我国能源资源税改革对城乡居民的收入分配效应——基于CGE模型的分析

通过构建包含7个城镇居民组和5个农村居民组的多收入阶层CGE模型,并将劳动力要素分为农业劳动力、技术工人和生产工人3类,在低税率、实际税率和高税率三种情景下模拟了煤炭、石油和天然气资源税改革单独实施和同时实施对城镇和农村居民的收入分配效应,并对税收补偿措施的效果进行分析.结果表明：单独实施煤炭资源税或天然气资源税改革对城镇居民组收入差距有正向的缩小作用,有利于收入分配公平,但对农村居民组收入差距起到负向的扩大作用,不利于收入分配公平;单独实施石油资源税改革则同时缩小了城镇和居民组的收入差距,有利于收入分配公平;同时实施三类能源资源税改革的收入分配效应与税率组合方式有关;将能源资源税收入以补贴的方式返还给农村居民可以缩小其收入差距,有利于收入分配公平.     

磁性有序介孔碳的制备及其对水中双酚A的吸附

采用水热法成功制备了磁性有序介孔碳（Fe-OMC）,用于吸附水中双酚A （BPA）.采用高倍投射电镜、X射线衍射仪、傅里叶红外光谱仪、比表面积分析仪和振动样品磁强计对Fe-OMC进行表征.结果表明,该吸附剂具备较大的比表面积、独特的有序介孔孔道结构、丰富的含氧官能团以及较强的超顺磁性.Fe-OMC能够高效地吸附去除水中的BPA,平衡吸附量可达72.62mg/g,经过外加磁场分离回收后依旧具备较好的吸附性能.随着BPA浓度从1mg/L提高到20mg/L,其平衡吸附量由8.33mg/g增至91.78mg/g.随着pH值的升高呈现出先降低后升高再降低的趋势,最高吸附量出现在pH=8（75.34mg/g）.Fe-OMC对BPA的吸附过程可用准二级吸附动力学模型和Langmuir吸附等温模型进行描述.计算的热力学参数表明,Fe-OMC对BPA的吸附过程是自发进行的放热过程.     

不同裂解温度稻壳生物炭对阿特拉津的吸附行为及机制

为探究不同裂解温度下稻壳生物炭的结构和性质差异及其对阿特拉津（AT）的吸附作用机制和构-效关系,以稻壳为原料在300、500和700℃下制备稻壳生物炭（分别记为RH300、RH500、RH700）,通过电镜扫描、元素分析仪、比表面积分析仪和傅里叶变换红外光谱分析仪等对3种稻壳生物炭进行结构表征分析,并采用批量等温吸附法研究稻壳生物炭对AT的吸附特性.结果表明:裂解温度由300℃升至700℃时,稻壳生物炭中w（C）由48.81%升至64.67%,w（H）、w（N）和w（O）则由3.22%、1.45%和34.66%分别降至0.89%、0.92%和16.29%,原子比H/C、O/C和（O+N）/C值均降低.可见,随着裂解温度升高,稻壳生物炭的芳香性增强,亲水性和极性降低,且比表面积和孔体积增大,平均孔径减小.3种稻壳生物炭对AT的吸附均可用Freundlich和Langmuir两种等温吸附模型进行较好地拟合（R≥0.948,P < 0.01）,吸附作用及非线性程度与生物炭的比表面积（SSA）、芳香性（H/C）、亲水性（O/C）和极性〔（O+N）/C〕呈良好的指数关系,大小表现为RH700 > RH500 > RH300.稻壳生物炭对AT的吸附机制主要包括分配作用和表面吸附,分配作用强度与生物炭的极性和炭化程度有关;而表面吸附作用与AT的分子大小有关,3种稻壳生物炭对AT的表面吸附除表面覆盖外,还存在多层平铺、毛细管现象和孔隙填充等.研究显示,裂解温度是影响生物炭吸附有机污染物的重要因素,在综合考虑成本和制备工艺的同时,适当提高裂解温度可增强生物炭对有机污染物的吸附作用.      

能源作物甜高粱对镉污染农田的修复潜力研究

通过田间控制试验,研究在不同镉污染条件下甜高粱对镉的吸收和积累规律,并采用先进固态发酵(ASSF)技术对甜高粱进行能源化利用,阐明能源植物甜高粱对镉污染农田的修复潜力.结果表明:甜高粱对镉具有较强的吸收能力和耐性,在不同浓度的镉处理条件下,均可以完成正常生育期(167 d),但当土壤镉含量达到33 mg·kg~(-1)时其生长受到显著抑制.在甜高粱植株内,根部的镉浓度最高,呈现根茎叶籽粒的分布特点,单株镉的积累量最高可达到0.84 mg(土壤镉含量为18 mg·kg~(-1)).甜高粱对镉的吸收与土壤中的镉含量具有显著的线性关系(P0.05),随着土壤中镉含量的增加显著增加,但是镉处理对甜高粱茎秆的糖和水分含量,以及发酵过程中糖利用率和乙醇转化率均没有影响.因此,在镉污染农田上种植甜高粱,可以确保生产的产品不进入食物链而进入能源产业链,既可以生产生物乙醇的原材料,产生经济效益,又可以吸收土壤中镉,实现对镉污染农田的边生产边修复.     

土壤胡敏素对铜离子的吸附作用及其机理研究

以暗棕壤为供试土壤,研究了不同溶液pH值、离子强度、接触时间、反应温度和初始铜离子(Cu~(2+))浓度条件下,胡敏素对Cu~(2+)的吸附作用;利用扫描电子显微镜(SEM)、X-射线能量色散谱(EDS)、傅立叶变换红外光谱(FTIR)和X-射线光电子能谱(XPS),对胡敏素/胡敏素-Cu~(2+)复合物的表面形貌、元素分布和官能团组成进行了分析;应用延展X-射线吸收精细结构谱(EXAFS),对吸附态Cu~(2+)的局域配位结构进行了表征.结果表明:胡敏素对Cu~(2+)的吸附量随pH值、接触时间、反应温度和Cu~(2+)浓度的增加而增加,但随离子强度的增加而下降;吸附动力学符合准二级动力学方程,而吸附等温线用Langmuir方程的拟合效果较好;吸附过程需要能量,是自发、吸热和自由度增加的缔合反应;吸附Cu~(2+)之后,胡敏素表面产生了团聚现象,表面羧基、羟基、吡啶氮和N—O基团参与了Cu~(2+)的吸附作用,同时吸附态Cu~(2+)是以内层配位形式与胡敏素表面的O/N和C原子结合.     

基于铁锰泥的除砷吸附剂性能比较及吸附机理

为解决反冲洗铁锰泥粉末吸附剂（BSPA）使用后难以泥水分离问题,将除铁锰水厂生物滤池产生的反冲洗泥制成颗粒吸附剂（GA）和磁性粉末吸附剂（MPA）,并对BSPA、GA和MPA的除砷性能进行了比较,通过SEM、TED、XRD、BET、FTIR等技术对3种材料进行了表征,寻找3种吸附剂之间除砷性能差异的根源.结果表明,BSPA、GA和MPA对As （V）的最大吸附容量分别为40.980,5.048,8.694mg/g,改性后的吸附材料GA和MPA对砷的吸附能力下降.BSPA是一种以纤铁矿为主的无定形结构混合物,并混有针铁矿和结晶度差的水铁矿,GA的XRD图谱中出现石英晶体和少量赤铁矿晶体的衍射峰,而MPA的主要成分为结晶程度较高的磁赤铁矿.3种材料中均存在有利于吸附的含羟基官能团.BSPA、MPA和GA的比表面积分别为253.150,238.660,43.803m²/g.物相改变且结晶程度增加、表面羟基减少和比表面积降低是导致GA和MPA的砷吸附容量比BSPA低的主要因素.     

Estimation of the Thermal Sensitivity of a Dwelling to Variations in Architectural and Behavioural Parameters

The provision of energy for households is a major contributor to greenhouse gas emissions in the domestic sector. There is significant scope for energy savings and thus emission reduction in this sector. This paper constructs a bridge between thermal analysis and environmental assessment in the occupancy stage of the dwelling life cycle, approaching both methods as being on a common system Environment–Dwelling–Inhabitant. The importance of the local level in the thermal analysis and assessment of either a dwelling or an inhabitant's behaviour is demonstrated. It is shown that the researcher can choose between natural experiment, computer experiment and mathematical modelling to analyze the system. Such a choice is discussed for two particular methods of thermal analysis. Thermal Nomograms are the result of mathematical modelling, and the Energy Score Sheet is the result of a computer experiment in energy rating. Despite being developed for the purpose of thermal analysis, these methods can also be utilized for environmental assessment at the local level. The discussion centres on Australian conditions where the majority of the population resides in a relatively benign climate wherein behavioural alterations have significant potential for energy savings and environmental impact. The purpose of the paper is to emphasise benefits apart from energy minimisation to promote the use of energy efficient housing strategies.     

Effect of temperature on single and competitive adsorptions of Cu(II) and Zn(II) onto natural clays

This study conducted a combined adsorption-sequential extractionanalysis (CASA), by which five phases (i.e., exchangeable, carbonate, Mn-Oxide, organic, and Fe-Oxide phases) of adsorbed heavy metals were analyzed, to investigate temperature effects on single and competitive adsorptions of Zn(II) and Cu(II) ontonatural clays. In the case of single adsorption of Zn, the exchangeable phase adsorption decreased from 65 to 40%, but thecarbonate phase adsorption increased from 30 to 40%, with an increase in temperature from 15 to 55 °C. However, in itscompetitive adsorption with Cu, Zn was mostly present in the exchangeable phase (over 90%), and with an increase in temperature, the exchangeable phase adsorption decreased only 10%. In the case of Cu, over 50% among the total amount of adsorption was present in the carbonate phase in both cases ofsingle and competitive adsorptions. The carbonate phaseadsorption of Cu increased from 56 to 61% and from 60 to 66% in single and competitive adsorptions, respectively, with atemperature increase. These results show that in the case of Zn,the major mechanism of retention in natural clay soils might beexchangeable phase adsorption, especially in the case of competitive adsorption with Cu. However, in the case of Cu, the major mechanism might be carbonate phase adsorption, which is known to be a more immobile phase than exchangeable phase adsorption. It seems that the adsorption of Zn and Cu onto natural clays is an endothermic reaction, which represents thatthe adsorption equilibrium constants and capacities increase with a temperature increase, with the exception of exchangeablephase adsorption.     

Effects of the surface chemistry of macroreticular adsorbents on the adsorption of 1-naphthol/1-naphthylamine mixtures from water

The adsorption behaviors of 1-naphthol, 1-naphthylamine and l-naphthol/l-naphthylamine mixtures in water over two macroreticular adsorbents were investigated in single or binary batch systems at 293 K, 303 K and 313 K respectively. All the adsorption isotherms in the studied systems can be adequately fitted by Langmuir model. In the case of aminated macroreticular adsorbent NDA103, 1-naphthol is adsorbed to a larger extent than 1-naphthylamine; while, the opposite trend is found for nonpolar macroreticular adsorbent NDA100. It is noteworthy that at higher temperature（303 K and 313 K）, the total uptake amounts of 1-naphthol and 1-naphthylamine in all binary-component systems are obvious larger than the pure uptake amounts in single-component systems, which is presumably due to the cooperative effect primarily arisen from the hydrogen-bonding interaction between the loaded 1-naphthol and 1-naphthylamine molecules. The simultaneous adsorption systems were confirmed to be helpful to the selective adsorption towards 1-naphthol according to the larger selective index.     

中国能源的现状

研究中国能源的现状，其中主要包括能源储量和能源生产以煤为主；石油和天然气在能源构成中的比例低下；煤炭储量可观，但品质不高；能源生产增长迅速；能源短缺。尤其是清洁能源短缺，清洁能源危机将会长期存在。我国如此的能源现状已造成大气环境煤烟型严重污染。我国从石油输出国已变成石油进口国，我国半个多世纪以来实施的“能源自给政策”急需调整。采用洁净煤技术开发利用清洁能源，确保经济在持续迅速发展的同时，我国大气环境免遭污染，即经济发展和大气环境保护双赢。