汶川8.0级地震都江堰市天然气系统震害分析及救灾过程

四川都江堰市地处龙门山主山前边界大断裂上,在汶川8.0级地震烈度分布图中属于Ⅸ度区,是地震受灾最严重的城市之一。作为城市生命线的天然气供应链在本次地震中遭遇了一定的破坏。通过对都江堰市天然气系统的基本构成、震害情况以及应急救灾过程等的调查与整理,对都江堰燃气系统中门站、CNG加气站、中压配气管网及低压配气支管各组成部分在地震中的震害情况进行了分析,对震后的应急处置措施、供气恢复策略及灾后重建工作进行了综述,总结了汶川地震中都江堰天然气系统的应灾经验及救灾环节中的不足之处,并就如何提高燃气系统的抗震应灾能力提出建议。     

黑臭底泥土著微生物促生对磷的影响

土著微生物促生是一项低成本高效率的河湖黑臭底泥原位修复技术,然而向底泥中投加药剂可能会影响上覆水水质。为探讨该技术对水环境的不利影响,实验研究了城市湖泊黑臭底泥修复过程中上覆水中磷浓度和底泥中磷含量及形态的变化。结果表明,在投药深度为泥面以下15 cm,微生物营养剂（BE）和生物解毒剂（MT）的投加量分别低于60mL/m3和70 mL/m3的条件下,上覆水总磷（TP）浓度低于地表水环境质量Ⅲ类（湖库类）标准值。投加微生物促生剂（BE和MT）导致上覆水磷含量升高,并促进了上覆水中藻类的增长。复配投加硝酸钙能减少上覆水中磷含量及藻类生物量,从而抑制微生物促生剂对上覆水磷浓度的影响。另外,投加微生物促生剂及硝酸钙到底泥中后,底泥磷含量以及磷形态组成的变化均不明显。     

一株高效广谱染料脱色菌脱色条件的优化

以模拟酸性大红3R染料废水为对象,在单因素实验基础上,选取温度、初始染料浓度、酵母粉浓度三因素为影响因子,以染料脱色率为响应值,利用Box-Behnken设计及响应面分析法研究了各因素对一株广谱型染料脱色菌株Enterobacter cloacae strain M3脱色效果的影响及各因素间交互作用,建立了二次多项式回归方程的预测模型,确定了菌株脱色酸性大红3R废水的优化条件。结果表明：回归方程极显著,拟合性好。最优脱色条件为温度36℃,染料浓度121.12 mg/L,酵母粉浓度1.99%,在此条件下,染料脱色率可达99.21%。经实验验证,实际值与模型预测值拟合良好,偏差仅为0.79%。     

从三峡库区土地容量论移民外迁的必要性——以重庆市云阳县为例

三峡库区农村移民安置是三峡工程系统中的一项重要工程,它直接关系到三峡工程的成败。对于如何解决库区５０多万农村移民的安置出路,三峡工程移民安置可行性研究和库区众多的关于农村移民安置工作报告中早有定论。     

Effects of biochar addition on the anaerobic digestion of carbohydrate-rich,protein-rich,and lipid-rich substrates

ABSTRACT

Although biochar addition into the anaerobic digestion of food waste (FW) is an efficient means to enhance methane production, the effects of biochar on various FW components remain unclear. Laboratory batch experiments were conducted to investigate the impact of sewage sludge-derived biochar (SSB) supplementation on the anaerobic digestion (AD) of major FW components, including carbohydrate-rich, protein-rich, and lipid-rich substrates. The lag phase of AD with the carbohydrate-rich substrate was 48.6% shorter when SSB was added, and the cumulative methane yield was 4.74 times higher compared to AD without biochar. SSB supplementation also increased the rate of methane production from the lipid-rich substrate. However, the effect of SSB addition on AD of the protein-rich substrate was minor. Analysis of the microbial communities revealed that methanogen growth was enhanced during AD of the carbohydrate-rich and lipid-rich substrates, but not the protein-rich substrate, following SSB supplementation. Also, the most dominant methanogenic genus varied with the substrates. SSB addition promoted the growth of hydrolytic and fermentative bacteria, particularly phylum Bacteroidetes.

Implications: Biochar supplementation has been studied to overcome the shortcomings of anaerobic digestion (AD). However, the effects of biochar on different substrates remain unclear. This study compared carbohydrate-rich, protein-rich, and lipid-rich substrates in anaerobic digestion with sewage sludge-derived biochar (SSB). SSB supplementation improved methane generation from all but the protein-rich substrate. The study results imply that the effect of SSB addition on AD varied with the substrate due to the substrates underwent different degradation processes with different microbial communities.     

Cut-off net acid generation pH in predicting acid-forming potential in mine spoils

Acidification of mine wastes can lead to a series of environmental problems, such as acid drainage, heavy metal mobilization, and ecosystem degradation. Prediction of acid-forming potential is one of the key steps in management of sulfide-bearing mine wastes. In this paper, the acid-forming potential of 180 mine waste samples collected from 17 mine sites in China were studied using a net acid generation (NAG) method. The samples contained different contents of total sulfur (ranging from 0.6 to 200 g kg(-1)), pyritic sulfur (ranging from 0 to 100 g kg(-1)), and acid neutralization capacity (ANC, ranging from -41 to 274 kg H2SO4 t(-1)). Samples with high acid-forming potential are generally due to their high sulfur content or low acid neutralization capacity. After the samples were oxidized by H2O2, the amounts of acid generation and the final NAG pH were measured. Results indicated that the final NAG pH gave a well-defined demarcation between acid-forming and non-acid-forming materials. Samples with final NAG pH >or= 5 could be classified as non-acid-forming materials, while those with NAG pH 2.5, but < 5, had low risk of being acid-forming. The confirmation of cut-off NAG pH will be used as a rapid and cost-effective operational monitoring tool for the in-pit prediction of acid-forming potential of mine wastes and classification of waste types.     

活性污泥系统中微型动物与水质净化效果的相关分析

活性污泥系统中微型动物的种类、数量和变化情况与活性污泥状况和出水水质密切相关.在某大型炼油厂污水处理车间曝气池活性污泥系统中,通过微生物镜检监测出30多种微型动物.实验研究发现,固着型纤毛虫的种类最多,出现频率也较高.对微型动物密度与曝气池出水水质和污泥指标的相关性分析表明,小口钟虫可作为曝气池混合液DO浓度的指示生物,小口钟虫密度越大,DO浓度越高;小口钟虫、八钟虫和转轮虫可作为曝气池出水COD的指示生物,其数量增加是水质净化程度提高的标志.     

Use of scalp hair as indicator of human exposure to heavy metals in an electronic waste recycling area

Scalp hair samples were collected at an electronic waste (e-waste) recycling area and analyzed for trace elements and heavy metals. Elevated levels were found for Cu and Pb with geometric means (GMs) at 39.8 and 49.5 μg/g, and the levels of all elements were found in the rank order Pb > Cu ? Mn > Ba > Cr > Ni > Cd > As > V. Besides Cu and Pb, Cd (GM: 0.518 μg/g) was also found to be significantly higher compared to that in hair samples from control areas. Differences with age, gender, residence status and villages could be distinguished for most of the elements. The high levels of Cd, Cu and Pb were likely found to be originated from e-waste related activities, and specific sources were discussed. This study shows that human scalp hair could be a useful biomarker to assess the extent of heavy metal exposure to workers and residents in areas with intensive e-waste recycling activities.