长江三角洲创新发展空间溢出效应的测度与分解

一体化深化背景下,准确把握城市群创新互动关系,对于推动高质量发展具有重要现实意义。空间溢出是创新发展互动关系重要体现之一,基于城市尺度数据、空间计量方法,对长江三角洲创新发展空间溢出效应进行多角度研究。主要结论如下：（1）城市创新发展存在显著为正的空间溢出效应,创新人才、资金投入、经济发展、交通设施和对外开放等都是创新发展重要驱动因素,但不同因素空间溢出效应存在差异。（2）不同区域、不同时期对比发现,创新发展空间溢出效应存在显著差异,如区域对比核心区时间演变明显增强等。（3）空间溢出效应随距离增加呈现“倒U型”演变趋势,且这一效应在325 km处最大,而后空间溢出效应的缓慢波动下降与中心城市相对均衡分布有关。本文为识别城市创新发展互动关系提供了新视角,对推动城市群创新发展、一体化深化等具有现实指导意义。     

数字经济、人才流动与长三角地区高质量发展

数字经济技术在产业转型和经济高质量发展中扮演着越来越重要的角色。基于2011—2018年长三角“三省一市”共41个城市数据,测度了长三角地区数字经济和高质量发展的综合水平,分析数字经济对长三角地区高质量发展的影响,创新性地构造了人才流动不平衡指标,并探讨区域内人才流动不平衡对二者关系的调节效应。研究发现：长三角地区高质量发展水平和数字经济规模逐年上升。数字经济发展通过提升生产效率、流通效率和社会便利促进长三角地区高质量发展,非核心区域的正影响强度大于核心区域。人才流动不平衡会逆向调节数字经济对长三角地区高质量发展的正影响程度,但这一调节效应存在区域异质性。此外数字经济对长三角地区高质量发展存在经济距离为权重矩阵的空间负向溢出效应。     

长江三角洲跨界流域生态产品交易机制——以天目湖流域为例

生态价值多元化实现是落实区域一体化生态保护格局的经济政策保障。针对当前生态产品交易制度不完善与市场活跃度问题,以天目湖流域水质净化服务产品为例,提出一条生态保护市场化与生态产品增值的双向促进道路：基于长序列监测数据与水文水质过程模型,提出流域生态保护基准概念及其约束下生态产品交易边界,精准核算基准年水质净化产品的可交易量为1.37 t,基准价格为1186.71万元/t/年;面向近10年产品实际供需主体的内在联系,揭示了“三类五种”生态产品交易机制类型,并选择设计了低端产品退出—高端产品激励的典型交易模式。生态产品交易实施为研究区生态价值实现提供市场化路径,为国内同类地区一体化生态保护格局保障提供思路。     

长三角区域人为源活性挥发性有机物高分辨率排放清单

基于长三角区域41个城市本地实测,结合美国EPA的SPECIATE 4.4数据库,建立了长三角区域人为源活性挥发性有机物(VOCs)高分辨率排放清单,分析了区域内VOCs的排放特征和组分构成;计算了VOCs的臭氧生成潜势(OFP)和二次有机气溶胶生成潜势(SOAP).结果表明,2017年,长三角区域人为源VOCs排放总量为4.9×10⁶ t,其中工艺过程源、工业溶剂使用源、移动源、生活源、储运源、农业源和废弃物处理源排放贡献分别为：34.3%、27.1%、19.5%、9.7%、6.1%、2.5%和0.4%.芳香烃和烷烃是VOCs的主要种类,均各占长三角VOCs排放总量的25%.工艺过程源、工业溶剂使用源、移动源和生活源OFP贡献率分别为38.3%、21.5%、16.4%和13.2%,SOAP贡献率分别为26.2%、34.1%、18.1%和17.9%,与VOCs排放量的主要贡献源基本一致.各城市VOCs重点排放行业存在较大差异,重点城市群以石化化工和装备制造为主,区域北部则以木材家具等涂装行业为主.计算表明,丙烯、间/对-二甲苯和乙烯是臭氧主要贡献源;甲苯、1,2,...     

浅析珠三角地区有机废气治理技术的开发应用

珠江三角洲地区大气污染最明显的特点就是臭氧浓度的升高导致大气氧化性增强,而挥发性有机化合物(VOCs)和氮氧化物是大气臭氧生成的重要前体物。珠三角地区工业体系发达,VOCs的生产及使用企业众多,由于VOCs的种类繁多,性质各异,排放条件多样,目前已经形成了一系列的VOCs废气实用治理技术。     

项目环评在化工企业厂区平面布置优化中的作用

以河南某化工企业为例,从厂区功能区划分、主要污染源分布、排水路线制定、卫生和安全防护等方面对其进行厂区平面布置合理性分析,通过分析评价各关键因素对周围环境及敏感点的影响程度大小对厂区平面布置进行适当调整和优化。由案例可知,项目环评不仅能够有效削减工业污染物排放对厂区人员和附近敏感点的影响,而且能够有效反馈厂区平面设计中存在的不足,通过优化调整降低铁路、高压线、环境敏感点跨辖区搬迁等限制条件对项目主要生产功能区布置的影响,提高企业生产中的卫生安全和风险防护水平,降低企业环保投入,实现经济和环保效益协调发展。     

Climate change impacts on groundwater resources in Mekong Delta under representative concentration pathways (RCPs) scenarios

Groundwater is the essential resource for various uses and have a great economic importance especially in the areas like Mekong Delta, which is the home for some 18 million people and produces a half of Vietnam’s rice and contributes substantial part of the country’s gross domestic product (GDP). Sustainable use of the groundwater resource is threatened by its uncontrolled abstraction and climate change. This study assesses groundwater resources in Mekong Delta aquifer system in the context of climate change. A set of models are used for the purpose. Groundwater recharge and its spatial variation are estimated using WETSPASS model, groundwater level and storage are estimated using MODFLOW and future climatic conditions in the area are developed by downscaling the data of five General Circulation Models (GCMs) retrieved from CMIP5 data portal. Two representative concentration pathways (RCPs) scenarios (RCP4.5 and RCP8.5) are considered for projecting future conditions of groundwater resources. Results reveal that the future average annual temperature is projected to increase by 1.5 °C and 4.9 °C by the end of the 21st century under RCP4.5 and RCP8.5 scenarios, respectively. Future rainfall is projected to increase in wet season and decrease in dry season. Groundwater recharge is projected to decline in short-, medium-, and long-terms. As a result, groundwater levels and storage are also projected to decline in future. These findings may help decision-makers and stakeholders for devising sustainable groundwater management strategies in Mekong Delta.     

锅炉房电气设备运行安全应注意的几个问题

对工业锅炉房电气设备及电缆敷设的设计和运行管理安全提出应注意的问题,并提出本质安全要求。     

自然通风排热量的近似计算法

采用“假设密闭绝热空间法”,计算工业厂房的自然通风排热量。实践证明,此方法是可行的。     

Dramatic decline of observed atmospheric CO2 and CH4 during the COVID-19 lockdown over the Yangtze River Delta of China

The temporal variation of greenhouse gas concentrations in China during the COVID-19 lockdown in China is analyzed in this work using high resolution measurements of near surface △CO₂, △CH₄ and △CO concentrations above the background conditions at Lin'an station (LAN), a regional background station in the Yangtze River Delta region. During the pre-lockdown observational period (IOP-1), both △CO₂ and △CH₄ exhibited a significant increasing trend relative to the 2011-2019 climatological mean. The reduction of △CO₂, △CH₄ and △CO during the lockdown observational period (IOP-2) (which also coincided with the Chinese New Year Holiday) reached up to 15.0 ppm, 14.2 ppb and 146.8 ppb, respectively, and a reduction of △CO₂/△CO probably due to a dramatic reduction from industrial emissions. △CO₂, △CH₄ and △CO were observed to keep declining during the post-lockdown easing phase (IOP-3), which is the synthetic result of lower than normal CO₂ emissions from rural regions around LAN coupled with strong uptake of the terrestrial ecosystem. Interestingly, the trend reversed to gradual increase for all species during the later easing phase (IOP-4), with △CO₂/△CO constantly increasing from IOP-2 to IOP-3 and finally IOP-4, consistent with recovery in industrial emissions associated with the staged resumption of economic activity. On average, △CO₂ declined sharply throughout the days during IOP-2 but increased gradually throughout the days during IOP-4. The findings showcase the significant role of emission reduction in accounting for the dramatic changes in measured atmospheric △CO₂ and △CH₄ associated with the COVID-19 lockdown and recovery.