三维与二维电解工艺处理丙烯腈废水的效果比较

采用三维电解工艺和二维电解工艺处理高浓度丙烯腈废水。实验结果表明:三维电解工艺对COD、TOC、TN和总凯氏氮(TKN)的去除率分别为45.32%、59.55%、61.42%和59.24%,二维电解工艺对COD、TOC、TN和TKN的去除率分别为32.65%、43.53%、46.04%和46.08%;三维电解工艺去除单位COD的能耗为2.72 kW·h/kg,二维电解工艺为1.52 kW·h/kg;三维电解工艺和二维电解工艺的出水BOD_5/COD分别由原水的0.14提高至0.38和0.29。三维电解工艺具有较高的去除率,但能耗也较高。在实际应用中可根据具体情况选择所采用的工艺。     

燃煤工业锅炉减排NO_x研究分析

通过对我国燃煤工业锅炉NOx排放、污染现状和国内外控制技术进行分析,提出燃煤工业锅炉NOx控制对策和措施,并提出低氮燃烧是降低NOx排放的最经济技术。     

油田含油污水高级氧化技术研究

以气浮—过滤预处理后的污水为处理对象,通过臭氧氧化与Fenton氧化两种方法处理油田含油污水。经实验验证:Fenton在pH为4,H2O2初始浓度为0.08mol/L,Fe2+与H2O2的摩尔比为1:10,H2O2与CODCr的质量比为1:1,反应时间为60min的条件下,去除率达54.3%(CODCr100mg/L),可达到GB8978-1996《污水综合排放标准》二级标准。     

石油炼化企业烟气脱硫技术研究进展

石油炼化企业由于烟气特点、排放特征和减排设施的差别,导致了各炼化企业所采用的烟气脱硫技术的差别较大,尚无成熟、有效、经济的烟气脱硫技术,各炼化企业需要采用的二氧化硫减排技术差别也较大,选用适合炼化企业烟气脱硫的可行工艺技术具有重要现实意义。综合分析了目前国内外已工业化应用的主要烟气脱硫工艺、原理、技术的优缺点以及石油炼化企业烟气脱硫技术的发展趋势,为石油炼化企业烟气脱硫技术研究提供了借鉴和参考依据,并对石油炼化企业未来烟气脱硫技术的研究和选用提出了建议。     

Excessive sulfur supply reduces cadmium accumulation in brown rice (Oryza sativa L.)

Human activities have resulted in cadmium (Cd) and sulfur (S) accumulation in paddy soils in parts of southern China. A combined soil-sand pot experiment was conducted to investigate the influence of excessive S supply on iron plaque formation and Cd accumulation in rice plants, using two Cd levels (0, 1.5 mg kg⁻¹) combined with three S concentrations (0, 60, 120 mg kg⁻¹). The results showed that excessive S supply significantly decreased Cd accumulation in brown rice due to the decrease of Cd availability and the increase of glutathione in rice leaves. But excessive S supply obviously increased Cd accumulation in roots due to the decrease of iron plaque formation on the root surface of rice. Therefore, excessive S supply may result in loss of rice yield, but it could effectively reduce Cd accumulation in brown rice exposed to Cd contaminated soils.     

Biohydrogen production from dairy manures with acidification pretreatment by anaerobic fermentation

Background, aim, and scope  

Hydrogen is a clean and efficient energy source and has been deemed as one of the most promising carriers of new energy for the future. From an engineering point of view, producing hydrogen by mixed cultures is generally preferred because of lower cost, ease of control, and the possible use of organic waste as feedstock. The biological hydrogen production has been intensively studied in recent decades. So far, most investigates of biohydrogen production are still confined to using pure carbohydrates and carbohydrate-rich wastewater. Nowadays, the large amounts of livestock manure, which come from cattle feedlots, poultry, and swine buildings, are causing a major environmental issue because it has become a primary source of odors, gases, dust, and groundwater contamination. The increasingly stringent requirements for pollution control on livestock manures are challenging the scientific community to develop new waste treatment strategies. Thus, there is a pressing need to develop nonpolluting and renewable energy source utilizing the organic waste (e.g., livestock manure). It is well known that anaerobic digestion had successfully been used for the disposal of manures to produce methane in the last two decades. Recently, an alternative strategy has been developed to convert livestock manures (e.g., dairy manures) to biohydrogen as a high value-added clean energy source instead of methane. However, little information is available on hydrogen production from dairy manure via the mixed anaerobic microbe. As far as we know, the hydrogen production is habitually accompanied with production of volatile fatty acids (VFAs), such as acetate, butyrate, and propionate, which are also an optimal feedstock for production of methane by anaerobic digestion. Provided that the biohydrogen production from dairy manure is further combined with the anaerobic digestion of the effluent from the producing hydrogen reactor that would be a one-stone two-bird paradigm, it not only produces a clean and readily usable biologic energy but also cleans up simultaneously the environment in a sustainable fashion.     

棘孢曲霉（Aspergillus aculeatus）对Pb^2＋和Cd^2＋的吸附特征

为了研究棘孢曲霉（Aspergillus aculeatus）对溶液中Pb^2＋和Cd^2＋吸附过程的特征,分别从动力学、热力学和吸附等温线三方面进行了实验,同时还研究了pH、温度、时间、重金属离子起始浓度和吸附剂用量对吸附过程的影响。等温吸附过程可以用Langmuir方程来描述。在实验设定条件下,棘孢曲霉对Pb^2＋和Cd^2＋最大吸附量分别为71．2mg／g和59．8mg／g;动力学实验数据很好的符合二级动力学方程,吸附达到平衡的时间为3h;热力学实验数据显示该吸附过程为自发的、吸热的过程。     

减灾民用产品开发的可行性研究——以地震安全图动态查询公共系统为例

以地震安全图实时制作与动态查询公共系统开发的必要性与可行性为例,阐述了社会对“自然灾害与安全信息民用产品”的需求,以及它对提高减灾实效、推动灾害与信息科学发展水平的作用。同时介绍了海口市地震安全图实时制作与动态查询公共系统的功能、制作方法和社会用户群体的分析。     

Tracking historical lead pollution in the coastal area adjacent to the Yangtze River Estuary using lead isotopic compositions

The rapid economic development in the Yangtze River Delta (YRD), China in the last three decades has had a significant impact on the environment of the East China Sea (ECS). Lead isotopic compositions of a ²¹⁰Pb dated sediment core collected from the coastal ECS adjacent to the Yangtze River Estuary were analyzed to track the Pb pollution in the region. The baseline Pb concentration in the coastal ECS sediments before the industrialization in China was 32 μg g⁻¹, and the corresponding ²⁰⁶Pb/²⁰⁷Pb ratio was 1.195. The high-resolution profiles of Pb flux and ²⁰⁶Pb/²⁰⁷Pb ratios had close relationships with the economic development and the history of the use of leaded gasoline in China, and they were clearly different from those of most European countries and United States.     

固定化海带生物吸附剂的制备及其吸附Ni~(2+)的动力学特性

以海藻酸钠、明胶和海带粉为原料制备了固定化海带生物吸附剂。固定化海带生物吸附剂对Ni2+的吸附过程可分为3个阶段:快速吸附阶段、缓慢吸附阶段和吸附平衡阶段。动力学过程可用Lagergren准二级反应动力学方程描述,限速步骤为化学吸附。随Ni2+初始质量浓度的增加,固定化海带生物吸附剂的Ni2+吸附量逐渐增大,Ni2+去除率逐渐降低。吸附过程符合Langmuir和Freundlich吸附等温方程,说明该吸附体系既有物理吸附又有化学吸附,从吸附状态看属于多层吸附,由Langmuir吸附等温方程得出固定化海带生物吸附剂对Ni2+的最大吸附量为39.43mg/g,说明固定化海带生物吸附剂对Ni2+有较好的吸附性能。