南京低碳经济定量研究

城市化和工业化产生的碳排放是当今中国影响气候变化的重要因素,经济增长和碳排放之间的关系是当今研究的热点问题.本文研究南京市低碳经济发展的现状、阶段及演化特点,发现30年来,南京市低碳经济发展呈现波动反复的特点,扩张负脱钩3次,较高能源消费的经济增长形式-扩张连接4次,经济发展实现与能源消费较好脱钩的弱负脱钩1次,强脱钩4次,其余为弱脱钩.基于内生经济增长模型Moon-Sonn,建立了南京经济增长预测模型,并探讨了不同发展模式下南京未来50年低碳经济水平及碳排放量演化规律,预测了不同低碳经济水平下南京碳排放量和峰值出现的时间.研究结果显示,按现行经济模式,南京2050-2060年碳总量增加速度逐步减缓,约在2058年左右实现碳总量的负增长.50年内南京市预计为扩张负脱钩和扩张连接,难以实现稳定的离水平低碳经济增长模式;设定最优能源强度参数的模式下,南京迅速实现稳定强脱钩的低碳经济,碳释放量EKC曲线呈现倒U型,2015年左右即达到峰值.综合各种因素,南京近几年将延续模式l的增长模式,在2020年左右实现向模式2转变,其碳释放量约于2028年前后出现峰值.     

中国战略性海洋新兴产业的发展对策探讨

海洋经济已跨入以高新技术引领的新时代,以海洋高新技术为首要特征的战略性海洋新兴产业成为各国争相抢占的科技制高点.本文在界定战略性海洋新兴产业内涵的基础上,分析我国战略性海洋新兴产业发展的现状,找出其在公众认识、政策体系、自主创新能力、资金投入以及人才储备等方面存在的主要问题,进而提出通过提高公众对战略性海洋新兴产业发展重要性的认识,营造促进其发展的良好氛围;建立和完善战略性海洋新兴产业发展的政策体系和协调机制,形成支持战略性海洋新兴产业发展的长效机制;提高海洋科技的自主创新能力,加速科技成果的转化,打造一批具有国际竞争力的战略性海洋新兴产业开发区;加大对战略性海洋新兴产业的资金投入,建立多渠道的有效的投融资体制以及着力培养和引进具备较强适应能力、创新能力和竞争力的高层次人才,使其成为发展战略性海洋新兴产业的生力军等措施促进我国战略性海洋新兴产业的发展,借以推动我国海洋经济实现跨越式发展.     

中国碳捕集、利用与封存技术研发与示范

碳捕集、利用与封存(CCUS)是一项新兴的、具有大规模减排潜力的技术,有望实现化石能源使用的CO2近零排放,被认为是进行温室气体深度减排最重要的技术路径之一.开展CCUS技术的研发和储备,将为中国未来温室气体减排提供一种重要的战略性技术选择,受到政府、企业和学术界的广泛关注.本文从CCUS技术产生和发展的背景出发,概括了该技术的特点及存在的主要同题,总结了当前中国CCUS技术政策,介绍了中国CCUS技术研发、试点示范、国际合作等的开展情况,并通过与欧美等发达国家CCUS技术发展与示范活动现状的对比,初步分析了中国CCUS技术发展方面存在的主要不足.为进一步推动我国CCUS技术的研发与示范,文章提出应加强国家层面的技术政策指导和宏观协调、引导资源有效配置;推动建设行业间的CCUS技术合作平台;重视CCUS来来技术应用软环境建设等有针对性的建议.     

低碳消费偏好与低碳产品需求分析

低碳消费方式是低碳经济的重要环节,本文对低碳消费偏好和低碳产品需求及其影响因素作了理论分析和实证研究.首先对低碳产品的消费偏好进行了分析,低碳产品消费偏好的两个最重要特征是二元价值结构的产品和超越基本价值的消费偏好,在此基础上构建了低碳产品效用函数.然后根据低碳产品效用函数给出了低碳产品的一般需求模式,结合低碳产品置信度变量的引进,构建了一个具体的低碳产品需求函数,并对低碳产品需求函数进行分析,揭示了低碳产品需求的一些基本性质.为了验证低碳消费理论分析的结论,做了低碳产品消费的问卷调查.对问卷调查进行统计分析,结果表明:收入越高,对低碳产品支付的价格就越高;低碳产品的环境价值置信度越高,意愿支付价格就越商;低碳产品碳排放量降低越多,低碳产品需求价格就越高.最后,结合以上分析,从低碳宣传和公益广告、设立低碳产品标准、鼓励低碳产品技术研发角度提出了促进低碳消费发展的政策建议.     

后危机时代我国产业升级的约束条件及对策研究

产业升级是一项系统工程,目前面临一些约束条件,制约了产业升级的成效。本文分析了三个方面的约束因素:有效需求约束、供给约束、制度约束,并提出新形势下的产业结构调整对策:调整需求结构、要素投入结构、分配结构,扩大内需;调整三次产业结构;构建有利于产业结构调整的体制机制。     

An Empirical Study on the Environmental Kuznets Curve for China’s Carbon Emissions:Based on Provincial Panel Data

Based on the Environmental Kuznets Curve theory,the authors choose provincial panel data of China in 1990 2007 and adopt panel unit root and co-integration testing method to study whether there is Environmental Kuznets Curve for China’s carbon emissions.The research results show that:carbon emissions per capita of the eastern region and the central region of China fit into Environmental Kuznets Curve,but that of the western region does not.On this basis,the authors carry out scenario analysis on the occurrence time of the inflection point of carbon emissions per capita of different regions,and describe a specific time path.     

The Factor Decomposition on Carbon Emission of China——Based on LMDI Decomposition Technology

Carbon emission is the current hot issue of global concern. How to assess various contributing factors for carbon emission is of great importance to find out the key factors and promote carbon emission reduction. In this paper, the author constructs an identical equation for carbon emission, based on the economic aggregate, the economic structure, the efficiency of energy utilization, the structure of energy consumption, and the coefficient of carbon emission; by applying to LMDI decomposition technology, the author analyzes the carbon emission of China from 1995 to 2007 at industrial level and regional level. The results show that the expansion of economic aggregate is the main reason for China’ s rapidly increasing carbon emission and the increase of energy utilization efficiency is the key factor that can hold back the increase of carbon emission. In addition, the change of industrial structure or regional structure and the change of traditional energy structure have limited influence on the carbon emission, and their potentials have not yet been exploited. At the end of this paper, the author proposes the efforts that China should make to reduce carbon emission.     

2种再生水深度处理工艺对有毒有机污染物去除效果的评价研究

采用固相萃取(SPE)技术和气相色谱/质谱联用(GC/MS)的方法对2个再生水厂的进水和不同深度处理工艺出水中的有毒有机污染物进行了定性和定量分析,讨论了这2种不同再生水深度处理工艺对有毒有机污染物的去除效果.结果表明,厌氧/缺氧/好氧(A2/O)+连续微滤技术(CMF)+加氯消毒处理工艺和水解酸化+膜生物反应器(MB...     

半干法烟气脱硫除尘多级功能处理装置技术与应用

文中介绍了一种炉窑烟气调质、烟气除尘、烟气脱硫在一个单体结构中的一体化装置和在烟气除尘脱硫技术上的应用,并对该脱硫除尘装置与传统的半干法烟气脱硫除尘装置进行了比较。     

Recycling of organic materials and solder from waste printed circuit boards by vacuum pyrolysis-centrifugation coupling technology

Here, we focused on the recycling of waste printed circuit boards (WPCBs) using vacuum pyrolysis-centrifugation coupling technology (VPCT) aiming to obtain valuable feedstock and resolve environmental pollution. The two types of WPCBs were pyrolysed at 600°C for 30 min under vacuum condition. During the pyrolysis process, the solder of WPCBs was separated and recovered when the temperature range was 400-600°C, and the rotating drum was rotated at 1000 rpm for 10 min. The type-A of WPCBs pyrolysed to form an average of 67.91 wt.% residue, 27.84 wt.% oil, and 4.25 wt.% gas; and pyrolysis of the type-B of WPCBs led to an average mass balance of 72.22 wt.% residue, 21.57 wt.% oil, and 6.21 wt.% gas. The GC-MS and FT-IR analyses showed that the two pyrolysis oils consisted mainly of phenols and substituted phenols. The pyrolysis oil can be used for fuel or chemical feedstock for further processing. The recovered solder can be recycled directly and it can also be a good resource of lead and tin for refining. The pyrolysis residues contained various metals, glass fibers and other inorganic materials, which could be recovered after further treatment. The pyrolysis gases consisted mainly of CO, CO(2), CH(4), and H(2), which could be collected and recycled.