我国新环境保护法的突破与展望

论述了我国新环境保护法,国家环境保护规划应当坚持保护优先、预防为主、综合治理、突出重点、全面推进的原则等;新修订的《环保法》要求建立资源环境承载能力监测预警机制;推动多元共治的现代环境治理体系是加大经济处罚的力度。设计了罚款的按日连续计罚规则;要求政府主管部门应当公开环境信息,应当制定和完善公众参与的程序,为公众参与环境监督提供便利等。最后进行了展望。     

珠三角地区城市土地集约利用评价研究

通过采用熵值法确定城市土地集约利用评价指标体系中各个指标的权重,进而评价珠三角地区各个城市土地集约利用程度。利用ARCGIS软件分析各市土地集约利用之间的空间差异与联系,为各市差别化土地利用规划设计与管理提供科学依据。研究发现:(1)珠三角城市土地集约利用程度总体水平不高,区域空间差异较大,呈现出区域聚集的特征,且珠三角核心区域集约度较高,外围集约度较低;(2)根据土地集约利用度的区域差异,可将株洲三角洲九个城市分为调整优化区、重点发展区和适度发展区。     

基于 分析的余热发电对水泥熟料生产能源利用率影响评价

本文研究水泥熟料生产过程中各个生产系统的效率,并对余热发电前后每个系统的效率进行分析对比,从而得出各个系统的资源能源利用程度以及余热发电工程对每个系统能量利用率的影响,诊断水泥熟料生产过程的损失发生位置并发现系统的节能和余热回收利用的潜力,为管理者实施节能降耗的方案提供技术支持.研究表明,实施余热发电工程前,水泥熟料生产的原料制备系统、煤粉制备系统、回转窑系统的效率分别为4.5%、1.4%和33.7%;实施余热发电工程后,效率分别为7.8%、2.8%和38.1%.余热发电工程可回收回转窑系统总投入的3.7%,同时使原料制备系统、煤粉制备系统、回转窑系统的效率分别提高3.3%、1.4%和4.3%.     

Anoxic gas recirculation system for fouling control in anoxic membrane reactor

Anoxic gas recirculation system was applied to control the membrane fouling in pilot-scale 4-stage anoxic membrane bioreactor(MBR). In the anaerobic-anoxic-anoxic-aerobic flow scheme,hydrophilic polytetrafluoroethylene(PTFE) membrane(0.2 μm, 7.2 m2/module) was submerged in the second anoxic zone. During 8 months operation, the average flux of the membrane was 21.3L/(m2·hr). Chemical cleaning of the membrane was conducted only once with sodium hydroxide and sodium hypochlorite. Dissolved oxygen(DO) concentration in the second anoxic zone was maintained with an average of 0.19 ± 0.05 mg/L. Gas chromatography analysis showed that the headspace gas in the second anoxic reactor was mainly consisted of N2(93.0% ± 2.5%), O2(3.8% ± 0.6%), and CO2(3.0% ± 0.5%), where the saturation DO concentration in liquid phase was 1.57 mg/L. Atmospheric O2 content(20.5% ± 0.8%) was significantly reduced in the anoxic gas. The average pH in the reactor was 7.2 ± 0.4. As a result, the recirculation of the anoxic gas was successfully applied to control the membrane fouling in the anoxic MBR.     

Comparison of biochemical characteristics between PAO and DPAO sludges

A successful enhanced biological phosphorus removal(EBPR) was observed in both anaerobicaerobic sequencing batch reactor(An-Ox SBR) to induce growth of phosphorus accumulating organism(PAO) and anaerobic-anoxic(An-Ax) SBR to induce growth of denitrifying PAO(DPAO).Although the EBPR performance of An-Ox SBR was higher by 11.3% than that of An-Ax SBR,specific phosphorus release rates in the An-Ax SBR(22.8 ± 3.5 mg P/(g VSS·hr)) and the An-Ox SBR(22.4 ± 4.8 mg P/(g VSS·hr)) were similar. Specific phosphorus uptake rates under anoxic and aerobic conditions were 26.3 ± 4.8 mg P/(g VSS·hr)(An-Ax SBR) and 25.6 ± 2.8 mg P/(g VSS·hr)(An-Ox SBR), respectively, which were also similar. In addition, an analysis of relationship of poly-β-hydroxyalkanoates(PHA) synthesized under anaerobic conditions with phosphorous release(Preleased/PHAsynthesized) and of PHA utilized under anoxic and aerobic conditions with phosphorous uptake(Puptaked/PHAutilized) verified that biological activities of EBPR per unit biomass between DPAO and PAO were similar. An analysis of the specific denitrification rate of DPAO showed that NO-3-N can be denitrified at a rate that does not substantially differ from that of an ordinary denitrifier without additional consumption of organic carbon when the PHA stored inside the cell under anaerobic conditions is sufficiently secured.     

贵州施秉白云岩喀斯特区水化学和溶解无机碳稳定同位素特征

对贵州施秉白云岩喀斯特世界自然遗产地49个水点进行采样,分析地表水和地下水水化学特征及控制因素,并探讨溶解无机碳(DIC)稳定同位素的分布特征和来源.结果发现,研究区地表水和地下水p H值呈中性到碱性,溶解质较低,水中阳离子以Ca2+、Mg2+为主,阴离子以HCO-3为主,水化学类型为重碳酸-钙镁型(HCO3-Ca·Mg).北部上游页岩分布区外源水水中Cl-、NO-3、SO2-4的比重相对白云岩区喀斯特水水点的高,Si的含量也明显高于白云岩地区喀斯特水;外源水的SIc和SId值为负,而流经白云岩区后均大于0.水化学数据表明研究区水化学受降水和人为活动影响很小,Gibbs图显示水中离子组成主要受岩性的控制.研究区喀斯特地表水中δ13CDIC值变化范围为-8.27‰~-11.55‰,平均为-9.45‰,地下水的δ13CDIC值范围为-10.57‰~-15.59‰,平均为-12.04‰,地表水δ13CDIC值比地下水偏重.DIC的δ13CDIC值在杉木河支流上整体表现为河流上游相对于下游偏轻,而杉木河干流上河水DIC的δ13CDIC值的变化则比较复杂.根据同位素质量平衡,利用DIC的δ13CDIC实测值,计算了喀斯特区地下水DIC来自土壤CO2和白云岩矿物溶解的比例,计算结果为51.2%来自于土壤CO2,矿物本身的贡献约为48.8%.     

废旧锂离子电池资源化技术研究

通过介绍废旧锂离子电池的组成成分及近年来废旧锂离子电池资源化处理技术的研究进展，提出目前主要回收方法有溶解分离法和直接回收正极材料的新型方法等，并对现有研究中存在的二次污染、安全性问题进行了初步探讨。     

EVALUATING THE PERSISTENCE OF RESIDENTIAL WATER CONSERVATION: A 1992–1997 PANEL STUDY OF A WATER UTILITY PROGRAM IN DELAWARE1

This study systematically evaluates residential consumer responses to a utility conservation initiative based on an econometric analysis of a sample of 510 households served by Artesian Water Company, Inc. (New Castle County of Delaware). Using a panel study approach covering the period from 1992 to 1997, this study shows that Artesian's water conservation program has had statistically significant and persistent impacts on residential water consumption.     

低碳经济的发展模式研究

当前,全球正发生着以变暖为主要特征的气候变化,并已成为世界各国共同面临的危机和挑战。低碳经济是减少温室气体排放,应对全球变暖的最佳经济模式。本文从温室气体减排压力、能源安全和资源环境等三个方面分析了中国发展低碳经济的紧迫性。在对国内外低碳经济理论和实践综述的基础上，从宏观、中观和微观三个层次论证了低碳经济发展模式的发展方向、发展方式和发展方法。即以低碳发展为发展方向．以节能减排为发展方式。以碳中和技术为发展方法。最后提出了我国实施低碳经济发展模式的政策措施：①节能优先。提高能源利用效率；②化石能源低碳化。大力发展可再生能源；③设立碳基金．激励低碳技术的研究和开发；④确立国家碳交易机制。     

Economic structural change,renewable energy development,and carbon dioxide emissions in China

As the world’s largest emitter, China’s reduction of carbon dioxide (CO2) emissions is crucial for the achievement of global temperature rise goals. In this paper, we employed input-output structural decomposition analysis and index decomposition analysis to assess the factors driving changes in China’s CO2 emissions from 2000 to 2018, with particular attention to the role of renewable energy development. Our results indicate that the slowdown of economic growth and rapid structural change, rather than the shifting fuel mix, were the major forces driving China’s recent slowdown of CO2 emissions ever since 2011. Despite the great importance attached to renewable energy development, non-hydro renewable has played negligible role in reducing China’s CO2 emissions. This suggests that China cannot simply rely on the large-scale development of renewable energies to achieve its Paris 2015 target and must make further drastic cuts that will help keep global temperature rise well below 2 °C above pre-industrial level. Major breakthroughs in scalable low carbon energy sources and technologies will be required, especially in the developing world.