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391.
利用有机基质厌氧生物产氢的试验研究 总被引:7,自引:0,他引:7
对利用有机基质厌氧生物产氢过程进行了试验研究 ,结果表明 ,污泥种类、基质种类、基质浓度和起始 p H对厌氧产氢反应有显著影响。当校河底泥在以 2 0 g COD/L的果糖为基质 ,起始 p H为 6.5时 ,产氢效果最佳 ,停滞期仅为 5 h,产气速率高达5 0 .1m L/g VSS·h,且可持续 12 h,累积产气量高达 60 4.9m L/g VSS,其中氢气含量约为 5 0 %。半连续试验的结果表明 ,若及时更换和补充基质 ,适当调节 p H,就可实现持续产氢 ,在 16h内平均产气速率可达 60 .0 m L /g VSS· h,氢气含量约为 45 %。 相似文献
392.
高温下氧化焙烧细磨后的砷华生产废渣,利用软锰矿浆吸收产生的SO2气体,吸收液经净化除杂、浓缩结晶等工序可制备工业产品硫酸锰。适宜的焙烧条件如下:焙烧温度为650℃,焙烧时间为60min,废渣粒度为-97μm。选择合适的吸收工艺,Mn的浸出率可达96.20%,此时SO2脱除率为87.20%。 相似文献
393.
Stable hydrogen isotopes of two chlorinated solvents, trichloroethylene (TCE) and 1,1,1-trichloroethane (TCA), provided by five different manufacturers, were determined and compared to their carbon and chlorine isotopic signatures. The isotope ratio for delta2H of different TCEs ranged between +466.9 per thousand and +681.9 per thousand, for delta13C between -31.57 per thousand and -27.37 per thousand, and for delta37Cl between -3.19 per thousand and +3.90 per thousand. In the case of the TCAs, the isotope ratio for delta2H ranged between -23.1 per thousand and +15.1 per thousand, for delta13C between -27.39 per thousand and -25.84 per thousand, and for delta37Cl between -3.54 per thousand and +1.39 per thousand. As well, a column experiment was carried out to dechlorinate tetrachloroethylene (PCE) to TCE using iron. The dechlorination products have completely different hydrogen isotope ratios than the manufactured TCEs. Compared to the positive values of delta2H in manufactured TCEs (between +466.9 per thousand and +681.9 per thousand), the dechlorinated products had a very depleted delta2H (less than -300 per thousand). This finding has strong implications for distinguishing dechlorination products (PCE to TCE) from manufactured TCE. In addition, the results of this study show the potential of combining 2H/1H analyses with 13C/12C and 37Cl/35Cl for isotopic fingerprinting applications in organic contaminant hydrogeology. 相似文献
394.
Steinhäuser KG Richter S Greiner P Penning J Angrick M 《Environmental science and pollution research international》2004,11(5):284-290
BACKGROUND, AIM AND SCOPE: With respect to the enormous increase of chemical production in the last decades and the tens of thousands of individual chemicals on the market, the permanent improvement of chemical management is a permanent target to achieve the goals of sustainable consumption and production set by the WSSD in Johannesburg 2002. MAIN FEATURES: Several approaches exist to describe sustainability of chemistry. However, commonly agreed criteria are still missing. There is no doubt that products of modern chemistry help to achieve important goals of sustainability and that significant improvements have occurred regarding direct releases from production sites, but several facts demonstrate that chemistry is far from being sustainable. Still too many chemicals exhibit hazardous characteristics and pose a risk to health and environment. Too many resources are needed to produce chemicals and finished products. RESULTS AND CONCLUSION: Therefore, a strategy for sustainability of chemistry should be developed which comprises the following main elements: 1. Sustainable chemicals: sustainable chemical management includes a regulatory framework which makes no difference between new and existing chemicals, contains efficient information flow through the supply chain which allows users to handle chemicals safely and offers an authorisation procedure and/or an efficient restriction procedure for substances of high concern. This regulatory scheme should promote the development of inherently safe chemicals. 2. Sustainable chemical production: Sustainable chemical production needs the development and implementation of emerging alternative techniques like selective catalysis, biotechnology in order to release less CO2 and less toxic by-products, to save energy and to achieve higher yields. Information exchange on best available techniques (BAT) and best environmental practices (BEP) may help to promote changes towards more sustainability. 3. Sustainable products: An integrated product policy which provides a framework for sustainable products promotes the development of products with a long-term use phase, low resource demand in production and use, low emission of hazardous substances and properties suitable for reuse and recycling. This may be promoted by eco-labelling, chemical leasing concepts and extended information measures to enhance the demand of consumers and various actors in the supply chain for sustainable products. RECOMMENDATION AND PERSPECTIVE: Important tools for the promotion of sustainable chemistry are the abolition of barriers for innovation in legislation and within the chemical industry, more transparency for all users of chemical products, a new focus on sustainability in education and research, and a new way of thinking in terms of sustainability. 相似文献
395.
为探究纳米乳化油原位修复硝酸盐污染地下水过程中产气对含水介质渗透性的影响,以硝酸盐为目标污染物,采用活性污泥滤液接种,分别以纳米乳化油、吐温80和司盘80为碳源开展硝酸盐降解批实验研究,探讨和评估硝酸盐降解及降解过程中的产气情况.结果显示,纳米乳化油、吐温80和司盘80均能促进硝氮的降解,在实验的100d内,共完成7个周期硝酸盐氮的有效去除,总去除率分别为79.5%、63.8%和68.8%.在硝酸盐氮降解过程中,受厌氧发酵和反硝化作用的影响,各反应体系中均有气体生成,只有活性污泥反应体系中主要产气成分是CO2,未加碳源和分别加3种碳源的4个反应体系(都添加活性污泥和硝酸盐)中主要产气成分是CO2、N2.其中,添加纳米乳化油的反应体系U型管产气量最大,为47.73mL;受碳源厌氧发酵的影响,添加司盘80反应体系总产气量最大,为205.34mL.纳米乳化油反应体系次之,吐温80反应体系最小.根据三氮的变化,结合纳米乳化油反应体系理论与实际产气对比显示,在纳米乳化油强化硝酸盐反硝化过程中,18.8%纳米乳化油厌氧发酵产生CO2,95.4%硝氮反硝化生成N2. 相似文献
396.
Fe2+浓度对生物产氢动力学的影响 总被引:2,自引:1,他引:1
研究了Fe2+在0~1 500 mg/L 范围内对混合细菌发酵产氢动力学的影响.结果表明,以葡萄糖为底物,在35℃ 和初始pH为7.0时,当Fe2+浓度为0~300 mg/L 时,混合细菌发酵葡萄糖的最大累积产氢量和平均产氢速率都随着Fe2+浓度的增加而增加;当Fe2+浓度为300 mg/L 时,最大累积产氢量和平均产氢速率最高,分别为302.3 mL和30.0 mL/h .当Fe2+浓度为0~350 mg/L 时,比产氢率随着Fe2+浓度的增加而增加,当Fe2+浓度为350 mg/L 时,最大比产氢率为311.2 mL/g .修正的Logistic模型能很好地描述累积产氢量随时间的变化规律.修正的Han-Levenspiel模型能很好地描述Fe2+浓度对平均产氢速率的影响. 相似文献
397.
以低碳经济提出的大环境为背景,阐述了低碳经济的内涵与发展,重点分析了清洁生产在低碳经济中的不可替代的作用和地位,并以丹东某硼化工企业为成功案例,论述了企业在实际生产过程中运用清洁生产理念发展低碳经济的经验,旨在为企业发展低碳经济提供思路与借鉴。 相似文献
398.
分析了4种典型的生活垃圾填埋处理甲烷产气量模型:IPCC模型、化学计量式模型、COD模型和生物降解理论模型;利用这4种模型估算沈阳市生活垃圾的甲烷产气总量,对计算结果的差异进行比较讨论;分析了4种模型的优缺点及其不同的适用性;根据沈阳市城市生活垃圾的特点,建议采用生物降解理论模型来估算沈阳市垃圾填埋甲烷产气量。 相似文献
399.
介绍了丰田汽车公司(TOYOTA)企业循环经济实施方案及历程,对丰田汽车公司"5R"行动、工业废弃物零排放行动及当前措施等循环经济计划在企业生产中的应用进行阐述,并将其成功经验和技术运用到丰田汽车公司在津投资企业中,使循环经济理念在国内汽车制造业中得以体现并加以运用。 相似文献
400.