SBR工艺污泥膨胀的纠正方法

在对国内外有关资料的研究基础上，介绍了几种应对SBR反应池内污泥膨胀的措施。着重叙述了氯化法和无机合成絮凝剂法的应用注意点及如何定量运用这两种方法，同时给出了相应的工程实例。     

二氧化氯处理油田回注水工艺

针对中原油田回注水中细菌易产生抗药性,难以控制的问题,提出了应用二氧化氯处理油田回注水工艺。经室内评价及现场试验,二氧化氯可杀死回注水中的细菌,控制微生物生长,同时该工艺可降低现有回注水污泥残渣产出量的50%,减少污泥对环境的污染,提高注水水质。     

含油污泥焦化处理实验研究

采用焦化方法对含油污泥进行处理。经过筛选选取活性白土作为焦化处理催化剂,分别研究了反应时间、反应温度、氮气吹扫量、加热速率等因素对处理效果的影响。4个影响因素对液相油品收率的影响顺序为:氮气吹扫量>反应温度>反应时间>加热速率;对反应转化率的影响顺序为:反应温度>反应时间>氮气吹扫量>加热速率。较为理想的反应参数:反应温度490℃;反应时间60min;氮气吹扫量90mL.min-1;加热速率4℃.min-1。在此反应条件下,含油污泥液相油品收率>80%,反应转化率>99.9%,经焦化处理后的废渣含油率<3‰,达到农用污泥排放标准,实现了达标排放和回收资源的目的。     

活性污泥生物相对污水处理运行的指导作用

污水处理系统处理效果的好坏都与污水处理系统中组成活性污泥的微生物种类、数量及其代谢活力有关,本文从活性污泥结构、微生物种类、数量及活性等方面分析了污泥生物相与运行状态的相互关系.说明了可通过对污水处理系统的生物相观察了解处理效果及运行状况,也可通过对污泥生物相观察发现处理系统环境的变化,及时调整运行环境,预防污水处理系统的运行中的异常情况发生.     

Zeolite synthesis from paper sludge ash with addition of diatomite

BACKGROUND: This study aimed to investigate the synthesis of zeolites from paper sludge ash (PSA) with added diatomite to remove both NH₄⁺ and PO₄^3? for water purification. The PSA had low Si and significant Ca contents. Four types of diatomite: white (T‐W) and brown (T‐B) from deposits of marine origin in Takanosu, and white (S‐W) and gray (S‐G) from lacustrine deposits in Shonai, were added to NaOH solution to increase the Si content and thereby synthesize zeolites with high cation exchange capacity (CEC). RESULTS: The order of the amounts of Si extracted from the diatomite to the alkali solution was S‐W > T‐W = T‐B > S‐G, which correlates with the amorphous SiO₂ content of diatomite. The original ash without addition of diatomite yielded hydroxysodalite with CEC of about 1.0 mmol g^?1. For all samples, the addition of diatomite to the solution yielded zeolite‐P with a higher CEC, but the addition of excess Si inhibited the synthesis of zeolite‐P, and the CEC of the product was low. A product with high CEC including zeolite‐P was obtained in a solution with around 500 mmol L^?1 of Si concentration, and had the ability to remove both NH₄⁺ and PO₄^3?. CONCLUSION: Diatomite has the potential for used as an additive for the synthesis of high CEC zeolite from PSA. The product with zeolite‐P exhibited relatively high CEC, capacity for NH₄⁺ uptake, and the ability to remove PO₄^3? by precipitation, which is preferable for water purification applications. Copyright © 2008 Society of Chemical Industry     

Optimal Control of Solar Sludge Dryers

Optimal control (OC) methodology is used to develop a control policy for a batch-operated solar sludge dryer with ventilation as the dominant control. Batch performance criteria and instantaneous optimization criteria are developed for two economic environments: quota limited and capital limited. The general formulation, as well as simplifications resulting from the multiplicative form of the evaporation (drying) rate model, are presented. The multiplicative form results in a single constant number, called here “control intensity,” which is used to guide the on-line control decisions. These decisions turn out to be independent of the dry solids content (DSC) of the sludge. Further simplification, by assuming a strictly constant weather, is used to demonstrate the general effects of the economic and physical (weather) environment on the solution.

The OC approach is used to address, via simulation under realistic weather conditions, several design, operation, and pricing problems. In particular, the following have been considered: sizing of the ventilation fans, determination of a fair fee for sludge disposal, finding the best final DSC, and evaluating the effect of the price of electricity. Regarding the particular location represented by the data, it has been shown that the installed capacity of the ventilation fans should be increased and that there seems to be sufficient economic incentive for solar drying.     

CAST的工作原理与设计计算

详细论述了循环式活性污泥法(CAST)的工作原理，对该工艺的设计计算作了探讨，提出了设计方法，并提供了有关计算公式和操作时间分配。     

Anaerobic digestion of alkaline black liquor using an up-flow anaerobic sludge blanket reactor

The anaerobic digestion of alkaline black liquor from a cereal straw pulping mill was studied in batch (serum bottles) and continuous systems (up-flow anaerobic sludge blanket reactor—UASB). The batch digestion studies confirmed that lignin and related compounds (LRC) in the alkaline black liquor were the main inhibitory substances and could not be decomposed by anaerobic bacteria. At organic loading rates of 5–10 kg COD m^?3 day^?1, the UASB reactor achieved 50–60% COD removal efficiencies. Gas production was 2–3 dm³ per dm³ of alkaline black liquor. Two different sludge types were examined in the reactor: granular and cluster-like sludges. Sludge in a cluster, which involved many small granules and flocs, tended to form larger aggregates and possessed good settling ability.     

水厂铝盐污泥为除磷填料的雨水径流污染控制技术

针对金泽水源地雨水径流磷污染控制需求,以及现有雨水处理技术中传统填料对溶解性磷的去除率有待进一步提高的问题,开发出以给水厂污泥为基材的除磷颗粒,并通过低浓度、短时间、少用量的盐酸浸泡改性强化了除磷效果。当使用改性除磷颗粒作为主体填料,构建雨水源头处理的生态滞留池或末端处理的滤池时,过滤装置具有表面水力负荷高、出水磷浓度低的优点。中试装置运行结果表明,当表面水力负荷为0.25 m^3/(m^2·h),进水磷浓度约为1 mg/L时,出水磷浓度仍可稳定低于0.2 mg/L,溶解性磷的去除率高于80%。     

燃煤电厂污泥掺烧技术及其研究进展

随着我国城市化进程的加快,城市生活污水量急剧增加。污泥作为污水处理后的附属产品,对环境影响极大,因此污泥的无害化、减量化、资源化处理迫在眉睫。燃煤电厂污泥掺烧是实现最大体积减少污泥的处置方法之一。发达国家和地区中,污泥掺烧工艺已逐渐成熟,在燃煤电厂的应用更为广泛。综述了污泥掺烧技术的现状,分析了燃煤电厂掺烧污泥造成的影响,并讨论了燃煤电厂污泥掺烧技术的未来发展方向。