中温焙烧/钠化氧化法回收电镀污泥中的铬

采用中温焙烧/钠化氧化法从电镀污泥中回收铬.结果表明,影响铬浸出率的最主要因素为焙烧温度.电镀污泥与碳酸钠质量比、焙烧时间、水浸时间对铬浸出率的影响较接近,在水浸水固比为10.0 ; 1.0(质量比)、室温、焙烧温度为650℃、焙烧时间为2.0h、电镀污泥与碳酸钠质量比为1:1、水浸时间为60 min的最佳浸出条件下,铬浸出率为99.3%;去除氢氧化铝、氢氧化锌的最佳反应温度和pH分别为90～95℃和7.5;去除硫酸钠晶体的最佳pH为4.0,在最佳试验条件下,铬回收率为90.57%.     

生物接触氧化/超滤/反渗透法处理稠油污水试验研究

采用生物接触氧化/超滤/反渗透工艺,对陈家庄稠油污水进行了深度处理回用注汽锅炉给水试验研究.试验结果表明,进水含油量为8.1～67.0 mg/L,浊度为35～120 NTU,矿化度为10 454～11 354 mg/L时,生物接触氧化/超滤出水含油量为<0.8 mg/L,浊度为<0.5 NTU,污染密度指数(SDI)<3,各项指标满足反渗透进水要求.反渗透出水矿化度<950 mg/L,出水各项指标优于高压注汽锅炉进水指标.     

一种新型光催化剂用于降解腈纶废水研究

将1,10菲啰啉和铁Fe2+溶液配成络合物负载到D113树脂上作为可见光催化剂,利用该催化剂对腈纶废水进行了降解研究,考察了该负载型铁氮配合物催化剂处理腈纶废水的影响因素。由实验结果可知,该催化剂处理腈纶废水最佳条件为：过氧化氢浓度为400 mg/L,催化剂用量为5 g/L,最佳pH值范围为4～9,COD降解率可达68.7%,实现了在温和的反应条件下,即常温、常压、宽pH范围进行反应,充分利用了可见光来处理难降解有机物。     

有机磷降解酶的固定化及其工业化应用初探

采用一种新型的酶固定化方法,在大孔微球中对有机磷降解酶（OPHC2）固定化,制备固相载体化的交联酶聚集体固定化酶。对具有实际应用意义的参数：热稳定性、牢固度和连续反应批次进行了重点研究。结果表明,有机磷降解酶固定化酶的半衰期在70℃时比游离酶提高了2.1倍。固定化酶分别在37℃的摇床中经14 h高速振荡,以及在pH 8、37℃条件下循环反应49个批次降解甲基对硫磷后,均未发现固定化酶酶活力下降。在37℃,有机磷降解酶固定化酶柱以每小时3倍柱床体积的速率对甲基对硫磷农药乳油的稀释液（甲基对硫磷含量为216 mg/L）进行降解处理,系统连续工作156 h,甲基对硫磷的降解率保持在98.4%～99.9%。     

镉胁迫对向日葵幼苗生长和生理特性的影响

采用溶液培养方法,研究了不同浓度镉(0、0.05、0.1、0.5和1 mg/L)处理7 d对向日葵幼苗生长和生理特性的影响。结果表明：随着镉处理浓度的增加,向日葵幼苗对镉的吸收显著增加。1 mg/L镉浓度处理时,叶、茎和根中镉浓度分别为0.05 mg/L镉处理时的16.3、19.2和581倍;根中积累的镉含量明显高于叶和茎, 各浓度根部积累的镉分别为叶和茎的37.8～63倍和29.4～41倍。镉胁迫显著抑制向日葵幼苗生长和叶绿素合成,当镉浓度达1 mg/L时,整株植物生物量和总叶绿素含量分别为对照的55.9%和52.6%。镉胁迫下向日葵幼苗游离脯氨酸和丙二醛（MDA）含量显著增加,1 mg/L镉浓度时,根中含量分别为对照的4和5.8倍。向日葵幼苗可溶性蛋白含量和过氧化物酶(POD)活性变化与镉胁迫浓度呈明显的倒U字型关系,可溶性蛋白含量在0.05 mg/L镉浓度时达到最大值,叶、茎、根中的POD活性分别在0.1、0.1和0.05 mg/L镉浓度时达到最大值。     

T型氧化沟提高脱氮效率的技术改造

采用延长边沟闷曝时间的方法对BOD降解模式T型氧化沟进行提高脱氮效率的改造。结果表明,边沟闷曝时间由0.5 h增至1 h,系统反硝化和硝化运行时间比t_DN/t_N由0.56调整至0.50时,提高了系统的NH₃-N的硝化效率,强化了脱氮能力。工艺改造后出水NH3-N浓度由改造前15.5 mg/L显著降低至10.4 mg/L,达到了广东省地方标准（DB 44/26-2001）第一时段的二级排放要求;系统脱氮效率由改造前52.1%显著提高到68.3％,有效地解决了污水厂出水NH₃-N浓度过高的问题;具有投资少、效果明显的特点,有一定的推广价值。     

Poplar plantation has the potential to alter the water balance in semiarid Inner Mongolia

Poplar plantation is the most dominant broadleaf forest type in northern China. Since the mid-1990s plantation was intensified to combat desertification along China's northwestern border, i.e., within Inner Mongolia (IM). This evoked much concern regarding the ecological and environmental effects on areas that naturally grow grass or shrub vegetation. To highlight potential consequences of large-scale poplar plantations on the water budget within semiarid IM, we compared the growing season water balance (evapotranspiration (ET) and precipitation (PPT)) of a 3-yr old poplar plantation (Kp₃) and a natural shrubland (Ks) in the Kubuqi Desert in western IM, and a 6-yr old poplar plantation (Bp₆) growing under sub-humid climate near Beijing. The results showed that, despite 33% lower PPT at Kp₃, ET was 2% higher at Kp₃ (228 mm) as compared with Ks (223 mm) in May–September 2006. The difference derived mainly from higher ET at the plantation during drier periods of the growing season, which also indicated that the poplars must have partly transpired groundwater. Estimated growing season ET at Bp₆ was about 550 mm and more than 100% higher than at Kp₃. It is estimated that increases in leaf area index and net radiation at Kp₃ provide future potential for the poplars in Kubuqi to exceed the present ET and ET of the natural shrubland by 100–200%. These increases in ET are only possible through the permanent use of groundwater either directly by the trees or through increased irrigation. This may significantly change the water balance in the area (e.g., high ET at the cost of a reduction in the water table), which renders large-scale plantations a questionable tool in sustainable arid-land management.     

广东坡地红壤颗粒组成状况的研究──Ⅰ.土壤颗粒组成的特征

本文对广东坡地红壤颗粒组成的特征进行了初步研究、结果表明;广东坡地红壤较粗颗粒的矿物组成以轻矿物石英为主;粘粒的矿物组成一般以1：1高岭土为主;在粘粒的化学组成中,盐基淋失严重,铁铝氧化物聚积：颗粒大小分布主要受成土母质的影响。     

关于旅游城市化问题的初步探讨——以长江三角洲都市连绵区为例

城市化发展的动力带动 ,城市旅游资源的富集 ,人口、经济的集聚与扩散 ,旅游供需关系的结合 ,旅游者对城市旅游目的地的选择行为 ,政策的导向 ,旅游业的发展和交通设施的完善等因素 ,导致了旅游城市化现象的产生。以长江三角洲都市连绵区为例 ,分析了旅游城市化进程中还存在发展思路不明 ,破坏旅游景观和生态环境 ,旅游规划与城市规划、城市发展不相适应 ,人口管理比较混乱 ,用地功能分区不明显 ,土地资源浪费严重等问题。提出了旅游城市化的发展对策     

Distribution and migration of 95Zr in a tea plant/soil system

(95)Zr is a primary radionuclide in the radioactive liquid efflux from a pressurized water reactor and one of the main radionuclides released after nuclear accidents. The fission yield of (95)Zr is as high as 6.2%, however, its environmental behavior has not been well documented. An experiment was conducted to evaluate the accumulation and distribution of (95)Zr in a tea plant/soil system. (95)Zr was accumulated primarily in the trunk of tea plants after being taken up from the soil. The radioactivity concentration of (95)Zr in the trunk increased slowly with time, then it reached a dynamic equilibrium 14 days after application. The radioactivity concentration of (95)Zr in the other parts of the tea plant was very low; only slighter greater than the detection limit. The results indicated that (95)Zr was not readily translocated in the tea plant. About 98.9% of applied (95)Zr was found to concentrate in the upper 5 cm layer after being sprayed onto the soil surface. The results indicated that (95)Zr could not readily move downwards with percolating water due to strong adsorption to surface soil.