区域能源利用的碳足迹及其对生态经济影响分析

运用碳排放足迹的相关含义以及研究方法估算了2004-2008年江苏省能源利用的总碳排放、总碳足迹、碳足迹的产值与强度以及生态压力。提出了相应的管理策略。研究结果表明：总碳排放从2004年的41793．07万t上升到2008年的64750．84万t,一直呈现上升的趋势;总碳足迹由2004年的0．87hm^2／人上升到2008年的1．30hm^2／人,呈现上升的趋势;煤炭利用的碳足迹最大,石油次之,天然气与煤气所占比例较小;碳足迹产值从2004年的2．33万元／hm^2增加到2008年2．66万元／hm^2,碳足迹生态压力从2004年的193．77上升到2008年的307．64。     

碳排放核算方法概述与比较研究

全球气候变化是当今全球关注的焦点和研究热点,碳排放核算对温室气体减排和控制具有重要意义。对当前碳排放核算方法进行了概述,介绍了各核算方法的基本原理和方法,并分析了各核算方法的特点,将为碳排放核算及其方法的选取提供参考依据。     

山地区生态承载力计算及提升对策研究——以重庆市渝北区为例

山地区生态环境比较脆弱,在经济社会发展的影响下,山地区的生态承载力呈不断下降的趋势。本文在论述生态承载力内涵和计算方法的基拙上,以2008年《重庆统计年鉴》、2008年《重庆渝北统计年鉴》以及2007年渝北区土地利用现状数据为依据,对重庆市渝北区2007年的生态足迹和生态承载力进行了计算与分析,并进一步分析了山地区土地生态赤字产生的原因,包括人口多,坡地多,土壤和大气污染严重等,提出了控制人口数量和质量、大力发展山地区生态农业、优化能源结构等相应的对策。     

联合式催化剂用于低温下一氧化碳和氢的共同消除

采用联合式催化剂新技术,在低温下进行了一氧化碳和氢化同消除的试验,通过实验考察取得了良好的效果。     

低浓度二氧化碳检测管的研制

应用活性氧铝—百里香酚酞吸附ＣＯ２线性比长法研制出低浓度ＣＯ２检测管。测定范围０．０５～０．９０％;灵敏度为０．０５％;检测管变色长度与ＣＯ２浓度的相关系数γ＝０．９９８１,精密度与准确度符合国家标准８３ＧＢ７２２０～７２８０。其可靠性与经典的何氏气体分析器比较,结果基本一致。低浓度的ＳＯ２、Ｈ２Ｓ和ＮＨ３对测定无明显干扰,现场监测应用效果可靠,值得推广应用。     

Insights into the electron transfer mechanisms of permanganate activation by carbon nanotube membrane for enhanced micropollutants degradation

● A CNT filter enabled effective KMnO₄ activation via facilitated electron transfer. ● Ultra-fast degradation of micropollutants were achieved in KMnO₄/CNT system. ● CNT mediated electron transfer process from electron-rich molecules to KMnO₄. ● Electron transfer dominated organic degradation. Numerous reagents have been proposed as electron sacrificers to induce the decomposition of permanganate (KMnO₄) by producing highly reactive Mn species for micropollutants degradation. However, this strategy can lead to low KMnO₄ utilization efficiency due to limitations associated with poor mass transport and high energy consumption. In the present study, we rationally designed a catalytic carbon nanotube (CNT) membrane for KMnO₄ activation toward enhanced degradation of micropollutants. The proposed flow-through system outperformed conventional batch reactor owing to the improved mass transfer via convection. Under optimal conditionals, a > 70% removal (equivalent to an oxidation flux of 2.43 mmol/(h·m²)) of 80 μmol/L sulfamethoxazole (SMX) solution can be achieved at single-pass mode. The experimental analysis and DFT studies verified that CNT could mediate direct electron transfer from organic molecules to KMnO₄, resulting in a high utilization efficiency of KMnO₄. Furthermore, the KMnO₄/CNT system had outstanding reusability and CNT could maintain a long-lasting reactivity, which served as a green strategy for the remediation of micropollutants in a sustainable manner. This study provides new insights into the electron transfer mechanisms and unveils the advantages of effective KMnO₄ utilization in the KMnO₄/CNT system for environmental remediation.     

China’s carbon neutrality: an extensive and profound systemic reform

● China has pledged ambitious carbon peak and neutrality goals for mitigating global climate change. ● Major challenges to achieve carbon neutrality in China are summarized. ● The new opportunities along the pathway of China’s carbon neutrality are discussed from four aspects. ● Five policy suggestions for China are provided. China is the largest developing economy and carbon dioxide emitter in the world, the carbon neutrality goal of which will have a profound influence on the mitigation pathway of global climate change. The transition towards a carbon-neutral society is integrated into the construction of ecological civilization in China, and brings profound implications for China’s socioeconomic development. Here, we not only summarize the major challenges in achieving carbon neutrality in China, but also identify the four potential new opportunities: namely, the acceleration of technology innovations, narrowing regional disparity by reshaping the value of resources, transforming the industrial structure, and co-benefits of pollution and carbon mitigation. Finally, we provide five policy suggestions and highlight the importance of balancing economic growth and carbon mitigation, and the joint efforts among the government, the enterprises, and the residents.     

生态足迹核算方法及其应用研究进展

近年来,生态足迹作为可持续发展的有效度量工具之一,获得了广泛关注。在参阅相关文献的基础上,系统总结了生态足迹核算方法及其应用特点和趋势,结果表明,（1）在核算方法上尚存争议,目前主要的核算方法有3种：传统土地足迹法;能值足迹法;投入产出足迹法。（2）从静态足迹核算朝时间序列足迹分析和动态情景足迹预测演化。（3）尽管在各个尺度上都有应用,但生态足迹目前仅被看作是交流工具,用于决策分析的意义不大。拓展其在企业及其产品系统的应用,将是其应用价值体现的一个突破口。（4）生态足迹作为一系列指标的一部分时,发挥作用更大。（5）生态足迹应加强与现有核算体系（如GDP）的衔接,增加其被决策者接纳的可能性。     

Carbon dioxide and methane emission from subsurface peatlands and its controlling factors北大核心CSCD

Peatland is an efficient carbon dioxide (CO2) sink on the continent and plays an important role in global carbon cycle. Climate change and human activities, two of the notable global environmental issues, have accelerated the degradation of peatlands during recent years. Global warming will increase the rate of aerobic decomposition in the surface of peatlands. Carbon stored in the subsurface of peatlands will be metabolized if the climatic conditions become favorable for decomposition. This study reviewed the carbon circle of subsurface peatland in natural environment and in environments disturbed by human activity or climate change. Furthermore, the major factors (environmental and human factors) that affect the carbon cycle were also discussed. According to a previous study, subsurface peatland will rapidly participate in the carbon cycle when the peatland is degraded. Water level, vegetation, and temperature were the main natural factors affecting the carbon cycle, whereas drainage, farming, and grazing were the main anthropogenic factors. Further studies should focus on different soil layer carbon dynamics, inorganic carbon content, and conservation and restoration of peatlands. The study methods should be a combination of macro with micro scale and focus on developing deep peat research techniques. Most of the previous studies focused on greenhouse gas emission and their response factors in short-term experiments. Thus, the mechanism and process of subsurface carbon are not clear and needs further study. © 2018 Science Press. All rights reserved.     

碳纳米管催化电极处理难降解有机物研究进展

难降解有机物严重污染环境和威胁人类身体健康,因此难降解有机物的治理技术研究是目前水污染防治研究的热点与难点。碳纳米管(CNTs)由于具有独特的一维结构、良好的化学稳定性、优异的电荷传导性能以及独特的电学性能,近些年被广泛应用做电极材料。介绍了碳纳米管的电化学特性,对碳纳米管催化电极的制备、催化反应机理及其在有机污染物处理过程中的应用进行了概述,并对其应用前景进行了展望。