Penicillin fermentation residue biochar as a high-performance electrode for membrane capacitive deionization

● We have provided an activated method to remove the toxicity of antibiotic residue. ● PFRB can greatly improve the salt adsorption capacity of MCDI. ● The hierarchical porous and abundant O/N-doped played the key role for the high-capacity desalination. ● A new field of reuse of penicillin fermentation residue has been developed. Membrane capacitive deionization (MCDI) is an efficient desalination technology for brine. Penicillin fermentation residue biochar (PFRB) possesses a hierarchical porous and O/N-doped structure which could serve as a high-capacity desalination electrode in the MCDI system. Under optimal conditions (electrode weight, voltage, and concentration) and a carbonization temperature of 700 °C, the maximum salt adsorption capacity of the electrode can reach 26.4 mg/g, which is higher than that of most carbon electrodes. Furthermore, the electrochemical properties of the PFRB electrode were characterized through cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) with a maximum specific capacitance of 212.18 F/g. Finally, biotoxicity tests have showed that PFRB was non-biotoxin against luminescent bacteria and the MCDI system with the PFRB electrode remained stable even after 27 adsorption–desorption cycles. This study provides a novel way to recycle penicillin residue and an electrode that can achieve excellent desalination.     

Biomethanation of plant materials and agricultural residues using dung samples as wild population of microbes and also with isolated methanogens

Recycling of plant materials and agricultural residues for biomethanation was attempted in vials. The methanogenic activities of certain sewage samples have also been tested. Both sterilized and non-sterilized biomasses were used. Biomethanation was carried out with dung samples (cow, goat, buffalo, piggery wastes and poultry wash) as wild populations of microbes and in combination with other microbial isolates (isolated in the laboratory).Biomethanation had been observed to be good in most cases and particularly with the sterilized biomass. Mixed inoculum (dung samples and poultry wash) was found to be best for biomethanation. Of the microbe isolates, isolates from buffalo, pig and paper mill wastes appear to be most effective. Pretreated sawdust and rice straw were found to be good subtrates for biomethanation. Of the different plant biomass used Spirogyra (algae), Ipomea and water hyacinth were most effective whereas Jatropa gossypifolia and Parthenium sp. were the least effective. Biomethanation of Spirogyra was carried out both in anoxic and oxic conditions. Though methane production decreased enormously under oxic conditions, definite methane production continued indicating that the biomethanation process is not exclusively anoxic. Similarly, biomethanation of sewage samples from different sewage treatment plants were carried out with and without isolated methanogens and methane production was found to be moderate.     

麦秆酸预处理后与猪粪混合发酵提高产气量的效应研究

为了研究不同水平的酸处理对麦秆混合发酵过程中各指标变化的影响,本试验通过测定不同醋酸浓度、时间处理后的麦秆与猪粪混合厌氧发酵进程中还原糖、挥发性脂肪酸(VFA)含量,以及p H值变化和甲烷产量,探究各指标的关系并优化得出最佳醋酸处理组合,以期为酸预处理混合发酵实现高甲烷产量提供可靠的理论依据.结果表明,醋酸处理后的麦秆通过与猪粪混合发酵可明显提高甲烷单位产量,增幅为124.28%~207.40%.发酵过程中还原糖、VFA、p H值间相互影响.通过响应面法建立模型,得到醋酸处理的最优组合为浓度3.35%、时间6.75d,最大甲烷单位产量751.97 m L·g-1(以VS计).     

生物质炭对土壤重金属形态转化及其有效性的影响

为了解土壤重金属形态转化及其有效性对生物质炭修复措施的响应,以Cd、Cu、Pb和Zn复合污染水稻土为供试土样,添加不同粒径(1 mm和0.25 mm)和不同施用量(0、1%和5%)的竹炭(BB)、稻草炭(RSB)进行为期1年的恒温((25±1)℃)培养试验后,检测土壤p H、有效磷含量及重金属DTPA有效态含量的变化,并采用BCR连续浸提法分析生物质炭对土壤中重金属元素化学形态再分配的影响.结果表明:稻草炭的施用显著(p0.05)提高了土壤的p H值,且在RSB-5%(0.25 mm)处理下效果最显著;稻草炭的施用显著(p0.05)提高了土壤的有效磷含量,且5%用量比1%用量效果更明显;而竹炭的施用对土壤p H值和有效磷含量均无显著性影响;RSB-5%(0.25 mm)处理对降低土壤中Cd、Cu、Pb和Zn有效态含量的效果最佳,分别减少了34.5%、50.1%、52.5%和52.1%;在细粒径(0.25 mm)稻草炭处理下,酸溶态Cd和Cu向可还原态和可氧化态转化,酸溶态Zn向可还原态转化;在粗粒径(1 mm)竹炭处理下,酸溶态Cu和Zn向可还原态、可氧化态和残渣态转化;酸溶态Pb在稻草炭处理下向可还原态和可氧化态转化,且细粒径比粗粒径效果更佳;竹炭和稻草炭的施用改变了土壤中上述重金属各形态的分配,且5%用量比1%用量效果更明显.     

不同退耕年限下菜子湖湿地土壤铁形态变化

选取菜子湖区不同退耕年限(3、5、7、9、11、21 a)湿地为研究对象,以仍耕作油菜地和原始湿地为参照,分别采用王水消解法和Tessier连续提取法,分析了退耕还湖后湿地土壤全铁和铁的赋存形态特征,探讨退耕还湖后湿地土壤铁组分特征变化规律.结果表明:研究区土壤铁各形态含量大小顺序为:残渣态(RES-Fe:17.09~30.84 g·kg-1)铁锰氧化态(RED-Fe:3.66~4.48 g·kg-1)有机结合态(OM-Fe:0.87~3.09g·kg-1)碳酸盐结合态(CARB-Fe:0.01~0.37 g·kg-1)可交换态(EXC-Fe:0.01~0.15 g·kg-1).占全铁均小于1.5%的EXC-Fe和CARB-Fe均在退耕3 a和5 a期间含量快速升高,而后降低再升高,最低值出现在退耕11 a;RED-Fe在退耕3~9 a比较稳定,随后缓慢增加;而OM-Fe随退耕年限增加整体上呈增加趋势;占土壤铁形态总量73.91%~85.42%的RES-Fe在退耕3a时含量下降,在3~9 a间呈现逐渐增加的趋势,9~21 a又逐渐下降;研究区全铁(Tot-Fe)平均含量在18.50~38.41 g·kg-1之间,变化趋势与RES-Fe基本一致.讨论结果表明退耕还湖后水文条件和植被状况的改变导致了土壤环境发生变化,从而不仅影响退耕后湿地土壤全铁含量变化,也影响土壤铁形态组分特征,进而影响土壤铁的有效性.     

秸秆添加对厨余垃圾堆肥时H_2S和NH_3排放的影响

厨余垃圾堆肥过程中NH3和H2S的排放不但降低了堆肥的养分含量,而且会引发严重的恶臭。以厨余垃圾为研究对象,以玉米秸秆为膨松剂,设置5%、10%、15%、20%(质量分数)4个添加比例(湿基)的堆肥处理,研究秸秆添加量对厨余垃圾堆肥过程中H2S和NH3排放的影响。结果表明:从温度来看,仅T4处理未达到无害化和腐熟的要求。氧气不足是造成H2S排放的主要原因,4个堆肥处理的H2S主要集中在前2周排放,随着秸秆添加量的增加,H2S的排放量逐渐降低。与T1处理相比,T2、T3、T4的H2S累积排放量分别降低了35.5%、44.7%、64.2%。各处理NH3的排放趋势与H2S类似,高温期为NH3释放的关键时期,NH3累积释放量占总释放量的62.2%~72.2%,与T1处理相比,T2、T3和T4的NH3累积排放量分别降低了36.9%、45.2%、76.3%。由此可见,添加适量的玉米秸秆不但能促进厨余垃圾堆肥的进行,明显降低堆肥过程中H2S和NH3的排放,而且可以实现玉米秸秆的资源化利用。     

Phosphorus recovery from biogas fermentation liquid by Ca–Mg loaded biochar

Shortage in phosphorus (P) resources and P wastewater pollution is considered as a serious problem worldwide. The application of modified biochar for P recovery from wastewater and reuse of recovered P as agricultural fertilizer is a preferred process. This work aims to develop a calcium and magnesium loaded biochar (Ca–Mg/biochar) application for P recovery from biogas fermentation liquid. The physico-chemical characterization, adsorption efficiency, adsorption selectivity, and postsorption availability of Ca-Mg/biochar were investigated. The synthesized Ca–Mg/biochar was rich in organic functional groups and in CaO and MgO nanoparticles. With the increase in synthesis temperature, the yield decreased, C content increased, H content decreased, N content remained the same basically, and BET surface area increased. The P adsorption of Ca–Mg/biochar could be accelerated by nano-CaO and nano-MgO particles and reached equilibrium after 360 min. The process was endothermic, spontaneous, and showed an increase in the disorder of the solid–liquid interface. Moreover, it could be fitted by the Freundlich model. The maximum P adsorption amounts were 294.22, 315.33, and 326.63 mg/g. The P adsorption selectivity of Ca–Mg/biochar could not be significantly influenced by the typical pH level of biogas fermentation liquid. The nano-CaO and nano-MgO particles of Ca–Mg/biochar could reduce the negative interaction effects of coexisting ions. The P releasing amounts of postsorption Ca–Mg/biochar were in the order of Ca–Mg/B600 > Ca–Mg/B450 > Ca–Mg/B300. Results revealed that postsorption Ca–Mg/biochar can continually release P and is more suitable for an acid environment.     

水稻秸秆经漆酶预处理后产沼气研究

利用秸秆产沼气是秸秆无害化处理解决环境污染问题的可行手段.本研究针对秸秆特殊结构而导致产沼气少、启动慢、利用率低等问题,采用自培养漆酶预处理水稻秸秆,提高了秸秆产气率及利用率.通过研究发现,当漆酶添加量为40 mL、发酵温度为35℃、预处理7d的条件下,秸秆的产气量最高;同时发现,金属离子的添加对沼气产量有很大影响,其中Cu2添加后产气量提高最多.另外,研究发现预处理天数为24 d的秸秆木质素纤维素降解率最高.     

农作物秸秆综合利用的研究进展综述

通过对农作物秸秆的研究现状、处理方法及综合应用情况进行综述,归纳出了目前农作物秸秆综合利用领域、主要处理方法及需要突破的关键技术.明确了突破农作物秸秆外表面物质结构实现完全降解和完成内部纤维素、半纤维素等高分子化合物降解转化是综合利用农作物秸秆研究的重点和难点.同时指出了解决农作物秸秆综合利用的技术层面、法律层面和人文认知理念等方面的发展趋势,为高效利用农作物秸秆及开展关键技术攻关提供参考.     

秸秆沼气综合利用项目运营期的环境影响评价研究

根据环境影响评价的方法和导则,分析了秸秆沼气综合利用项目运营期对环境产生的不良影响,预测和评价了运营期的大气、废水和噪声污染.结果表明,运营期排放的废水可以满足《城镇污水处理厂污染物排放标准》(GB 18918-2002)一级A标准;烟(粉)尘、SO2是大气污染物的主要成分,项目高噪设备在厂界四周的噪声叠加值满足噪声排放标准.同时提出了相应的环保措施,总结了此类项目环境影响评价的特点.