平菇菌糠对废水中铜离子的生物吸附性能

针对重金属污染和农业固体废弃物资源化问题,利用平菇菌糠作为吸附剂对废水中Cu2+吸附性能进行研究.通过单因素实验测定pH、吸附时间、温度、Cu2+初始浓度对吸附效果的影响;利用扫描电镜-能谱、红外光谱和X射线衍射对其吸附机制进行了初步探究.结果表明,菌糠浓度为10 g·L-1,pH为6,吸附时间为120 min,吸附温度为30℃,铜离子初始浓度为8mg·L-1的条件下,吸附率可达到74.46%,吸附容量为0.744 6 mg·g-1.实验数据较好地吻合Langmuir吸附等温模型,其相关系数为0.994 9,表明吸附过程主要为单层化学吸附.扫描电镜-能谱、红外光谱和X射线衍射分析显示,平菇菌糠吸附Cu2+过程主要为物理吸附和化学吸附,包括静电吸附、络合和配位等反应,其中起主要作用的基团为—OH、—COOH、—NH等.     

工业废催化剂的回收利用与环境保护

大量工业废催化剂的丢弃，不仅是一种资源的浪费，而且对环境也会造成一定程度的污染，针对工业废催化剂的回收利用进行了探讨，着重介绍了几种工业废催化剂的综合回收技术。     

国内外化学镀镍老化液处理方法

简述了化学镀镍的工艺流程,镀液及老化液成分,以及国内外现有的对化学镀镍老化液处理方法,包括化学法、电解法、离子交换法和膜分离技术。     

采用重选法处理蚀刻废液零排放资源化新工艺

阐述了广州市白云区南溪化工厂开发出的一套国内首创的对线路板蚀刻废液进行大规模集中资源化处理的零排放处理新工艺,这套新工艺采用重力分选的方法将在固相条件下生成的氧化铜分离出来,克服了原有工艺的缺陷,达到了理想的分离效果,使废液中所有的成分能够在较低的处理成本下全部分离回收,完全无三废排出,达到了清洁生产的要求。     

Removal of 2, 4‐D from aqueous solution by the adsorbents from spent bleaching earth

Abstract

The removal of 2, 4‐D (2, 4‐ dichlorophenoxyacetic acid) from aqueous solutions by activated spent bleaching earths (SBE) was studied at 20 °C. Experiments were performed as a function of time, initial concentration, dose and particle size of the adsorbent. The Langmuir and Freundlich adsorption equations were fitted by the adsorption data obtained. The values of Langmuir and Freundlich constants were determined. The adsorption kinetic was found to follow Lagergren equation. Both the boundary layer and intraparticle diffusion played important roles in the adsorption rate of 2, 4‐D. As the size of the adsorbent increased, the time to reach equilibrium increased but adsorption capacity decreased.     

Development of functional composts using spent coffee grounds,poultry manure and biochar through microbial bioaugmentation

Spent coffee grounds (SCG), poultry manure, and agricultural waste-derived biochar were used to manufacture functional composts through microbial bioaugmentation. The highest yield of tomato stalk-based biochar (40.7%) was obtained at 450°C with a surface area of 2.35 m² g^?1. Four pilot-scale composting reactors were established to perform composting for 45 days. The ratios of NH₄⁺–N/NO₃^?–N, which served as an indicator of compost maturity, indicate rapid, and successful composting via microbial bioaugmentation and biochar amendment. Moreover, germination indices for radish also increased by 14–34% through augmentation and biochar amendment. Microbial diversity was also enhanced in the augmented and biochar-amended composts by 7.1–8.9%, where two species of Sphingobacteriaceae were dominant (29–43%). The scavenging activities of 2,2-diphenyl-1-picrylhydrazyl (DPPH) were enhanced by 14.1% and 8.6% in the fruits of pepper plants grown in the presence of the TR-2 (augmentation applied only) and TR-3 (both augmentation and biochar amendment applied) composts, respectively. Total phenolic content was also enhanced by 68% in the fruits of the crops grown in TR-3. Moreover, the other compost, TR-L (augmentation applied only), boosted DPPH scavenging activity by 111% in leeks compared with commercial organic fertilizer, while TR-3 increased the phenolic content by 44.8%. Composting facilitated by microbial augmentation and biochar amendment shortened the composting time and enhanced the quality of the functional compost. These results indicate that functional compost has great potential to compete with commercially available organic fertilizers and that the novel composting technology could significantly contribute to the eco-friendly recycling of organic wastes such as spent coffee grounds, poultry manure, and agricultural wastes.     

水泥窑共处置废白土的环境效益分析

以废白土为研究对象,应用生命周期评价法(LCA)对水泥窑共处置和焚烧炉处置系统3个类别的环境影响[人类健康(HH)、生态系统质量(EQ)和资源(R)]进行研究和对比分析.结果表明,水泥窑共处置废白土有利于环境的可持续发展,焚烧炉处置对环境的影响较大.水泥窑共处置和焚烧炉处置功能单位废白土的总环境负荷分别为-1.03,0.273Pt,前者的环境负荷比后者减少了477%,相应各指标的减少率为:HH 413%, EQ 479%, R 36.9%. EQ在2种处置方式的LCA中均为最敏感的影响指标.水泥窑系统中,避免了贡献率占97%以上的矿山开采阶段的环境影响,是降低整个系统环境影响的关键环节;焚烧炉系统中,电力消耗是造成环境破坏的重要阶段,对各影响指标都有很高的贡献率.二 、苯、重金属的排放是水泥窑共处置废白土的主要影响因子;粉尘和重金属排放对焚烧处置系统的影响较大.     

Organic acid profile and phenolic and sugar content in Salix purpurea × viminalis L. cultivated with different spent mushroom substrate and copper additions

The aim of the study was to determine the response of Salix purpurea?×?viminalis L. growing on Pleurotus ostreatus spent mushroom substrate (SMS) with different copper (Cu) addition. The content of Cu in roots, leaves and shoots was reduced by SMS addition. A decrease of biomass was observed with simultaneous Cu concentration increase. SMS induced leaf and root elongation of Cu-treated plants. Variation in the profile of low molecular weight organic acids with the domination of oxalic and acetic acids was observed. The total phenolic content significantly increased for plants cultivated with SMS, while the biosynthesis of salicylic acid was considerably weakened. The content of sugars was generally reduced by SMS. Alteration in the level of the stress-related molecules suggests mitigation of the harmful effect of Cu on Salix hybrid metabolism by SMS addition. This pointed to the possibility of using SMS in contaminated soil to reduce the toxic effect of metals on plants used in phytoextraction.     

J酸清洁生产新工艺的研究

借助高压液相色谱研究了J酸清洁生产新工艺,优化了J酸制备的反应条件,按照新工艺,产品的干品含量(偶合值)高于95%,而杂质异构体γ酸含量低于0.5%,J酸对吐氏酸的总收率达76%,减少了废水的排放.     

核废物的安全和环境影响

本论述了核废物特性,核废物安全管理原则,核废物的安全处理、处置技术、废放射源的安全管理、乏燃料的安全管理和核废物的环境影响等6方面问题。特别强调了废物管理9条原则,核废物最少化,豁免和清洁解控,核废物处理、处置技术的发展动向,我国核废物管理40字方针,国际社会关注的废放射源和乏燃料安全处理和处置等,并以我国大亚湾和秦山核电站为例,说明核废物可以被安全地控制和管理,保证环境的安全。