外加淀粉酶预处理污泥厌氧发酵产氢研究

通过外加淀粉酶预处理剩余污泥,考察了淀粉酶对污泥的破解效果,研究了接种产氢菌(Enterococcus sp.LG1)和未接种产氢菌两种状况下,污泥厌氧发酵产氢效果,并与相应温度(60℃)热预处理污泥的发酵产氢效果进行对比,同时分析探讨了污泥发酵产氢过程中底物和pH值的变化.结果表明,淀粉酶预处理污泥4h后水解效果最佳...     

Mn对超富集植物短毛蓼和水蓼生长、Mn吸收及氮素代谢的影响

采用水培的方法,研究了不同浓度Mn(0.0003、0.5、1、2、4、8 mmol · L^-1)对Mn超富集植物短毛蓼(Polygonum pubescens Blume)和水蓼(Polygonum hydropiper L.)叶片铵态氮、硝态氮、游离脯氨酸、可溶性蛋白质含量及氮素代谢关键酶:硝酸还原酶(NR)、谷氨酰胺合成酶(GS)、谷氨酸合酶(GOGAT)和谷氨酸脱氢酶(GDH)活性的影响.结果表明,随着Mn处理浓度的增加,短毛蓼和水蓼的根、茎、叶中Mn含量显著增加(p<0.05),在相同Mn处理浓度下短毛蓼中Mn含量均大于同部位水蓼中Mn含量.在Mn处理浓度小于1 mmol · L^-1时,Mn对短毛蓼的株高、株重影响不显著,但对水蓼的影响显著(p<0.05),表明短毛蓼比水蓼更耐Mn污染.Mn处理显著降低了短毛蓼硝态氮含量(p<0.05),提高了可溶性蛋白质含量,浓度为8 mmol · L^-1的Mn处理显著提高了水蓼硝态氮、铵态氮、可溶性蛋白质含量及短毛蓼、水蓼游离脯氨酸含量(p<0.05).Mn引起了短毛蓼和水蓼氮素代谢关键酶活性的变化,显著降低了水蓼叶片NR、短毛蓼叶片GS活性(p<0.05);在Mn处理浓度为1 mmol · L^-1时,短毛蓼叶片NR活性最高,为对照的1.91倍,而2、4、8 mmol · L^-1 Mn处理显著降低了短毛蓼和水蓼GOGAT活性(p<0.05).另外,Mn处理显著提高了短毛蓼和水蓼叶片GDH活性(p<0.05),在Mn处理浓度为8 mmol · L^-1时,短毛蓼、水蓼叶片GDH活性分别为对照的16.29倍和1.29倍.     

西藏昌都地区土地利用结构熵值时序分析

研究土地利用结构的变化反映了区域发展和人类活动的强度,是研究区域发展结构的核心内容之一。区域土地利用结构的变化是区域土地利用演变的直接体现,信息熵可以作为土地利用结构有序性的一种度量。借助信息熵理论对藏东地区1992~2004年土地利用结构熵进行了计算与分析,分析结果表明：研究区土地利用结构熵2004年较1992年有所增加,但是增长幅度较小,与全国和西部地区土地利用信息熵水平相比,藏东地区土地利用系统结构熵值较低,有序度较高。土地利用结构变化和地方政策因素是导致昌都地区土地利用结构熵值变化的直接动因,经济发展、人口增长等对土地系统熵值的时序变化也存在影响。信息熵理论反映某区域系统宏观尺度上的土地利用结构特征,对区域土地利用结构的调整有一定的指导和借鉴意义。该理论在区域土地利用结构分析中的应用研究有待进一步深入。     

河流水污染损失补偿模型研究

我国水污染问题的突出表现之一是省际间、地区间水污染纠纷接连不断, 严重影响经济发展和社会稳定。在流域不同主体之间建立水污染补偿机制,可以把水污染造成的环境外部损失内部化,从而促使污染者在治污成本和经济补偿之间进行权衡,促进水污染治理措施的有效执行和水污染纠纷的解决。在水污染经济损失评估的基础上,以河流为研究对象,采用水环境数学模型的方法描述了污染物排放的空间影响关系,进而把超量排放的环境影响与经济影响联系起来,对模型的基本特征、处理方法和应用范围进行了讨论,并且以太湖流域范围内的京杭运河为例进行实证研究,得到了河流水污染损失补偿的数学模型。     

羊草草原和贝加尔针茅草原生态系统呼吸的差异分析

应用静态暗箱-气相色谱法对羊草草原和贝加尔针茅草原的生态系统呼吸CO2通量进行了测算,分析了生态系统呼吸的影响因素,比较了2种草原生态系统呼吸的差异并分析了产生差异的原因.观测期间羊草草原生态系统呼吸CO2通量平均为(12.03±2.10)mg·(m2·min)-1,显著低于贝加尔针茅草原[(20.09±4.41)mg·(m2·min)-1];而羊草草原生物量显著大于贝加尔针茅草原(p0.001).羊草草原和贝加尔针茅草原生态系统呼吸都与温度(箱内气温、5cm和15cm地温)具有显著的指数函数关系.通过偏相关分析发现,在地温作为控制变量时,生态系统呼吸与土壤Eh、pH间不再具有显著的相关性,Eh、pH对CO2通量的影响可能是由地温变化间接引起的,而CO2通量与活体生物量呈现出了一定的相关性,与凋落物生物量无显著相关性.2种草原的CO2通量都可以用温度指数模型进行很好地模拟,基于地温的模拟效果(R2为0.568～0.639)显著好于基于箱内气温的(R2为0.323～0.426).地温是2种草原生态系统呼吸最重要的影响因素,它掩盖了地上部植物体对生态系统呼吸的影响.在该区域,土壤呼吸占生态系统呼吸比例较高,贝加尔针茅草原较高的有机质含量导致了其生态系统呼吸CO2通量较高.     

含油污泥无害化处置优化研究及生命周期评价

提出含油污泥的优化处置方案,并通过生命周期评价方法(LCA)对优化方案进行环境影响评价。结果表明,与原处置工艺相比优化后环境负荷降低了99.62%。     

一体化接触氧化反应器处理景区生活污水

常州某旅游景区采用一体化生活污水处理装置处理该区生活污水,通过试验确定反应器的最佳工艺参数,研究表明采用接触氧化反应器处理农村污水,在反应器内溶解氧维持在2.0~4.0 mg/L,水力负荷为3.53 m3/(m3.d)的运行条件下,对COD、NH3-N及TN去除率分别达80.82%、69.12%、63.16%,出水可稳定达GB18918-2002《城镇污水处理厂污染物排放标准》一级标准。     

Transport and fate of mercury under different hydrologic regimes in polluted stream in mining area

Seepage from Hg mine wastes and calcines contains high concentrations of mercury (Hg). Hg pollution is a major environmental problem in areas with abandoned mercury mines and retorting units. This study evaluates factors, especially the hydrological and sedimentary variables, governing temporal and spatial variation in levels and state of mercury in streams impacted by Hg contaminated runo . Samples were taken during di erent flow regimes in theWanshan Hg mining area in Guizhou Province, China. In its headwaters the sampled streams/rivers pass by several mine wastes and calcines with high concentration of Hg. Seepage causes serious Hg contamination to the downstream area. Concentrations of Hg in water samples showed significant seasonal variations. Periods of higher flow showed high concentrations of total Hg (THg) in water due to more particles being re-suspended and transported. The concentrations of major anions (e.g., Cl??, F??, NO3?? and SO4 2??) were lower during higher flow due to dilution. Due to both sedimentation of particles and dilution from tributaries the concentration of THg decreased from 2100 ng/L to background levels (< 50 ng/L) within 10 km distance downstream. Sedimentation is the main reason for the fast decrease of the concentration, it accounts for 69% and 60% for higher flow and lower flow regimes respectively in the upper part of the stream. Speciation calculation of the dissolved Hg fraction (DHg) (using Visual MINTEQ) showed that Hg(OH)2 associated with dissolved organic matter is the main form of Hg in dissolved phase in surface waters in Wanshan (over 95%).     

Chemical cleaning of fouled PVC membrane during ultrafiltration of algal-rich water

Cleaning of hollow-fibre polyvinyl chloride (PVC) membrane with di erent chemical reagents after ultrafiltration of algal-rich water was investigated. Among the tested cleaning reagents (NaOH, HCl, EDTA, and NaClO), 100 mg/L NaClO exhibited the best performance (88.4% 1.1%) in removing the irreversible fouling resistance. This might be attributed to the fact that NaClO could eliminate almost all the major foulants such as carbohydrate-like and protein-like materials on the membrane surface, as confirmed by Fourier transform infrared spectroscopy analysis. However, negligible irreversible resistance (1.5% 1.0%) was obtained when the membrane was cleaning by 500 mg/L NaOH for 1.0 hr, although the NaOH solution could also desorb a portion of the major foulants from the fouled PVC membrane. Scanning electronic microscopy and atomic force microscopy analyses demonstrated that 500 mg/L NaOH could change the structure of the residual foulants on the membrane, making them more tightly attached to the membrane surface. This phenomenon might be responsible for the negligible membrane permeability restoration after NaOH cleaning. On the other hand, the microscopic analyses reflected that NaClO could e ectively remove the foulants accumulated on the membrane surface.