高、中频混响声场噪声治理技术的研究及应用

我国目前纺织厂织造车间的噪声级均较高。应用吸声降噪原理 ,通过模拟、中试和二项试点三步的实践证明 ,采用在厂房建筑上架设大面积“强吸声吊顶”技术的方法 ,能使织造车间的噪声降低 4～ 6dB(A) ,收到较好的降噪效果。     

电子束氨法烟气脱硫技术工艺研究

介绍了位于四川省绵阳市科学城热电厂的电子束氨法烟气脱硫脱硝工业试验装置和在该装置上进行的较全面的工艺研究 ,确定了影响SO2 脱除效率的主要参数 ,为北京京丰热电EA FGD工业示范工程设计提供了重要依据     

油污土壤中微生物数量变化与原油降解速率关系的实验研究

微生物法治理油污土壤具有成本低、效果好的特点 ,其原理是微生物利用油烃作为碳源合成自身物质 ,进行生长繁殖 ,从而使油烃的含量得到减少。而与此同时 ,微生物的数量也会发生相应的变化。目前油污土壤微生物的研究主要局限于对污染土壤中分离提纯的单一菌种的降解效能的研究。本文对土著油污土壤微生物在适宜条件下的数量和种类变化进行了实验分析 ,并对油烃的化学组成作了初步探讨。分离出 4株对石油具有耐受性和降解能力的微生物。结果表明 ,在 4株微生物数量都增加的时候 ,石油烃的降解速度最快。     

海上溢油下潜过程特征的实验考察

海上溢油行为的研究是预测其归宿、控制其危害的关键所在。由于目前对溢油下潜于水时所受多因素影响、经历多个子过程的综合效应不清,文章用挡板烧瓶模拟波浪,考察其行为特征。结果表明:波浪类型对下潜率影响最大,破碎波和规则波下油的下潜率差异可达79.8%;上浮过程的影响可使得下潜率随时间出现最大值,随分散剂含量的增加有最大值。对比静置中下潜率的变化规律,可认为波浪通过夹带和破碎作用使油下潜,分散剂则增加了下潜稳定性。实验结果可对海面溢油下潜过程的预测提供理论依据和实验数据。     

Performance of the emerging biochar on the stabilization of potentially toxic metals in smelter- and mining-contaminated soils

Environmental Science and Pollution Research - Soil potentially toxic metals (PTMs) pollution caused by anthropogenic activities has become serious concern with respect to the crop safety...     

Comparative effects on arsenic uptake between iron (hydro)oxides on root surface and rhizosphere of rice in an alkaline paddy soil

The iron (Fe) (hydro)oxides deposited around rice roots play an important role in arsenic (As) sequestration in paddy soils, but there is no systematic study on the relative importance of Fe (hydro)oxides on root surface and in rhizosphere soil in limiting As bioavailability. Twenty-seven rice genotypes were selected to investigate effects of Fe (hydro)oxides on As uptake by rice in an alkaline paddy soil. Results indicated that the As content was positively correlated with the Fe content on root surface, and most of As (88–97%) was sequestered by poorly crystalline and crystalline Fe (hydro)oxides in the alkaline paddy soil. The As sequestration by Fe (hydro)oxides on root surface (IAS_root 16.8–25.0 mg As/(g Fe)) was much higher than that in rhizosphere (IAS_rhizo 1.4–2.0 mg As/(g Fe)); therefore, in terms of As immobilization, the Fe (hydro)oxides on root surface were more important than that in rhizosphere. However, the As content in brown rice did not have significant correlation with the As content on root surface but was significantly correlated (R²?=?0.43, P?<?0.05) with the partition ratio (PR_As?=?IAS_root/IAS_rhizo) of As sequestration on root surface and in rhizosphere, which suggested that Fe (hydro)oxides on root surface did not play the controlling role in lowering As uptake, and the partition ratio PR_As would be a better indicator to evaluate effects of Fe (hydro)oxides around roots on As uptake by rice.

     

环境保护工程中建立数据仓库的意义探索

本文首先介绍了数据仓库的应用特点,如面向主题、集成化、数据不可更新、数据随时间的变化而变化等,然后明确提出了环境保护工程中建立数据仓库的意义,主要包括有利于强化环境保护信息化建设、有利于顺应环境保护新形势发展需求、有利于实现环保保护科学决策等,最后重点总结了环境保护工程中建立数据仓库的具体应用,主要体现在环境信息数据仓库的钻取查询、环境信息数据仓库评价和预测处理、互联网信息平台技术联机管理系统等,实现数据仓库的顺利构建,将其应用价值充分发挥出来,进而给予环境保护工程强有力的实施保证。     

Co-application of energy uncoupling and ultrafiltration in sludge treatment: Evaluations of sludge reduction,supernatant recovery and membrane fouling control

• Effects of metabolic uncouplers addition on sludge reduction were carried out. • TCS addition effectively inhibited ATP synthesis and reduced sludge yield. • The effluent quality such as TOC and ammonia deteriorated but not significantly. • Suitable dosage retarded biofouling during sludge water recovery by UF membrane. Energy uncoupling is often used for sludge reduction because it is easy to operate and does not require a significant amount of extra equipments (i.e. no additional tank required). However, over time the supernatant extracted using this method can deteriorate, ultimately requiring further treatment. The purpose of this study was to determine the effect of using a low-pressure ultrafiltration membrane process for sludge water recovery after the sludge had undergone an energy uncoupling treatment (using 3,3′,4′,5-tetrachlorosalicylanilide (TCS)). Energy uncoupling was found to break apart sludge floc by reducing extracellular polymeric substances (EPS) and adenosine triphosphate (ATP) content. Analysis of supernatant indicated that when energy uncoupling and membrane filtration were co-applied and the TCS dosage was below 30 mg/L, there was no significant deterioration in organic component removal. However, ammonia and phosphate concentrations were found to increase as the concentration of TCS added increased. Additionally, due to low sludge concentrations and EPS contents, addition of 30–60 mg/L TCS during sludge reduction increased the permeate flux (two times higher than the control) and decreased the hydraulic reversible and cake layer resistances. In contrast, high dosage of TCS aggravated membrane fouling by forming compact fouling layers. In general, this study found that the co-application of energy uncoupling and membrane filtration processes represents an effective alternative method for simultaneous sludge reduction and sludge supernatant recovery.     

Dechlorane plus (DP) in indoor and outdoor air of an urban city in South China: Implications for sources and human inhalation exposure

Dechlorane Plus (DP) is a chemical of emerging concern due to the restrictions on brominated flame retardant formulations. However, very little information is known about the occurrence of DP in indoor and outdoor air and its associated health risk to the exposed human population. In this study, we examined the concentrations and isomer profiles of DP in archived air samples collected from 14 homes, 6 offices, and 10 public microenvironments in Guangzhou, China in 2004–2005. The average (median) value of atmospheric ΣDP (sum of anti-DP and syn-DP) concentration in the three indoor air was 5.73 ± 5.33 (3.62) for offices, 8.08 ± 5.17 (6.87) for homes, and 57.27 ± 83.08 (32.58) pg/m³ for public microenvironments, respectively. ΣDP concentration was significantly higher in the public microenvironments than those in homes and offices. The arithmetic mean and median concentrations of ΣDP in outdoor air were 36.00 and 28.76 pg/m³, respectively. Spatially and temporally consistent indoor and outdoor samples comparison suggested that outdoor air might be a relevant source of DP for indoor air. Average anti-DP fractional abundance (f_anti = 0.65 ± 0.04) in all outdoor samples was similar to those reported in other studies and indistinguishable from that of the commercial mixture (f_anti = 0.65). In contrast, a relatively large variation of f_anti values was found in the indoor samples, suggesting a complex degradation process of DP existing in these microenvironments. The calculated average daily doses of ΣDP were in the range of 0.38–2.21 ng/day for people intake through air inhalation, which was in the same order of magnitude compared with other exposure pathways for the general publics.     

CeO_2/三维石墨烯催化臭氧氧化降解刚果红

采用原位氧化还原法制备了三维石墨烯负载型CeO_2催化剂(CeO_2/3D GN),采用XRD、FTIR、SEM、比表面积和零电荷点测定等方法对其进行了表征,并考察了CeO_2/3D GN非均相催化臭氧氧化降解水中刚果红染料的影响因素。表征结果显示:CeO_2/3D GN具有相互连通的三维网络结构;CeO_2纳米颗粒均匀地分散在石墨烯片层中;比表面积为190.89 m~2/g;零电荷点pH_(zpc)为7.36。实验结果表明:CeO_2/3D GN非均相催化臭氧氧化体系比单独臭氧氧化体系对刚果红溶液的脱色率提高了60.56百分点;连续5次重复利用CeO_2/3D GN,刚果红溶液脱色率为96.50%~98.00%;在臭氧流量为20 mg/min、催化剂投加量为1.5 g/L、初始溶液pH为7.00的最佳工艺条件下反应15 min,刚果红溶液脱色率可高达94.65%。