黄金矿选矿厂含氰废水处理研究

以银洞坡金矿为俐．对选矿厂含氰废水进行了水质调查．采用碱性氯化法处理银洞坡金矿尾矿库的含氰废水,在去除氰化物和重金属方面都取得了较好的效果,提出了采用间歇式方法处理舍氰废水工艺方案。     

不同藻密度下诺氟沙星对萼花臂尾轮虫生命表统计学参数的影响

诺氟沙星是一种被广泛使用的抗生素,但其对轮虫的毒性作用尚不清楚。为调查诺氟沙星对轮虫的毒性及其与藻密度之间的关系,以及各试验终点对诺氟沙星污染的相对敏感性,本文以萼花臂尾轮虫为受试生物,研究了不同斜生栅藻密度(1.0×10~6、2.0×10~6和4.0×10~6cells·m L~(-1))下不同浓度(0、5、20、35、50、65和80 mg·L~(-1))的诺氟沙星对其生命表统计学参数的影响。结果显示,与3个藻密度下的对照组相比,暴露于5～80 mg·L~(-1)诺氟沙星溶液中的轮虫生命期望和世代时间显著延长,净生殖率和种群内禀增长率显著提高。5 mg·L~(-1)的诺氟沙星使生命期望和世代时间的延长幅度随着藻密度的升高而增大,但6个处理组的平均提高幅度却随着藻密度的升高而减小; 5 mg·L~(-1)的诺氟沙星对净生殖率和种群内禀增长率的提高幅度随着藻密度的升高而增大,但6个处理组的平均提高幅度却在2.0×10~6cells·m L~(-1)的藻密度下最小,4.0×10~6cells·m L~(-1)的藻密度下最大。1.0×10~6cells·m L~(-1)的藻密度下,诺氟沙星浓度对轮虫后代混交率无显著性影响(P0.05); 2.0×10~6cells·m L~(-1)的藻密度下,暴露于5～35和80 mg·L~(-1)诺氟沙星溶液中的轮虫后代混交率显著降低; 4.0×10~6cells·m L~(-1)的藻密度下,暴露于5、35和80 mg·L~(-1)诺氟沙星溶液中的轮虫后代混交率显著降低。当藻密度为1.0×10~6和2.0×10~6cells·m L~(-1)时,诺氟沙星浓度与轮虫的生命期望、世代时间、净生殖率和种群内禀增长率之间具有显著的剂量-效应关系;当藻密度为4.0×10~6cells·m L~(-1)时,诺氟沙星浓度与轮虫的净生殖率和种群内禀增长率之间具有显著的剂量-效应关系。本研究表明,亚致死浓度的诺氟沙星促进轮虫的存活、发育、孤雌生殖和种群增长,促进作用的幅度受藻密度的显著影响。     

甲基化防己诺林碱制备粉防己碱研究

粉防己碱是一种治疗心血管疾病的药物,只能从中药粉防己中提取.近年来粉防己的资源量锐减.防己诺林碱的含量仅次于粉防己碱,至今还没有成为一种药物,是粉防己碱生产时的副产品.为了有效利用这种副产品,本文研究了将防己诺林碱转化为防己碱的方法.在不同的溶剂系统和碱性条件下,以防己诺林碱为原料,采用两种甲基化试剂制备了粉防己碱.结果表明,溶剂、碱性和甲基化试剂等对收率都有很大的影响.其中最优的方法是,硫酸二甲酯为甲基化试剂,二氯甲烷/KOH溶液为溶剂,收率最高,副反应最少,为61.4%.此转化反应能够有效利用粉防己药材.     

哪种人不宜喝咖啡

高血压:咖啡中含有咖啡因,它能使部分敏感患者血压升高。肾衰竭:肾衰竭患者若有高血钾现象,需配合限钾饮食,咖啡含钾量高。     

累托石对水中染料碱性桃红的吸附

采用累托石作为水中碱性桃红的吸附剂.考察了振荡时间、pH值、累托石用量、碱性桃红初始浓度等因素对吸附效果的影响.测定了吸附等温线,对吸附动力学规律进行了数学模拟.结果表明,振荡时间、累托石用量、碱性桃红初始浓度等因素对吸附效果有重要影响.对于初始质量浓度为50 mg/L的碱性桃红水溶液,最适宜吸附条件为:振荡时间30 min,累托石用量200 mg/100 mL,pH值为6.累托石对水中碱性桃红的吸附等温线呈"S"型,等温吸附规律可用Freundlich模式较好地描述,吸附动力学规律可用Bangham公式模拟.     

提高污泥碱性发酵挥发酸积累的新方法

为了加大剩余污泥在碱性条件下的水解酸化程度,本研究尝试了两种新的能促进污泥碱性发酵产酸的方式,分别是向批式的污泥碱性发酵系统中投加未灭菌发酵污泥和投加灭菌发酵污泥,结合温度的影响(10℃和35℃)分别考察了这两种方式对污泥水解酸化效果的影响.结果表明,中温有利于水解酶和产酸菌作用的发挥,增大了污泥的水解酸化程度,体系内有明显的挥发酸(VFAs)积累.35℃条件下,两种方式都在很大程度上促进了新鲜污泥的水解酸化程度,经灭菌后的发酵污泥的投加较等量的未灭菌的发酵污泥的投加效果更为显著.前者的水解速率是后者的2倍,发酵末期酸积累量为后者的1.5倍,且前者在较长的发酵时间内VFAs含量维持恒定.分析两种方式能促进污泥水解酸化的原因得到:未灭菌发酵污泥的投加是向系统中引入了一定量的产酸菌,灭菌发酵污泥的投加引入了大量的较易水解的有机底物.水解产物的增加能在更大程度上影响产酸的效果.因此,中温条件下向污泥碱性发酵系统中投加经灭菌处理后的发酵污泥是提高剩余污泥发酵产酸量更为有效的方式.     

三峡水库沉积物中碱性磷酸酶的活性

为了解三峡水库沉积物中碱性磷酸酶(APA)活性的特点,采集了来自三峡水库干支流的11个柱状沉积物,测定了沉积物中碱性磷酸酶的活性。结果表明,三峡水库沉积物中碱性磷酸酶活性有明显的空间异质性。干流的茅坪、郭家坝、巴东的酶活性小且没有显著性差异,茅坪位点的碱性磷酸酶活性在垂直方向上随着采样深度的增加而递减,而巴东和郭家坝的酶活性在垂直方向上变化趋势不明显;支流酶活性表现为:香溪河>大宁河>小江>干流,从上游到下游的酶活性变化呈现多峰值的变化,而在垂直方向上同样表现为随着采样深度的增加而递减。此外,碱性磷酸酶活性与水体富营养化程度、沉积物的污染程度和沉积环境有关,因此可以将其作为评价水体营养状况的指标之一。     

Bioaccumulation of heavy metals in fishes from Taihu Lake, China

The Cr,Zn,Cu,Cd,Pb contents were determined in Cyprinus carpio Linnaeus,Carassius auratus Linnaeus,Hypophthalmichthys molitrix and Aristichthys nobilis,which were caught from Meiliang Bay,Taihu Lake,a large,shallow and eutrophic lake of China.The results showed that:(1)the Cr,Cu,Pb,Cd contents in the edible parts of the four fish species were much lower than Chinese Food Health Criterion(1994),but the Zn contents were higher than the Criterion;(2)Cd contents were the highest in the liver of fish,Pb contents were almost the same in all organs of fish,Cr contents mainly enriched in the skin and gonads,Zn contents were the highest in the gonad(♀),and Cu contents were the highest in the liver;(3)the total metal accumulation was the greatest in the liver and the lowest in the muscle.The total metal accumulation was the highest in C.auratus L.This investigation indicated that fish products in Taihu Lake were still safe for human consumption,but the amount consumed should be controlled under the Chinese Food Health Criterion to avoid excessive intake of Zn.     

食物从哪里来?

食物从哪里来?这似乎是个再简单不过的问题。但现如今,这个问题却不断困扰我们。更为准确地说,今天,从哪里可以获得安全健康的食物成为了我们的困扰。这无疑是一个有些滑稽的问题——在这个科技突飞猛进,人们已然可以奔向外太空的时代,我们却开始困扰于餐桌安全。然而,它却真实存在,并要求我们做出思考和选择。     

Removal of phosphate from wastewater using alkaline residue

Alkaline residue(AR) was found to be an efficient adsorbent for phosphate removal from wastewater. The kinetic and equilibrium of phosphate removal were investigated to evaluate the performance of modified alkaline residue. After treatment by NaOH(AR-NaOH), removal performance was significantly improved, while removal performance was almost completely lost after treatment by HCl(AR-HCl). The kinetics of the removal process by all adsorbents was well characterized by the pseudo second-order model. The Langmuir model exhibited the best correlation for AR-HCl, while AR was effectively described by Freundlich model. Both models were well fitted to AR-NaOH. The maximum adsorption capacities calculated from Langmuir equation were in following manner: AR-NaOH AR AR-HCl. Phosphate removal by alkaline residue was pH dependent process. Mechanisms for phosphate removal mainly involved adsorption and precipitation, varied with equilibrium pH of solution. For AR-HCl, the acid equilibrium pH( 6.0) was unfavorable for the formation of Ca-P precipitate, with adsorption as the key mechanism for phosphate removal. In contrast, for AR and ARNaOH, precipitation was the dominant mechanism for phosphate removal, due to the incrase on pH( 8.0) after phosphate removal. The results of both XRD and SEM analysis confirmed CaHPO4·2H2O formation after phosphate removal by AR and AR-NaOH.