Effect of copper on the growth of shrimps Litopenaeus vannamei : water parameters and copper budget in a recirculating system

Shrimps( Litopenaeus vannamei) were intensively cultured in a recirculating aquaculture system for 98 days to investigate effects of 0.3 mg/L Cu on its performance, Cu budget, and Cu distribution. Shrimps in Cu-treated systems had greater mean final weight(11.10 vs 10.50 g), body length(107.23 vs 106.42 mm), survival rate(67.80% vs 66.40%), and yield(6.42 vs 5.99 kg/m 3), and lower feed conversion ratio(1.20 vs 1.29) than those in control systems but the differences were not significant. Vibrio numbers remained stable(10 4 –10 6 colony forming units/mL) in the rearing tanks of both control and treated systems. Total ammonium-N, nitrite-N, nitrate-N, pH, chemical oxygen demand, 5-day carbonaceous biochemical oxygen demand, and total suspended solids were similar in controls and treatments. Dissolved Cu concentration in the treated systems decreased from 0.284 to 0.089 mg/L while in the control systems it increased from 0.006 2 to 0.018 mg/L. The main sources of Cu in the treated systems were the artificially added component(75.7% of total input), shrimp feed(21.0%), water(2.06%), and shrimp biomass(1.22%). The major outputs of Cu occurred via the mechanical filter(41.7%), water renewal(15.6%), and draining of the sediment trap(15.1%). The foam fractionator removed only 0.69% of total Cu input. Harvested shrimp biomass accounted for 11.68% of Cu input. The Cu concentration of shrimps in the Cu-treated systems(30.70 mg/kg wet weight) was significantly higher than that in control systems(22.02 mg/kg). Both were below the maximum permissible concentration(50 mg/kg) for Cu in seafood for human consumption in China. Therefore, recirculating systems can be used for commercial on-growing of Litopenaeus vannamei without loss of shrimp quality, even in water polluted by 0.30 mg/L Cu. The mechanical filter is the main route for Cu removal.

一种解决压延铜箔电镀后表面粗糙问题的微蚀液

压延铜箔是通过对铜锭的反复轧制-退火工艺而成的,其铜原子呈不规则层状结晶,导致压延铜箔在后续的电镀铜过程中容易产生表面粗糙的问题。压延铜箔通常用于挠性线路板,线路表面越粗糙,则电阻越大,相应的信号延迟越大,信号质量越差。本文研制了一种用于化学镀铜前处理工艺的微蚀液,改变压延铜箔的表面形貌,提高电镀后铜箔表面平整度,形成的表面粗糙度(Ra)低于50 nm,表面轮廓最大高度(Rz)低于200 nm,为后续工艺打下良好基础。

基于RSM和RA-BPNN的锌窑渣中铜浮选试验优化

云南某地锌窑渣矿样,原矿为高碱性矿石,矿石含铜1.38%,氧化率为30.12%。以磨矿细度、戊基黄药用量、碳酸钠用量、硫酸铜用量和硫化钠用量作自变量,以浮选回收率为因变量,分别建立了CCD响应曲面设计模型(RSM)和基于回归分析-BP神经网络(RA-BPNN)的浮选预测优化模型。根据两种模型的优化能力、优化精度进行分析和对比,结果表明,基于RA-BPNN模型进行预测及试验验证,铜回收率达到了64.06%,误差为0.74%,浮选回收率较RSM模型提高了1.54个百分点,且误差明显小于RSM模型,这表明RA-BPNN模型的优化能力高于RSM。根据试验结果,确定了锌窑渣浮选回收铜的最佳浮选条件为:磨矿细度90%、戊基黄药用量370g/t、碳酸钠用量720g/t、硫酸铜用量1080g/t、硫化钠用量870g/t。通过“一次粗选、三次精选、两次扫选、中矿顺序返回”的闭路浮选工艺流程,获得了品位为6.58%,回收率为55.98%的铜精矿。

软硬结合板软板分层问题研究

软硬结合板作为一种特殊的互联技术,同时具备FPC的可弯折性以及PCB的支撑性,弯折性能是软硬结合板的一个重要特性,根据不同的弯折性要求,软板铜可选择压延铜与电解铜。在软硬结合板制作过程中,软板铜与树脂之间出现分层是一种常见的失效模式。为了增强软板铜与树脂之间的结合力,通常会对软板进行棕化处理,由于压延铜与电解铜由于晶格不同,压延铜表面粗糙度小于电解铜,棕化药水对压延铜的粗化效果弱于电解铜,也导致压延铜与树脂之间的分层问题更多。本文旨在研究不同棕化线速、不同棕化药水、不同半固化片类型.

类风湿性关节炎血浆置换治疗前后微量元素铜铁锌的变化

采用原子吸收分光光度计，对15例类风湿性关节炎患者血浆中铜、铁、锌的含量进行测定，并与正常对照组作比较。结果显示患者铜明显升高，锌降低，铜／锌比值升高。血浆置换后铜含量及铜／锌比值恢复正常，锌含量有所恢复。证明类风湿性关节炎患者铜、铁、锌的代谢方面存在一定缺陷。血浆置换可纠正这种微量元素代谢异常，从而起到改善免疫功能的作用。

铜离子在养殖对虾组织中的积累及其对金属硫蛋白含量的影响

为考察铜在循环水与静水养殖系统的凡纳滨对虾组织中的积累,本实验在两种养殖系统中分别添加硫酸铜,并使其浓度保持一致,经过92d的培养,对铜在虾组织中的积累量进行了测定。结果表明,在两种系统中养殖的对虾,其组织中铜浓度依次为:肝胰腺>鳃丝>甲壳>肌肉,肝胰腺中金属硫蛋白(MT)与肝胰腺中铜的积累有相似变化趋势。循环水系统与静水系统中虾肝胰腺和甲壳中铜的积累量有显著差异,而两种系统中虾鳃丝中铜的积累量差异不明显。

大学无机化学实验碱式碳酸铜制备方法的优化

"碱式碳酸铜的制备"是大学无机化学的综合设计实验,笔者在多年的教学中发现学生的实验结果并不理想,颜色偏蓝、产量偏低等问题普遍存在。为此对制备条件进行系统研究,并用XRD、FT-IR对产物进行分析。结果表明,当硫酸铜和碳酸钠的物质的量比为1∶1.2时,将碳酸钠溶液加入到硫酸铜溶液中,在75℃反应制得的产物为纯相碱式碳酸铜。