燃煤电厂脱硝还原剂选择原则及用量计算

面向燃煤烟气氮氧化物控制过程,详细阐述了燃煤电厂脱硝技术还原剂选择原则,对不同还原剂方案进行综合比较。根据SCR、SNCR和SCR／SNCR联合工艺三种不同工艺,重点对还原剂用量计算方法进行了综述,为工程技术人员提供参考。     

Socioeconomic Driving Factors of Nitrogen Load from Food Consumption and Preventive Measures

To diagnose environmental nitrogen (N) load from food consumption and to suggest preventive measures, this study identified relationships between nitrogen load from food consumption and driving factors by examining six representative countries and regions for the period 1970–2009 as an example. The logarithmic mean Divisia index technique was used to disassemble nitrogen load growth into four driving factors: population, economic activity, food intensity of the economy, and nitrogen content of food. In all study areas, increased economic activity was the main factor driving nitrogen load increase. The positive effect of population growth was relatively small but not negligible and changes in food intensity had a decreasing effect on nitrogen load. Changes in nitrogen content of food varied between areas. Broad strategies to reduce and mitigate nitrogen loading and decouple nitrogen load from economic growth in both developed and developing countries are suggested.     

Design parameters for solar light pipes in the Brazilian context

In Brazil, there are few studies investigating the performance and guidelines parameters of solar light pipes from the national perspective. This paper aims to analyse the performance of a solar light pipe prototype installed in a test house in the city of Curitiba/PR, Brazil and to indicate a set of parameters for the design of solar light pipes for the Brazilian social housing context. The performance of a solar light pipe provided with different lighting devices to control and redirect light was analysed. The best performance for diffusers was obtained during partially covered skies. Light redirection devices presented the best efficiency during clear sky conditions with direct sunlight, on working-planes closer to the prototype. The developed prototype with the lighting control devices produced a considerably enhanced lighting performance, complementing natural lighting in indoor environment. Based on the results, recommendations and guidelines to enhance solar light pipe configurations are proposed.     

工艺条件对鸟粪石法回收磷耗碱量的影响及其理论计算

通过分析磷回收过程中存在的各种耗碱因素,推导出耗碱量的理论计算公式,计算出了不同工艺条件下的理论耗碱量,并与小型连续搅拌反应-沉淀磷回收过程的实验实测值进行比较。结果表明,耗碱量的理论计算值与实验测定值的平均相对误差为13.20%,说明计算方法可用于耗碱量的工程估算;耗碱量随出水pH值的增大而急剧增加,随废水中氨氮含量和磷初始浓度的增加都近似于线性增加,但随镁磷比的增加基本不变。因此,从节约废水处理成本的角度看,磷回收过程中pH值应控制在9.2-9.3,氮磷比控制在3.0-5.0,镁磷比控制在1.1-1.2为佳。磷回收过程的药剂消耗量与废水中磷的浓度和工艺条件有关,以磷初始浓度为124 mg/L,N/Mg/P=5∶1.2∶1,出水pH值为9.20的回收过程为例,处理毎吨废水需消耗片碱0.5313 kg,成本约为1.328元,需消耗氯化镁（含六个结晶水）0.9758 kg,成本约为0.634元。因此,处理每吨废水的药剂成本约为1.962元,其中耗碱约占67.7%。     

吸附饱和活性炭的Fenton试剂再生

颗粒活性炭吸附有机废水中二异丙基苯等有机物后,采用Fenton试剂对活性炭进行氧化再生。研究H2O2与Fe2＋的摩尔配比及投加量、pH、温度、再生时间等因素对活性炭再生效果的影响。实验结果表明,Fenton体系中Fe2＋和H2O2的摩尔比为1：20,H2O2投加量为120mmol／L,pH为3,再生温度为25℃,再生时间为70min时,为最佳再生条件,再生率可达85．6％,且6次连续再生的平均效率仍能达到84．9％。Fenton试剂再生活性炭的方法表现出较高的经济和环境效益。     

铁炭微电解-Fenton试剂法预处理半焦废水

采用铁炭微电解／Fenton试剂法对半焦废水进行预处理,探索材料粒径、铁炭比、废水pH、H2O2用量以及反应时间对处理效果的影响。结果表明,在铁屑粒径为5～7mm,活性炭粒径为2～3mm,铁炭体积比为1：1,微电解反应90min,进水pH为8．0～9．0,H2O2投加量为4mL／L,Fenton试剂反应90min的条件下,半焦废水COD去除率可达55％以上,B／C由处理前的0．24提高到0．43,可生化性能良好,铁炭微电解／Fenton试剂法可作为半焦废水一种有效的预处理方式。     

物化-生化组合工艺处理提铜选矿药剂生产废水中试实验研究

采用“预处理(酸化沉降+铁炭微电解+石灰中和)-生化(水解酸化+两级好氧生化)-深度处理(Fenton试剂催化氧化+石灰中和)”组合工艺对提铜选矿药剂生产废水进行现场中试实验研究,主要考察其COD去除、脱色、除味效果,重点考察生化单元运行特性及其对有机物的去除能力.实验结果表明,该组合工艺对该生产废水具有较好的净化效果,出水清澈透明、无气味,主要出水水质指标pH、色度、COD可以达到《污水综合排放标准(GB8976-1996)》二级标准.     

Fenton氧化法同时脱硫脱硝的实验研究

应用Fenton液相氧化吸收法进行同时脱硫脱硝实验。首先,利用单因素实验,分别考察了H2O2浓度、Fe2+投加量、初始pH值、UV照射和温度对脱硫脱硝的影响。结果表明,SO2和NO去除率随着H2O2浓度和Fe2+投加量的增大而提高;初始pH对SO2和NO的去除有较大影响;UV能促进SO2和NO的净化;温度对脱硫效率影响不大,但对NO的去除有显著作用,适当升温可以提高脱硝效率。随后,考察了SO2对NO去除率的影响。通过单独脱硝和同时脱硫脱硝的对比实验发现,SO2的加入对NO的去除有一定的促进作用,Fenton法可同时获得起始约80%的脱硝效率和98%以上的脱硫效率。     

铁碳微电解-Fenton法预处理苯胺基乙腈生产废水

采用铁碳微电解-Fenton法对苯胺基乙腈生产废水进行预处理实验。通过静态实验确定铁碳微电解最佳条件为铁屑投加量300 g/L,Fe/C质量比为2∶3,反应75 min,不需要调节进水pH;Fenton反应最佳条件为铁碳微电解出水pH=4,30%H2O2投加量15 mL/L,在搅拌条件下反应60 min;然后沉淀反应时调节pH为9,混凝沉淀75 min。在上述条件下通过动态实验得到系统连续反应在48 h内废水的COD和苯胺去除率在50%和70%以上,可生化性BOD5/COD也保持在0.3以上,为后续生物处理创造了良好条件。     

天津市煤炭消费的行业结构和影响因素分析

分析了天津市煤炭消费的行业结构和影响因素,旨在为天津市削减煤炭消费总量提供参考依据。由于煤炭大部分用于生产二次能源,计算了天津市生产各行业消费的二次能源所需的煤炭量,将其与各行业的煤炭终端消费量综合考虑。结果显示,天津市煤炭消费的行业集中度较高,工业占大部分比例,其中又以钢铁、化工行业最突出,同时生活消费和第三产业的煤炭消费量也不容忽视。与全市煤炭消费总量灰色关联度最高的指标为城市建设用地数量和人均生活能源消费量。