蚀刻液水合肼还原除铜

将电路板厂废弃的蚀刻液,经氢氧化铜沉淀法回收大部分铜后,再采用水合肼还原,进一步除铜。反应温度为50℃,水合肼质量分数为3．0％,溶液pH为6．0,废液中铜的去除率可达98.5％,处理后废液中铜的质量浓度低于0．2g／L,可作为碱性蚀刻液重复利用。     

中国铜产业体系演化的碳中和实现机制研究

本文研究了我国铜产业采选、冶炼、加工和再生等环节的演化趋势,构建了铜产业直接碳排放-能源间接排放-其他间接排放相结合的多层级碳排放核算模型,分析了我国铜产业各环节碳排放演变规律及碳中和实现机制。结果表明：①1980-2020年我国铜精矿、精炼铜、铜加工材、再生铜产品分别增长了6.6倍、 25.1倍、 88.5倍、 37.1倍,受碳中和目标实现对电力需求量增加的影响,预计2060年铜资源消费总量将较2020年提升62.3%,铜资源社会存量将达到3.9亿t,再生铜将于2030年超过原生铜成为主导资源类型。②2020年铜产业的碳排放总量达到2968.2万tCO₂e,其中,采选环节的吨铜碳排放量最高,达到了3.4tCO₂e,是第二位冶炼的2.3倍;冶炼环节的碳排放总量最大,达到铜产业的39.3%;再生环节的降碳效果突出,相较原生采选冶炼环节减少1251.2万tCO₂e;进出口贸易则进一步降低了该产业43.7%的碳排放总量。③预计2060年铜产业碳排放总量将达到1499.8万tCO₂e,通过促进国际贸易、循环经济、技术创新及环境市场建设等举措,可大幅降低产业的碳排放总量,其中国际贸易及循环经济情景的碳减排效果在2030年前均较显著、随后逐渐下降,技术创新及环境市场建设是该产业碳中和目标实现的根本,在2060年的减排潜力分别达到535.9万t及607.9万t。为了更好地促进该产业可持续发展及“双碳”目标实现,建议依托国内国际双循环格局合理调控铜产业结构,秉持全生命周期理念加快构建铜产业绿色供应链,紧随碳中和发展趋势促进资源循环减污降碳协同增效。     

重庆含铜废物利用行业技术准入研究

因缺失含铜废物利用技术准入规范,从业企业良莠不齐,制约了该行业的良性发展。通过分析重庆市含铜废物利用现状、存在问题,从含铜废物利用项目选址用地、建设规模、产品质量、技术工艺、设施建设、准入许可及环境管理等方面提出准入门槛规定,以期为含铜废物利用行业良性发展提供参考。     

不同EPS组成生物膜对Cu2+吸附的研究

采用自行设计的反应器,通过调节培养液的配比对载体进行挂膜,得到蛋白质和多糖含量比分别为7:1、5:1和10:1的3种生物膜作为吸附剂,用其对Cu2+进行吸附试验,同时对吸附机理进行探讨.结果表明,培养8d后,生物膜可挂膜成熟,在C/N=12时,生物膜上的菌落数较C/N=4和C/N=37条件下多.PN/PS值越小,生物膜对铜的吸附量越高,EPS3对Cu2+的吸附量分别高出EPS1 7.37 %, EPS2 7.62%.在生物膜吸附Cu2+后,溶液中Ca2+、Mg2+、K+含量明显升高,表明离子交换对生物膜吸附Cu2+起主要作用,且Cu2+更易与Ca2+和Mg2+产生离子交换作用.当KNO3浓度在0.1~0.6mol/L之间,随着离子强度的增加,生物膜吸附Cu2+的量迅速减少,当KNO3浓度大于0.6mol/L时,生物膜对Cu2+吸附量的变化趋于平缓,说明生物膜对Cu2+的吸附同时包括离子交换吸附和化学吸附.     

利用蚀刻废液生产碱式氯化铜过程中二英类污染物的去除

针对蚀刻废液及其回收后生产的碱式氯化铜产品中二英(PCDD/Fs)和二英类多氯联苯(dl-PCBs)进行了分析研究,并比较了采用去除工艺前后两类污染物含量水平的变化特征.利用高分辨气相色谱/高分辨质谱对样品中PCDD/Fs和dl-PCBs进行分析,结果表明,氯化铜废液中PCDD/Fs和dl-PCBs的平均总浓度分别为264、139 pg·mL-1,而铜氨液中浓度分别为0.09、0.50 pg·mL-1;碱式氯化铜产品中浓度分别为106 pg·g-1(2.79 pg WHO-TEQ2005·g-1)和27.8 pg·g-1(0.69 pg WHO-TEQ2005·g-1);而经过吸附和过滤等去除工艺后,产品中PCDD/Fs和dl-PCBs的TEQ浓度水平分别降低至0.10—0.25 pg WHO-TEQ2005·g-1和0.05—0.72 pg WHO-TEQ2005·g-1,满足欧盟对于矿物源性饲料添加剂中PCDD/Fs和dl-PCBs的限量标准要求.研究表明该工艺能够有效去除利用蚀刻废液生产碱式氯化铜过程中的二英类污染物.     

某湿地生态保护区水体中铜的生态风险评价及管理限值研究

铜是生物必需的微量元素,但过量暴露会对生物产生毒害效应。针对我国南方城市某湿地生态保护区水体重金属污染问题,参照《澳大利亚和新西兰淡水和海水水质指南》,应用物种敏感度分布(speeies sensitivity distribution,SSD)方法和联合概率曲线(joint probability curve,JPC)方法评价水体中铜的生态风险评价,在此基础上提出水体中铜浓度的管理限值。根据该湿地生态保护区生物调查历史数据以及其他文献数据,整理了415个本地物种的清单,通过美国环境保护署ECOTOX数据库以及其他文献共获取了13个物种的毒性数据,构建了Weibull分布、对数正态分布、正态分布、对数Logistic分布、Logistic分布、BurrⅢ型分布和Gumbel分布等7个SSD模型。结果表明,利用13个本地物种铜毒性数据构建的SSD模型具有合理性,不同模型计算得到的湿地生态保护区水体中铜的总体风险期望值为0.054~0.121。其中,BurrⅢ型分布模型的拟合效果最好,据此推导得到以保护水生生态系统为目标的铜的高可靠性与中等可靠性触发值分别为2.55μg·L~(-1)和1.41μg·L~(-1)。考虑到管理目标的可达性和现状的生态风险水平,提出该湿地生态保护区水体中铜浓度的管理限值为3μg·L~(-1)。     

外源NO介导Cu~(2+)胁迫下番茄幼苗活性氧与内源NO代谢的研究

采用营养液培养方法,研究Cu~(2+)胁迫下外源一氧化氮(nitric oxide,NO)介导的番茄幼苗活性氧及NO代谢途径。结果表明:在Cu~(2+)胁迫下,番茄叶片和根系氧自由基含量增加,NO释放量以及硝酸还原酶(nitrate reductase,NR)和一氧化氮合酶(nitric oxide synthase,NOS)活性降低。外源NO能提高Cu~(2+)胁迫下番茄叶片NR和NOS活性,促进NO的产生,根系NOS活性及NO产量也同时上升。外源NO使精氨酸含量显著增加,而Hb(牛血红蛋白,NO清除剂)可部分抵消NO的促进作用,使Cu~(2+)+SNP+Hb处理下番茄精氨酸含量显著下降。可见,外源NO的加入可通过酶促和非酶促途径促进Cu~(2+)胁迫下NO的合成,介导NO信号调控网络,调节内源NO、精氮酸和活性氧代谢途径,从而缓解过多Cu~(2+)引起的氧化伤害。     

Producing Cu-loaded algae for feeding experiments: effects of copper on Parachlorella kessleri

Microalgae require several essential metals for optimum growth, which at elevated concentrations may interfere with biochemical and physiological processes, one of them being copper (Cu). The aim of this study is to raise Cu-loaded Parachlorella kessleri as feed for mussels. In order to spike the algae with Cu without lowering their nutritional quality, it is important to know the highest Cu-concentration at which the main parameters remain unaffected, especially in respect to proteins and polysaccharides. The dependence of growth rate, biomass, chlorophyll-a and -b, pheophytin-a, protein, and polysaccharide contents on Cu concentrations are determined. The tests show that P. kessleri is largely unchanged in its nutritional value when exposed to Cu at levels of up to 6?µmol?L^?1. Above 10?µmol?L^?1, toxic effects become obvious, with chlorophyll contents and growth rate being the most sensitive indicators.     

Application of rotating cylinder method for ecotoxicological evaluation of antifouling paints

The environmental impact of two biocide-free antifouling paints, fluoropolymer and silicone types, painted on a test cylinder was assessed using a battery of ecotoxicity test and chemical analyses for organic micro-pollutants such as perfluoroalkyl substances (PFAS). A biocide paint containing zinc pyrithione (ZnPT₂) and cuprous oxide was assessed as a positive control. A standardized laboratory rotating-cylinder method using each test cylinder with artificial seawater was performed for 45 days. After 1?h rotation, the leaked seawater was subjected for bioassay and chemical analyses twice weekly. The seawater extracts from the biocide paint showed adverse effects on bacteria, algae, and crustaceans, but those from the biocide-free paints did not. The leakage seawater from biocide-free paints, after 7-day continuous rotation, contained the same concentration levels of PFAS as blank seawater used to conduct the tests. Thus, no significant toxicities of the biocide-free paints were found under the conditions of this study. Simultaneous analysis of ZnPT₂ and copper pyrithione (CuPT₂) was developed using an HPLC with a polymeric resin column, showing that ZnPT₂ was converted to CuPT₂ by trans-chelation in the leakage seawater from the positive control paint. The experimental results using a laboratory rotating-cylinder method demonstrated that biocide-free paints did not markedly affect three species tested and no PFAS was detected. In contrast, biocide paint was significantly toxic to test species and toxicity of the extract on bacteria was partly responsible for CuPT₂ produced in leakage seawater. Thus, a laboratory rotating-cylinder method may be applied for ecotoxicological assessment of antifouling paints.     

Correlation between lead and iron in children's blood in Jordan

A total of 200 Jordanian children were classified into two groups: 100 Fe replete and 100 Fe deficient with ages ranging between 3.0 and 12.0 years (6.9 ± 2.7 years). All participants were chosen according to proper selection criteria followed by the sample collection: the samples were analyzed for hemoglobin and red blood cells; ferritin, an immunoassays-based instrument; and levels of Pb, Cu, and Zn. There were no significant differences between genders regarding Fe-deficiency (p = 0.57 and χ2 = 0.33), with a significant association of younger individuals (3.0–9.1 years) with Fe-deficiency (p < 0.05 and χ2 = 22.7).

In addition, there is a significant positive correlation between Fe-deficiency with blood levels of Pb, Cu, and Zn (p < 0.05), (r = 0.43, 0.35, and 0.42, respectively) as compared to control group, this findings supported, by comparing the levels of the examined metals in both groups, in individuals whom close to heavy metals source (highway traffic or oil gas station), and found that the mean of the heavy metals level in close Fe-deficient group higher than in close Fe-replete group.