paper takes the actual operation status of Huolinhe No.1 Open-cast Mine as the research basis,and makes a deep analysis of the four representative mining procedures proposed by this mine.A detailed and comprehensive evaluation system is constructed using rank-sum ratio(RSR)method.The system covers 17 key indicators and aims to evaluate the advantages and disadvantages of each scheme in an all-round and multi-angle manner.Through the calculation and analysis by RSR method,the comprehensive evaluation of the four types of mining procedure schemes is carried out,and finally the secondary river improvement project is determined as the optimal mining implementation scheme,and the joint mining scheme of the south and north areas is the alternative strategy.The research results of this paper are objective,clear and definite,can not only reveal the effectiveness and feasibility of RSR method in solving the problem of open-cast mining procedure optimization,but also provide a strong technical support and decision-making basis for the future production development of Huolinhe No.1 Open-cast Mine.Thus,this study is expected to further promote the scientific and refined process of mining operations.

基于生产模拟的新型输电网规划方案效率效益评价方法

常规基于典型日的输电网规划方案评价方法不仅缺乏综合的效率效益评价指标体系,而且对新能源随机性与波动性的考虑不足。针对新型输电网规划方案效率效益评价需求,从多个时间尺度提出了综合效率效益评价指标体系,建立了考虑了风电、光伏出力随机波动性的新型输电网时序生产模拟模型,实现对规划方案全年8760 h的生产模拟,得到一系列基于生产模拟结果的评价指标值。在此基础上,提出了一种基于主客观赋权与模糊综合评价结合的输电网规划方案效率效益综合评价方法,避免了评价过程中的主观与客观方面的不足,为新型输电网规划方案多时间尺度的效率效益评价提供了有效的方法。基于西南某实际电网规划方案的效率效益评价算例,证明了所提方法的有效性。

水泥稳定钢渣碎石配合比设计及性能评价

为推进水泥稳定碎石中钢渣废弃物的资源化利用,文章通过室内试验,对水泥稳定钢渣碎石作为路面基层的性能与普通水泥稳定碎石的性能进行对比分析,对水稳钢渣碎石的7 d无侧限抗压强度、干缩性能、抗压回弹模量等指标进行相关研究,最终确定水泥稳定钢渣碎石配合比的设计结果,为水稳钢渣用于道路基层提供了技术依据。

考虑风电主动参与频率控制的电力系统运行可靠性评估

近年来,通过采用合理的控制策略,双馈感应式风力发电机组已广泛参与系统的频率调节过程。因此,风电作为一种日益重要的能源,有望在现代电力系统中兼具重要的发电和频率调节任务。考虑到风力资源的多变性,风力发电具有固有的不确定性,大规模风电并网会给电力系统可靠性和频率安全带来冲击。研究了高比例风电电力系统可靠性和频率的综合评估问题,首先,对计及双馈风机虚拟惯性响应的系统频率调节过程建模,求解系统在供需波动和设备故障下频率偏差的解析表达式;其次建立了发电机频率敏感的可靠性模型,旨在分析系统可靠性和频率偏差间的耦合关系;最后提出了多时间尺度分析框架用于计算系统可靠性和频率综合指标。结果显示,提出的框架在可靠性评估中综合考虑了频率调节过程及频率变化对可靠性参数的影响,可为高比例风电电力系统运行可靠性研究提供一定指导。

气孔杏仁状玄武岩有利储层划分方案初探——以新疆乌尔禾地区哈拉阿拉特组第一岩性段为例

气孔杏仁状玄武岩是准噶尔盆地西北缘乌尔禾地区新确立的主要储层之一,已发现的火山岩型油气藏至少有一半产于哈拉阿拉特组火山岩中。该组第一岩性段气孔杏仁状玄武岩极为发育,占该段总厚度的78%以上,是研究火山岩储层的理想层位。杏仁体成分几乎全为易被水溶解的次生方解石,多呈圆状—次圆状,多数连通呈网状、树枝状和不规则状。经统计确认,井中水介质溶解杏仁体后,其孔隙度增加3.6~4.5倍,因而成为理想的储层岩类。设定气孔单位面积占比、连通性占比、杏仁体水解增孔占比这3个单项评价指标在同一件样品中均达优级时为优级储层,至少2项指标达优级时为良级储层。因此,保守估计110件样品中超过50%的样品可达良级及以上,总体显示出良好储集潜力。上述划分方案可以为建立气孔杏仁状玄武岩的储集性能综合评价方案提供参考。

基于迭代融合优化算法和WPHM的牵引电机轴承可靠性评估

为了评估列车牵引电机轴承的运行可靠性,提出一种基于反向指数鲸鱼群(OEWOA)与粒子群(PSO)迭代融合的优化算法和威布尔比例故障率模型(WPHM)的评估方法。提取振动信号的时域、频域特征指标,利用主成分分析法(PCA)进行特征信息的融合,将融合后的特征指标作为WPHM的响应协变量进行可靠性评估。针对模型中多个参数直接求解困难的问题,利用反向学习策略(OBL)和指数收敛因子提高鲸鱼算法(WOA)的搜索能力,迭代融合PSO算法良好的收敛能力;通过OEWOA的探索指导PSO的迭代,避免PSO陷入局部最优,从而彻底探索搜索空间,同时使用PSO限制OEWOA的搜索,以便更快地将解收敛到全局最优值。应用该优化算法对WPHM中多个参数进行求解,实现牵引电机轴承运行可靠性的评估。结果表明,该方法与PSO、WOA等优化算法比较,具有更快的收敛速度和寻优能力。

三江源区小黑麦与豆科饲草混播最佳组合及比例研究

研究不同饲草禾豆混播组合及比例对三江源玉树地区人工草地的建植具有重要的科学意义。为筛选出最佳混播组合及比例,以小黑麦(Triticale)、箭筈豌豆(Vicia sativa)、饲用豌豆(Pisum sativa)为试验对象,研究不同混播组合及比例对饲草产量及品质的影响。结果表明:小黑麦+箭筈豌豆、小黑麦+饲用豌豆两种混播处理下,饲草干草产量比单播小黑麦分别提高19.50%、5.49%,比单播豆科饲草产量分别提高55.17%、111.97%。随着各混播处理中豆科饲草播量增加,饲草粗蛋白含量逐渐升高,而中性洗涤纤维、酸性洗涤纤维含量均逐渐降低。土壤全磷、全氮、有机碳养分含量均呈现增加趋势。运用灰色关联度对饲草进行综合评价,小黑麦+箭筈豌豆(7∶3)较其他处理的混播处理具有更好的产草量以及更优的饲草品质,小黑麦+饲用豌豆(5∶5)与其余混播处理相比较在产草量及品质方面有更大潜力。

基于PPR-TOPSIS分析法的沥青混凝土配合比方案优选

针对沥青混凝土配合比设计方案优选过程易受主观因素影响导致结果不确定和最优方案选择难的问题,以乔拉布拉沥青混凝土心墙工程配合比设计为例,将配合比评价指标的综合效益作为目标,提出了投影寻踪回归(PPR)建模技术与基于熵权的TOPSIS综合评价法相结合的配合比优选方法(PPR-TOPSIS分析法)。结果表明:构建的沥青混凝土评价指标PPR模型计算精度高,合格率达93.1%,平均相对误差为2.01%,可对不同因素水平组合的配合比方案的评价指标进行精确预测;利用PPR-TOPSIS分析法得到的最优配合比方案试验结果满足规范标准,相较传统的设计方法减少了人为主观因素影响并实现了全试验因素水平组合的方案寻优及定量评价,得到的配合比方案更为合理。

基于能量匹配的充填体强度设计及料浆配比优化

由于各矿山地质条件不同、开采方法及结构参数不同,且影响充填体强度因素多而复杂,给安全经济合理的充填体强度确定带来困难。本研究根据前期胶砂强度试验、管输特性试验的结果,基于充填体与围岩相互作用关系,采用能量耗散理论,分别确定一步采和二步采充填体合理强度;在此基础上,结合料浆管输特性,采用多目标模糊综合评判理论对充填料浆配比进行优化,在满足充填体强度和料浆流动性基础上进一步降低充填成本。研究表明:一步采和二步采充填合理强度分别为2.50 MPa和1.0 MPa,固化时间均为28 d;充填料浆优化配比均为胶砂比1∶5和料浆浓度64%。试验验证表明所得优化配比具有较高可靠性,可为工业充填提供依据。

城市综合管廊PPP项目政府补贴模式研究

将城市综合管廊PPP项目政府补贴分为固定补贴与可变补贴两部分,设置绩效评价激励系数并利用讨价还价博弈模型确定可变补贴占比系数,实现绩效评价结果与政府补贴额相挂钩,设计出科学合理的政府补贴模式。希望以此充分发挥政府财政补贴的激励作用,达到政府方、社会资本方双方满意的效果,为相关决策者提供参考。

基于最小惯量评估的高比例新能源电力系统优化运行策略

高比例新能源接入给电力系统频率稳定带来了严峻挑战,同时也给电力系统的安全经济运行提出了新要求。现有研究大多采用内嵌频率稳定约束的方式来应对该问题,但该应对手段通常需要通过线性化处理或复杂的非线性优化手段进行求解,且通常仅从调度手段出发应对惯量不足问题。从最小惯量评估的思路出发,提出了一种面向高比例新能源电力系统优化运行方法。该方法基于“预处理”–“最小惯量评估”–“优化运行”三阶段运行架构,将内嵌频率稳定约束的优化运行问题解耦为“最小惯量评估”和“优化运行”2个步骤。该方法通过加入最小惯量约束的方式保障系统的频率稳定性,且可兼顾考虑调度手段和虚拟惯量补充手段对惯量不足场景的支撑作用。该方法思路清晰、易操作,优化运行模型的线性程度高,具有一定工程应用前景。最后,通过仿真分析验证了该方法的有效性和优越性。

黄河粉砂制备生态型高强度混凝土的研究

采用黄河中堆积的超细粉砂制备高强度混凝土,对制备的试样进行工作性能、力学性能、热重性能、微观结构以及生态影响研究。结果表明:黄河粉砂的掺入,提高了混合物的流动性能,使其凝结时间变长;粉砂替换水泥的替换率为5%~50%时,混凝土仍然具有较高的抗压强度,当替换率为5%时,所制备的混凝土湿堆积密度最大、抗压强度最高;随着替换率的增大,累计孔隙体积增大,环境污染指标逐渐降低。为制备环境经济友好型黄河粉砂高强度混凝土提供试验和理论依据。