共查询到19条相似文献,搜索用时 109 毫秒
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对O3/H2O2氧化页岩气产出水降解有机物动力学、特征污染物苯胺降解动力学及机理进行实验分析,研究结果表明:页岩气产出水有机物、苯胺降解符合一级反应动力学;臭氧分子的分解符合零级反应动力学。通过液相色谱-质谱(LC-MS)分析O3/H2O2氧化苯胺降解过程中间产物,发现O3/H2O2氧化法不能完全 将页岩气产出水矿化为二氧化碳和水,只是将复杂有机物分子转化为结构简单的直链烷烃或者羧酸类物质,需与其他氧化方式相结合才可将有机物完全去除,并提出了降解返排液中苯胺的两条可能途径,为O3/H2O2氧化工艺实际应用提供理论依据。 相似文献
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DNT废水因其成分复杂、毒性大、难降解、对环境污染严重等特点,成为废水处理中的一个难题。本试验研究了难以生物降解DNT生产废水Fenton氧化处理效果,考查了各影响因子最佳工艺条件。结果表明,在pH值为2;FeSO4.7H2O投加量为200mg/L;H2O2投加量为2mL/L;反应时间为1h的条件下,Fenton氧化工艺COD去除率为47.76%,DNT去除率为87.37%左右。 相似文献
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UV/O3复合降解水中2,4-二氯酚的试验研究 总被引:2,自引:1,他引:2
以紫外光源为主要依托,变换反应器中的不同工艺条件,分别对紫外光、臭氧和紫外/臭氧三种不同于工艺条件对水中污染物2,4-二氯酚(2 ,4-DCP)的降解规律进行研究.结果表明,UV/O3复合对2,4-DCP的降解较UV、O3单独作用效果好;溶液的酸碱度影响UV/O3对2 ,4-DCP的降解;此外,溶液中含有细菌时,E. coli的杀灭效果仍表现为UV/O3>O3>UV.细菌的杀灭和2,4-DCP的降解均消耗羟基自由基,形成竞争反应,从而影响到2,4-DCP的降解效果. 相似文献
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超声内电解处理高浓度含盐有机废水的实验研究 总被引:1,自引:0,他引:1
分别研究了铁碳内电解、超声波辐照以及不同组合方式对高盐度泡菜废水的处理,重点研究了铁碳比、铁碳加入量、溶液pH值、处理时间、超声功率密度等因素对高含盐量泡菜废水降解率的影响。实验表明,铁碳加入对内电解处理效果影响显著,超声波处理该废水的最佳pH值为7;超声内电解处理的最佳条件为:铁碳比2∶1,铁碳加入体积为溶液体积的25%,溶液初始pH值为7,超声功率密度为0.225w/cm3,曝气处理90min。处理后出水COD去除率大于50%,达到了对该类高浓度含盐废水的预处理效果,降低了后续生化系统的处理负荷。 相似文献
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UV/H2O2联用工艺相对单独UV工艺和单独H2O2工艺对羧酸的降解率更高,主要是由于UV激发H2O2产生了氧化性更强的羟基自由基。通过在不同H2O2浓度下UV/H2O2联用工艺对甲酸、草酸、水杨酸三种小分子羧酸的降解实验发现,不同种类的羧酸存在一个最适H2O2浓度。低于最适浓度,H2O2浓度每增加一定值,羧酸的最大降解率增加量随之增加;高于最适浓度,最大降解率增加量随之减少。UV/H2O2工艺对小分子羧酸的降解率与羧酸分子的结构和相对分子质量有关,结构越复杂,相对分子质量越高,小分子羧酸的降解率越低。 相似文献
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In many freshwater ecosystems, the contents of NO3- and SO4(2-) have increased, whereas O2 has been depleted due to the increased acid and nutrient loads. These changes may affect carbon turnover and the dynamics of the major greenhouse gases CO2, CH4, and N2O. We studied the effects of O2, NO3-, and SO4(2-) availability on carbon mineralization, and fluxes of CO2, CH4, and N2O in the sediments of hyper-eutrophic Lake Kev?t?n, Finland. Undisturbed sediment cores from the deep (9 m) and shallow (4 m) profundal were incubated in a laboratory microcosm with oxic and anoxic water flows with NO3- or SO4(2-) concentrations of 0, 30, 100, 300, and 2000 microM. The carbon mineralization rate (i.e., the sum of released CO2-C and CH4-C) was not affected by the oxidants. However, the oxidants did change the pathways of carbon degradation and the release of CH4. All of the oxidants depressed CH4 fluxes in the shallow profundal sediments, which had low organic matter content. In the deep profundal sediments rich in organic matter, the CH4 release was reduced by O2 but was not affected by SO4(2-) (the effect of NO3- was not studied). There was an increase in N2O release as the overlying water NO3- concentration increased. Anoxia and highly elevated NO3- concentrations, associated with eutrophication, increased drastically the global warming potential (GWP) of the sedimentary gases in contrast to the SO4(2-) load, which had only minor effects on the GWP. 相似文献
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This work addressed effects of hydrology on biogeochemical processes relevant to pollutant chemical transformation in wetland sediments. Microcosms were designed to impose three hydrologic conditions on salt marsh sediments: (i) drained-oxidized redox potenial (Eh); (ii) flooded-reduced Eh and, (iii) diurnal tide-oscillating Eh. The test chemicals were N- and/or S-heterocycles (NSHs) including quinoxaline (1,4-benzodiazine), 2-methylquinoxaline(2-methyl-1,4-benzodiazine), 2,3-dimethylquinoxalinen (2,3-dimethyl-1,4-benzodiazine), phenazine (2,3,5,6-dibenzo-1,4-diazine), acridine (2,3,5,6-dibenzopyridine), dibenzothiophene (2,3,5-dibenzothiophene), phenothiazine (dibenzo-1,4-thiazine), and phenanthridine (2,3-benzoisoquinoline). Biogeochemical processes reflected the hydrologic conditions in ways analogous to field settings, e.g., Eh characteristics were drastically different: static (flooded and drained) systems had reduced (mu = -428 mV +/- 57) and oxidized (mu = +73 mV +/- 32) values, respectively, with no evidence of periodic variation while the tidal systems exhibited regularly oscillating Eh (amplitudes 40-250 mV). Sediment trace gases also corresponded to the Eh, with the major species detected being CO2 and H2O (drained, tidal) vs. CO2 + H2O + sulfides + methane (flooded). The NSH transformation rates were different in each hydrologic regime and decreased as follows: tidal > or = drained > flooded. These results indicated that there were subtle differences in NSH processing in drained and tidal systems, but both of these systems transformed NSHs faster and to lower levels than flooded sediments. These data suggest that in situ remediation options that preserve wetland integrity and tidal hydrology can be as or more effective than static conditions that obtain in approaches such as impoundment and excavation-upland placement. 相似文献
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Prisyazhniuk VA 《Journal of environmental management》2006,80(1):75-82
Major polluters of man's environment are thermal power stations (TPS) and power plants, which discharge into the atmosphere the basic product of carbon fuel combustion, CO2, which results in a build-up of the greenhouse effect and global warm-up of our planet's climate. This paper is intended to show that the way to attain environmental safety of the TPS and to abide by the decisions of the Kyoto Protocol lies in raising the efficiency of the heat power stations and reducing their fuel consumption by using nonconventional thermal cycles. Certain equations have been derived to define the quantitative interrelationship between the growth of efficiency of the TPS, decrease in fuel consumption and reduction of discharge of dust, fuel combustion gases, and heat into the environment. New ideas and new technological approaches that result in raising the efficiency of the TPS are briefly covered: magneto-hydrodynamic resonance, the Kalina cycle, and utilizing the ambient heat by using, as the working medium, low-boiling substances. 相似文献
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Elevated carbon dioxide (CO2) concentrations in the atmosphere can stimulate plant growth and yield, whereas ground-level ozone (O3) concentrations cause the opposite effect in many areas of the world. Recent experiments show that elevated CO2 can protect some plants from O3 stress, but this has not been tested for most crop species. Our objective was to determine if elevated CO2 protects Irish potato (Solanum tuberosum L.) from foliar injury and suppression of growth and yield caused by O3. An O3-resistant cultivar (Superior) and an O3-sensitive cultivar (Dark Red Norland) were exposed from within 10 d after emergence to maturity to mixtures of three CO2 and three O3 treatments in open-top field chambers. The three CO2 treatments were ambient (370 microL L(-1)) and two treatments with CO2 added to ambient CO2 for 24 h d(-1) (540 and 715 microL L(-1)). The O3 treatments were charcoal-filtered air (15 nL L(-1)), nonfiltered air (45 nL L(-1)), and nonfiltered air with O3 added for 12 h d(-1) (80 nL L(-1)). Elevated O3 and CO2 caused extensive foliar injury of Dark Red Norland, but caused only slight injury of Superior. Elevated CO2 increased growth and tuber yield of both cultivars, whereas elevated O3 generally suppressed growth and yield, mainly of Dark Red Norland. Elevated CO2 appeared to protect Dark Red Norland from O3-induced suppression of shoot, root, and tuber weight as measured at midseason but did not protect either cultivar from O3 stress at the final harvest. The results further illustrate the difficulty in predicting effects of O3 + CO2 mixtures based on the effects of the individual gases. 相似文献
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多元催化氧化技术实现了常温常压下有机物的氧化分解,催化氧化反应所产生的大量羟基自由基(·OH)具有极强的氧化能力,与不能或很难被生物降解的有机物都可以发生快速的链式反应,无选择地将高浓度难降解的有机物开环断链,氧化成简单的有机物、CO2和H2O。采用多元催化氧化装置处理石化碱渣废水,原水CODCr在4285~42,300mg/L之间,经催化氧化处理后,CODCr降至2000mg/L以下,出水水质稳定,为生化处理出水CODCr达标排放提供了可靠的技术保证。 相似文献
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The utilization of wood-shaving bottom ash (WBA) for the removal of Red Reactive 141 (RR141), an azo reactive dye, was investigated. WBA/H(2)O and WBA/H(2)SO(4) were made by treating WBA with water and 0.1M H(2)SO(4), respectively, to increase adsorption capacity. Adsorption of RR141 from reactive dye solution (RDS) and reactive dye wastewater (RDW) by WBA/H(2)O and WBA/H(2)SO(4) involved the BET surface area and pore size diameter. Properties of adsorbents, effect of contact time, initial pH of solution, dissolved metals and elution studies indicated that the decolorisation mechanism involved both chemical adsorption and precipitation with calcium ions. In addition, the WBA/H(2)SO(4) surface might contain sulphate-cation complexes that were specific to enhancing dye adsorption from RDW. The adsorption isotherm had a best fit by the Freundlich model. Freundlich parameters showed that WBA/H(2)O used more heterogeneous surface than WBA/H(2)SO(4) and activated carbon for RDW adsorption. A thermodynamic study indicated that RDW adsorption was an endothermic process. The maximum dye adsorption capacities of WBA/H(2)O, WBA/H(2)SO(4) and activated carbon obtained from a Langmuir model at 30 degrees C were 24.3, 29.9, and 41.5mgl(-1), respectively. In addition, WBA/H(2)O and WBA/H(2)SO(4) could reduce colour and high chemical oxygen demand (COD) of real textile wastewater. According to the difficulty in the elution study, it was an environmentally safe disposal of this waste. Therefore, WBA, a waste from combustion of wood shavings, was suitable to be used as an effective adsorbent for azo reactive dye removal. 相似文献