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1.
利用地理信息技术及遥感监测方法,监测香坊老工业区搬迁改造试点进展情况,主要针对搬迁改造过程中地表覆盖、用地性质、空气质量变化情况,开展综合统计分析,客观评价香坊老工业搬迁改造实施成效。 相似文献
2.
采用空间分析和空间杜宾模型等方法,研究1999—2017年中国工业烟粉尘排放时空演化特征及其影响因素。结果表明:① 中国工业烟粉尘排放空间分布差异明显,其排放的基尼系数和污染物分布指数均呈现下降态势,空间集中程度有所缓和。② 中国工业烟粉尘排放空间分布呈东北?西南走向,其排放中心不断由东南向西北方向迁移。③ 中国工业烟粉尘排放存在空间相关性和空间溢出效应,其冷热点区空间分布发生显著变化。④ 能源消耗、第二产业比重、人口密度和经济发展水平的提升将会增加工业烟粉尘排放,而外资水平、治理技术水平和环境规制力度的提升则有利于减少工业烟粉尘排放。 相似文献
3.
以2014年广州市中产阶层聚居区24个街道、50个社区进行的问卷调查和深度访谈资料为数据源,从住房需求意愿与区位选择方面分析了广州中产阶层住房选择,并运用多元Logistic回归分析法对其影响因素进行研究。研究发现:1)广州市中产阶层住房区位选择表现出明显的“向中心城区”性;2)现居住现状(人均住房面积、现小区区位、现小区建成年代、现居住时间)、家庭生命周期(年龄、家庭规模、子女数量)和经济水平(家庭年总收入、个人年总收入、私家车拥有量)等因素对中产阶层住房需求意愿具有显著影响;3)家庭生命周期(年龄、家庭规模)、个体因素(教育程度、户籍地)等要素对中产阶层住房区位选择具有显著影响。4)制度因素、区位因素和个体因素共同影响着广州市中产阶层住房区位选择。 相似文献
4.
创新型企业作为塑造创新地理格局的重要力量,其区位选择的外部特征及内在机理亟须予以系统化研究。基于对安徽省创新型企业的细分行业与空间建库,采用核密度估计和地理探测器等方法,对细分行业下的创新型企业空间集聚特征及影响因素进行研究。结果表明:(1)安徽省创新型企业类型以先进制造和自动化为主,并以生物与新医药、新材料、电子信息为辅;(2)创新型企业空间集聚的不均衡特征显著,呈现出“一核一带多节点”的集聚分布特征,且合肥、芜湖是两个重要集聚区;不同细分行业视角下创新型企业的空间分布形态各异,可归纳为点-轴式、极核式、双核式及多核分散式等4种空间组织形态。(3)创新型因子对于创新型企业的空间集聚最为重要,但传统型和政策型因子的重要性仍不容忽视。其中,产业基础、人力资本、创新投入是最核心的因素,但各行业创新型企业的影响因素作用力则表现出一定的异质性。 相似文献
5.
以FeCl3?6H2O、NiCl2?6H2O、MgCl2?6H2O为原料,以NaOH为沉淀剂采用水热法合成了镁镍铁水滑石 (MgNiFe-LDH),通过X射线衍射 (XRD)、傅里叶变换红外光谱 (FTIR) 和扫描电镜 (SEM) 分析了MgNiFe-LDH结构及形貌,探讨了不同陈化时间和水热温度对MgNiFe-LDH合成的影响。将制得的MgNiFe-LDH添加至聚丙烯 (PP) 中,制备MgNiFe-LDH/PP复合材料,通过对材料的加速老化测其力学性能,研究了添加MgNiFe-LDH前后材料力学性能的差异。研究结果表明,当Mg2+:Ni2+:Fe3+=2:1:1,反应温度为140℃、陈化时间为24 h时,合成的MgNiFe-LDH为片状,形貌较为规整,颗粒粒径约为2μm;经加速老化后,填充MgNiFe-LDH 复合材料的抗老化性能优于纯PP,当MgNiFe-LDH的填充量为6 wt% 复合材料拉伸强度不变,可明显提高PP的抗老化性能。 相似文献
7.
Peng Yue Fan Gao Boyi Shangguan Zheren Yan 《International journal of geographical information science》2020,34(11):2243-2274
ABSTRACT High performance computing is required for fast geoprocessing of geospatial big data. Using spatial domains to represent computational intensity (CIT) and domain decomposition for parallelism are prominent strategies when designing parallel geoprocessing applications. Traditional domain decomposition is limited in evaluating the computational intensity, which often results in load imbalance and poor parallel performance. From the data science perspective, machine learning from Artificial Intelligence (AI) shows promise for better CIT evaluation. This paper proposes a machine learning approach for predicting computational intensity, followed by an optimized domain decomposition, which divides the spatial domain into balanced subdivisions based on the predicted CIT to achieve better parallel performance. The approach provides a reference framework on how various machine learning methods including feature selection and model training can be used in predicting computational intensity and optimizing parallel geoprocessing against different cases. Some comparative experiments between the approach and traditional methods were performed using the two cases, DEM generation from point clouds and spatial intersection on vector data. The results not only demonstrate the advantage of the approach, but also provide hints on how traditional GIS computation can be improved by the AI machine learning. 相似文献
8.
Land surface actual evapotranspiration is an important process that influences the Earth's energy and water cycles and determines the water and heat transfer in the soil-vegetation-atmosphere system. Meanwhile, the cryosphere's hydrological process is receiving extensive attention, and its water problem needs to be understood from multiple perspectives. As the main part of the Chinese cryosphere, the Tibetan Plateau faces significant climate and environmental change. There are active interaction and pronounced feedback between the environment and ETa in the cryosphere. This article mainly focuses on the research progress of ETa in the Tibetan Plateau. It first reviews the ETa process, characteristics, and impact factors of typical underlying surfaces in the Tibetan Plateau (alpine meadows, alpine steppes, alpine wetlands, alpine forests, lakes). Then it compares the temporal and spatial variations of ETa at different scales. In addition, considering the current greening of cryosphere vegetation due to climate change, it discusses the relationship between vegetation greening and transpiration to help clarify how vegetation activities are related to the regional water cycle and surface energy budget. 相似文献
9.
In the aggressive marine environment over a long-term service period,coastal bridges inevitably sustain corrosion-induced damage due to high sea salt and humidity.This paper investigates the strength reduction of coastal bridges,especially focusing on the effects of non-uniform corrosion along the height of bridge piers.First,the corrosion initiation time and the degradation of reinforcement and concrete are analyzed for bridge piers in marine environments.To investigate the various damage modes of the concrete cover,a discretization method with fiber cells is used for calculating time-dependent interaction diagrams of cross-sections of the bridge piers at the atmospheric zone and the splash and tidal zone under a combination of axial force and bending moment.Second,the shear strength of these aging structures is analyzed.Numerical simulation indicates that the strength of a concrete pier experiences dramatic reduction from corrosion initiation to the spalling of the concrete cover.Strength loss in the splash and tidal zone is more significant than in the atmospheric zone when structures’service time is assumed to be the same. 相似文献
10.
Li-Li Yan Bing-Jie Cheng Tian-Ji Xu Ying-Ying Jiang Zhao-Jun Ma Jian-Ming Tang 《应用地球物理》2018,15(1):57-68
Anisotropy correction is necessary during the processing of converted PSwave seismic data to achieve accurate structural imaging, reservoir prediction, and fracture detection. To effectively eliminate the adverse effects of S-wave splitting and to improve PSwave imaging quality, we tested methods for pre-stack migration imaging and anisotropic correction of PS-wave data. We based this on the propagation rules of seismic waves in a horizontal transverse isotropy medium, which is a fractured medium model that reflects likely subsurface conditions in the field. We used the radial (R) and transverse (T) components of PS-wave data to separate the fast and slow S-wave components, after which their propagation moveout was effectively extracted. Meanwhile, corrections for the energies and propagation moveouts of the R and T components were implemented using mathematical rotation. The PS-wave imaging quality was distinctly improved, and we demonstrated the reliability of our methods through numerical simulations. Applying our methods to three-dimensional and three-component seismic field data from the Xinchang-Hexingchang region of the Western Sichuan Depression in China, we obtained high-quality seismic imaging with continuous reflection wave groups, distinct structural features, and specific stratigraphic contact relationships. This study provides an effective and reliable approach for data processing that will improve the exploration of complex, hidden lithologic gas reservoirs. 相似文献