天津市城市污水治理规划与技术经济政策

本文依据国家‘六·五”科技攻关项目“天津市城市生态系统与污染综合防治的研究”、“公元2000年天津市污水量预测和城市污水控制对策研究”及“天津市工业废水处理设施效益分析”撰写的。据此提出了天津市污水综合治理规划及天津市水污染综合防治的技术经济政策。     

论我国城市防治水污染技术政策

1985年我国颁发了国家科委蓝皮书第8号:中国技术政策-环境保护,1986年11月22日国务院环境保护委员会颁布《关于防治水污染技术政策的规定》.根据上述文件精神,结合我们对防治水污染技术政策的研究工作,本文试图对我国城市防治水污染技术政策的若干问题作综合阐述与分析,供大家参考.     

寒冷地区流域水污染防治问题

我国寒冷地区河流冰封期最长可达180天,其间水体自净功能差,加之城镇污水处理水平低于全国平均水平,工业点源污染负荷沉重,流域水污染问题显得格外突出,水环境压力巨大.因此,有针对性地解决寒冷地区流域水环境问题已经成为协调资源供求、经济发展与环境保护的核心问题.通过分析寒冷地区流域水污染特点及成因,提出了建立流域水污染防治...     

城市污水处理脱磷滤料的研究

生物法除磷投资省、成本低,但稳定性较差,当废水中磷酸盐浓度较高时,出水很难达标排放.化学法除磷工艺简单,运行可靠,能达标排放,但运行费用高,产生大量污泥,导致二次污染.文章进行了第三种除磷方法即滤料除磷的研究,并探讨了污水pH及水力停留时间对滤料除磷效果的影响.试验结果表明:煤渣和改性煤渣滤料对城市污水总磷的去除率可以达到54%和71%,但处理后的出水不能达标排放;碳酸钙滤料对城市污水总磷的去除率可以达到83%,能达标排放,但处理效果与城市污水pH值密切相关.城市污水pH值在8～9的范围,出水不能达标排放;pH值在5～8的范围,处理后的出水则可以达标排放,而且污水pH越低,总磷的去除率越高,其最佳水力停留时间为10 min.该方法具有处理效果好、处理成本低、无污染、投资省、占地面积小的特点.     

水质恶臭的评价及测定方法

我国水污染状况日益严重,而水质的恶臭问题逐渐成为关注的焦点,国内外关于水体恶臭测定尚无统一的评价方法和标准.通过对国内外水质恶臭评价方法的探讨和测定方法的对比分析,认为日本的三点比较式烧瓶法更适用于我国水质恶臭监测,建议在我国水污染控制指标中增加水质恶臭指标,并建立水质恶臭评价标准体系.     

精神病类药物在城市污水中的分布与净化

精神病类药物直接作用于中枢神经系统,破坏神经内分泌信号,其在环境中的积累将给生态系统和人类健康带来巨大的潜在风险,城市污水是其最重要的环境排放源.本文介绍了精神病类药物的分类、使用情况及生物毒性,总结了环境水样中精神病类药物分析检测方法,综述了世界各地城市污水中精神病类药物分布情况,比较了不同类型污水处理技术对精神病药物的去除效率,为促进我国城市污水中精神病类药物排放控制提供了基础资料和科学依据.     

水污染控制工程综合效益评估指标体系研究——以滆湖地区为例

提出了水污染控制工程综合效益评价指标体系建立的原则和方法,并根据水污染控制工程的目标,建立了水污染控制工程综合效益评价指标体系.在此基础上,根据滆湖地区农村特点、水环境状况、经济技术基础等条件确定了滆湖地区水污染控制工程综合效益评价指标的等级标准和权重.     

多目标优化方法在城市污水厂汇水区污染源总量控制规划中的应用

在城市污水处理厂汇水区实行污染源总量控制,应该避免与城市污水处理厂重复治理.针对这个问题,提出难降解有机物控制的多目标准则指标,建立了多目标优化模型.     

水环境污染源解析研究进展

流域河流水污染问题日益严重,水环境污染源解析的研究与应用对防治水污染具有重要意义.综合国内外水环境污染源解析研究与应用的进展,综述了应用于水环境不同类型污染物源解析的主要理论方法和应用模型;论述了多元统计模型和化学质量平衡法的优缺点、适用范围及应用现状;最后对源解析方法的发展趋势及在水环境中的应用加以展望,指出过去的研究主要是水环境中持久性污染物源解析方法,以后应加强对水环境中非持久性污染源解析的研究,在水环境源解析技术方面,应加强对各类污染源成分谱等基础性研究.     

每日最大污染负荷(TMDL)计划的借鉴意义与我国水污染总量控制管理流程

在系统调研相关文献的基础上,分析了美国每日最大污染负荷(total maximum daily loads,TMDL)计划的框架、特点和研究进展,对比美国的先进经验,对我国水污染总量的控制管理和研究现状进行了全面分析,认为污染总量削减考核指标单一、总量控制和减排目标的制定未考虑水环境容量、总量控制和减排未与水质改善挂钩以及管理与科研脱节等是我国目前水污染总量管控存在的主要问题。需加强水质模型、污染负荷与水环境容量计算方面的研究,建立相对客观且可操作性强的污染减排效果评估与考核方案。借鉴TMDL计划,提出了完善我国水污染总量管控技术流程与方案的建议。     

淮河流域水污染防治与生态经济思考

淮河流域水环境严重污染的形成,既有历史社会经济发展中忽视环境保护、欠帐过多的问题,也有水资源条件差、环境容量较小的问题。淮河流域水环境污染多种多样,既有工业点源,又有农业和农村面源,还有人口迅速膨胀及城镇迅速发展所带来的污染。淮河流域水环境污染是生态经济问题。因此,解决淮河流域水环境污染问题,仅仅做到治理工业污染源、建立城市污水处理厂,是远远不够的。要从根本上解决淮河流域水环境问题,则应当在１９９５ 年淮河流域对工业污染源和城市生活污水治理进行规划的基础上,就人口、资源、环境、社会、经济进行综合考虑,从生态经济角度进一步做好全面的水环境规划。在规划中尤其要突出可持续发展,并在实施可持续发展中解决污染问题,要在工业、农业中普遍实行清洁生产,要注意节约水资源和合理利用水资源,注意控制人口增长并提高人口素质,在农村城镇化水平迅速提高的同时做好城镇生活污水利用和处理。     

Multi-index integrated assessment and analysis of town-sewage treatment priorities in China

Water quality is one of the most serious problems of environment and national sustainable development strategy now facing China. After hard work over the last several decades, urban-sewage treatment in China is now relatively well developed. It now affords mainly higher levels of sewage collection and treatment, as well as pollution-load control. The characteristic rapid urbanization now occurring in China is still increasing and developing dramatically, and involves large numbers of people. However, in towns, sewage treatment infrastructure is inadequate, and a high percentage of the sewage generated there is not effectively collected and treated. The sewage and pollution load of such towns have become the most important reason for environmental water problems in China. To understand the priorities of sewage treatment in such towns, and their spatial distribution in China, we conducted two nationwide investigations of water use and sewage discharge in towns. Based on the integrated analytic hierarchy process (AHP), assessment indices and a framework of town-sewage treatment priorities in China were constructed. Then, we assessed and analyzed the priorities of towns regarding three aspects of sewage treatment: environmental stress, economic capability, and infrastructure. The results showed that the southeast coastal areas and north China had higher demand for sewage treatment than other areas. The demand in eastern and western areas had obvious differences in spatial distribution, but had nearly no differences within those areas. The towns having the greatest demand for high-priority sewage treatment were concentrated in regions with high economic capability and intense water resource utilization.     

System engineering for water pollution control at the watershed level in China

The present water pollution situation at watershed level in China has been systematically analyzed. The causes of water pollution are attributed to the extensive economic developmental pattern, poor wastewater treatment, and a lack of nonpoint pollution control. The problems of water pollution control at watershed level include a lack of thought and approach, developmental delay in the environmental standard system, an inadequate monitoring ability, and an inefficient implementation of laws and regulations. From 2006 to 2020, water pollution control and governance will be a national key specific project of science and technology in China. The strategies of this project include establishing a water pollution control system at watershed level, orienting a healthy aquatic ecosystem, conducting risk management, and using comprehensive methods. The goal is to establish and complete a technological system of pollution control and management in three five-year phases. The main tasks are to develop common technologies, management systems, and mechanisms for lake eutrophication control, river pollution control, urban water environmental pollution control, potable water safety, and water environmental management. The bottlenecks of water pollution control and management in China could be systematically removed, and the demonstration of the system engineering approach will be conducted at selected key watersheds.     

污灌与镉胁迫对菠菜几种抗氧化酶活性的影响（Effects of Sewage Irrigation and Cadmium Stresses on the Activities of Several Antioxidant Enzymes of Spinach）

为了探讨污水灌溉与镉胁迫对菠菜抗氧化酶活性的影响,采用盆栽试验的方法,分别用清水和生活污水配制不同浓度(0、1、5、10、50mg·L-1)的Cd2+溶液,对菠菜进行受试处理,每5d灌喷1次,共处理5次.分别采用邻苯二酚比色法、L-苯丙氨酸比色法、水杨酸比色法和高锰酸钾滴定法,对菠菜叶片多酚氧化酶(PPO)、苯丙氨酸解氨酶(PAL)、β-1,3葡聚糖酶(β-1,3glucanase)和过氧化氢酶(CAT)活性进行了测定.结果表明:1)清水处理系列:随着镉处理浓度的增大,与清水对照相比,PPO、PAL活性呈先升高后降低的趋势,CAT活性略有升高,β-1,3葡聚糖酶活性略有降低,各暴露组与清水对照组相比,均呈现显著差异(p<0.05).2)污水处理系列:随着镉处理浓度的增大,与污水对照相比,PPO、PAL活性呈先升高后降低的趋势,CAT和β-1,3葡聚糖酶活性呈逐渐降低趋势;各暴露组与污水对照相比,均呈现显著差异(p<0.05).3)相同Cd2+浓度下,与清水处理相比,各浓度污水处理PAL和PPO活性均明显降低(p<0.05);而β-1,3葡聚糖酶明显升高(p<0.05).以上结果显示:单一镉污染和生活污水与镉复合污染对菠菜不同抗氧化系统酶具有不同影响,这可能与污水中各成分与镉的相互作用有关.     

工业酸洗废水全自动化学处理过程的控制

酸洗工艺过程产生的酸洗废水的直接排放,将会导致受纳水体的水质恶化,造成环境污染.经过入水→预沉淀→氧化(含中和、曝气、搅拌、混凝)→沉淀→出水等物理,化学处理之后,排出口的废水基本上能符合国家的工业废水排放标准,可以达标排放.整个化学和物理处理工艺流程全部采用香港中能电化学设备公司自行研制的先进设备进行自动化控制;所需的关键控制仪器如ORP值测定仪、pH值测定仪和耐酸碱处理的泵等设备则全部采用西方先进国家进口.因此,一个污水处理厂只需要一个熟练的技术工人就完成了整个污水处理过程.     

我国城市垃圾渗滤液量预测与污染防治对策

本文阐述了垃圾渗滤液对水体的污染，讨论并总结了填埋液特征－污染物浓度极高、持续时间长、流量小且极不均匀、水质变化大。对我国城市垃圾波渗液量的预测说明我国每年产生的垃圾渗滤液污染物的量相当于几座百万人口城市每年排放的生活污水。根据垃圾渗滤液特征以及我国目前情况提出了其污染防治对策。     

Wassertechnische Strategien zur Reduzierung der Trinkwasserbelastung durch Arzneimittelwirkstoffe

Results The available research results concerning the application of innovative methods of wastewater and drinking water purification to eliminate pharmaceuticals are summarized in the present paper. An increase of the activated sludge (aerobic sludge) age to 8–10 days in treatment plants can improve the metabolization of less persistent pharmaceutical agents whereas expansion of the sojourn time beyond 10 days will not result in a remarked increase of degradation for most pharmaceutical substances. First results have shown that wastewater treatment plants with integrated membrane bioreactors (MBR) using micro- and ultrafiltration membranes do not provide significantly better results compared to the conventional wastewater treatment plants with respect to the removal of organic micropollutants (including pharmaceutical residues). The use of powdered carbon in biologically treated wastewater is able to reduce pharmaceutical residues up to 80?% in the run-off water. Pilot studies scrutinize the treatment of highly contaminated effluents via catalytic photooxidation. Regarding the suitability of the method to reduce the contamination of drinking and wastewater with pharmaceuticals yet only few data from laboratory scale testing are available. Activated carbon filtration is preferably used for drinking water treatment. Primarily against the background of disinfection, ozonation is widely used for drinking water treatment, but for wastewater treatment the method is still at the experimental stage and will hardly become of practical importance because of high costs. Sustainable wastewater separation is grounded on decentralized concepts by considering material cycles (recycling) at the place of origin. In the long term, separation measures can significantly contribute to declining drug concentrations in drinking water. Regarding the quarrying of drinking water by bank filtration water, river water or artificially enriched ground water, end-of-pipe techniques are vital. Most commonly, activated carbon or activated carbon combined with ozonization is applied and assures a high drinking water quality. Discussion The advantages and disadvantages of the different water treatment methods mainly concern the varying degrees of effectiveness with respect to the elimination of very persistent pharmaceutical agents, the generation of problematical metabolites and additional waste materials, hygienic problems, energy needs and the necessity to employ appropriate technical staff for operation. Although the biodegradation of very persistent drugs cannot be enhanced by an extension of the activated sludge age, this modification should be considered in sewage plants to reduce the contamination with less persistent medical agents. Compared with conventional wastewater treatment, membrane bioreactors provide the advantage of a better control of biological activities on the plant and a comparably small plant size but high investment and operation costs. Additionally, pharmaceuticals such as carbamazepin are only insufficiently removed from wastewater by membrane bioreactors. The regular use of powdered activated carbon in sewage treatment plants would also increase the costs of wastewater treatment and would additionally exclude the further use of sewage sludge in agriculture. Currently, in Germany the further use of sewage sludge is handled differently by the Federal States and discussed controversially. The implementation of ozonation as an additional treatment method in wastewater treatment plants is not realistic because of cost concerns. Additionally, the method produces analytically as yet not assessed metabolites with unknown (eco-)toxicological impacts. For this reason ozonation should currently not be applied unless the reaction products are removed subsequently by filtration through activated carbon. For industrial sewage photooxidation is in a state of testing but an application for municipal wastewater is, up to now, out of question. When river bank filtration is used for the supply of drinking water the use of activated carbon for purification should be essential. The lifetime of the filters is often defined by the filter capacities to eliminate radiocontrast media (e.?g., iopamidole, amidotrizoic acid). Many water supply companies already apply the ozonization prior to activated carbon filtration which supports the elimination of pharmaceuticals from the sewage. The unique developmental potential of the wastewater separation can be seen in the possibility to link up these methods with sustainable exploitation techniques and concepts (re-use of sanitized water, production of fertilizer, compost and biogas). Wastewater separation will not make ‘middle/end-of-pipe’ techniques dispensable but will make their handling more effective because concentrations of pharmaceutical agents are higher in separated effluents compared to those usually found in municipal wastewater, which in mixing sewage systems is even diluted by surface runoff. Conclusions Following today’s state of knowledge activated carbon filtration (eventually coupled with ozonization) is best suited to remove drug residues and other xenobiotics from raw water. Water works that do not apply the activated carbon filtration technique for cleanup of bank filtration water should consider an upgrade. The ozonization is primarily required for disinfection of the water. As no acute health hazard proceeds from drinking water contamination by pharmaceuticals at the present time, the upgrade of wastewater treatment plants by one of the aforementioned innovative methods is currently not required in view of drinking water quality. This offers the opportunity to develop sustainable approaches that already aim to reduce drug contaminations of wastewater and hence of ground-, surface- and drinking water. Recommendations and perspectives On a short- to mid-term perspective enriched sewage of hospitals, nursing homes and other medical facilities should be collected and treated separately. From a technical point of view the conditioning of separated hospital effluents (yellow- and greywater) via activated carbon or membrane filtration is possible but should be combined with disinfection. On a mid- and long-term scale sustainable sanitary concepts based on wastewater separation (black-, grey- and/or rainwater) associated with the recycling of mineral nutrients (nitrogen, phosphorous and potassium) should be realized for development, industry and trade areas, buildings with public lavatories, airports, motorway service areas, and large office and hotel buildings. Strategies focusing primarily on up-grading of municipal wastewater treatment plants are currently existing but the related technologies are largely in a test phase. This is why a particular technique should not be favored at the moment. The combination of various techniques (i.?e., ozonization combined with activated carbon filtration) is known to be very efficient for the removal of pharmaceutical residues from water, but the combination cannot be expected to become of importance in treatment of domestic wastewater because of high costs. Moreover, improvement of wastewater treatment technologies to remove pharmaceutical residues will not make the employment of end-of-pipe techniques in water works redundant and therefore will not lead to saving of expenses.     

Development and application of some renovated technologies for municipal wastewater treatment in China

China has been experiencing fast economic development in recent decades at the cost of serious environmental deterioration. Wastewater discharge, especially municipal wastewater discharge, and non-point pollution sources are becoming the major water pollution source and research focus. Great efforts have been made on water pollution control and a number of renovated technologies and processes for municipal wastewater treatment and reclamation as well as non-point pollution control have been developed and applied in China. This paper discusses the development and application of the appropriate technologies, including natural treatment systems, anaerobic biological treatment, biofilm reactors and wastewater reclamation technologies, for water pollution control in the country.     

1985年以来我国重大水体突发污染事件及在线生物监测的必要性分析

通过查阅和检索公开报道的期刊、报纸和网络,统计分析我国1985以来水体突发污染事件。1985—2015年间,我国水体突发污染事件年均发生数量总体变化呈现先动态增长后逐渐下降的趋势,其中2006年为水体突发性污染事件发生频次的转折点。导致水体突发性污染的主要原因包括企业违规排放、企业事故性泄漏、交通事故、自然因素和人为投毒等,污染方式多样。水体突发性污染的污染物种类包括化学品、污水(工业废水和生活污水)、油类、农药、重金属、生物污染物和其他不明污染物。鉴于水体突发性污染事件污染方式的多样性和污染物的复杂性,采用在线生物监测技术可实现对水体突发性污染事件在线监测与分析预警,已成为当前监测和评价水体突发污染事件有效手段。     

Water Quality and Pollution in the Hunchun Basin, China

Chemical properties and pollution of water resources were studied in the Hunchun basin, which is located in northeast China and borders directly North Korea and Russia along the Tumen river. Water quality was characterised according to its major constituents and geological features. Ground waters could generally be grouped into (Ca+Mg)-HCO₃ type and (Ca+Mg)-(SO₃+Cl) type in first and the second terrace areas, respectively. The mixing of these two types depends on the local conditions, such as pumping or permeability variations.Hunchun city is a pollution source for local water resources due to its uncontrolled sewage and urban discharge. In a previous study of the southwestern part of the Hunchun basin, groundwater contamination by Fe, Mn and NO₃-N was reported. In addition, this study identified Cd and F as prevailing contaminants in the water resources. Pollution of water resources by these contaminants appeared to be affected by the application of fertilisers, irrigation practice, variation of aquifer characteristics, solubility of mineral phases, and discharge of domestic sewage. Wide distribution and high levels of Cd and F in surface- and ground waters could pose significant problems if they are utilised as major water supply sources.