电-多相臭氧催化技术处理金刚烷胺制药废水

采用电-多相臭氧催化（E-catazone）技术处理高COD、高含盐、难生化的金刚烷胺制药废水.对比研究电-多相臭氧催化、多相臭氧催化（Catazone）、电催化氧化（EO）对金刚烷胺制药废水的处理效果,在此基础上进一步研究了电流密度、pH值以及气相O₃浓度对电-多相臭氧催化技术处理效果的影响,同时优化实验条件.实验结果表明,在原水pH值为12.5,电流密度为15mA/cm²,O₃进气流速0.4L/min,O₃浓度为60mg/L的条件下,经过60min反应,电-多相臭氧催化技术获得了62%的COD去除和44%的总有机碳（TOC）去除,其效果显著优于多相臭氧催化（COD 44%,TOC 29%）与电催化氧化（COD 13%,TOC 17%）;同时,电-多相臭氧催化不仅氧化能力强,而且氧化速率快,获得的伪一级COD去除速率常数k是多相臭氧催化和电催化氧化的1.81倍和8.22倍,更为重要的是,电-多相臭氧催化技术还可以高效、快速地提高废水的生化性,提高约2个数量级,结果表明,电-多相臭氧催化技术是一种有潜力的高级氧化技术,可以实现高效、快速去除有机污染物以及提高废水的可生化性.     

响应面法优化仿酶Fe_3O_4/Fe~0非均相类Fenton降解P-NP

采用原位氧化沉淀法制备出仿酶Fe_3O_4/Fe~0,并采用扫描电子显微镜和X射线衍射对样品进行表征,结果表明,Fe_3O_4与Fe~0负载牢固且保持良好的晶型。采用响应面分析法对仿酶Fe_3O_4/Fe~0催化降解P-NP的工艺条件进行优化,方差分析得到二次模型显著,优化条件为:催化剂用量1.2 g/L,反应温度30℃,初始pH=2.9,初始H_2O_2浓度10 mmol/L,对硝基苯酚去除率的实际值与预测值几乎一致。     

植物法改性类Fenton反应催化剂降解甲基橙

采用银杏叶和桑叶提取液制备了改性类Fenton反应催化剂并进行了表征分析,研究了溶液初始p H、反应温度、催化剂加入量、甲基橙初始质量浓度等因素对甲基橙降解率的影响,同时考察了催化剂的重复使用效果。表征结果表明:制备出的催化剂为Fe_2O_3和Fe OOH的混合物;桑叶改性催化剂的粒径分布较银杏叶改性催化剂均匀,粒径较小,比表面积较大。实验结果表明:在初始p H为6.23、反应温度60℃、催化剂用量1 g/L、甲基橙初始质量浓度100 mg/L的条件下,银杏叶改性催化剂的甲基橙降解率为99.40%,桑叶改性催化剂的甲基橙降解率为99.96%;碱性条件下,甲基橙降解率仍接近100%,扩宽了反应的p H适用范围,为碱性条件下处理偶氮染料提供了新思路;催化剂重复使用6次之后,甲基橙降解率仍可达到99%。根据反应前后溶液的紫外-可见吸收光谱,初步探讨了降解机理。     

新型类Fenton催化剂表征及其降解染料废水的试验研究

钴基和铜基类Fenton催化剂是近年来的研究热点,对新型类Fenton催化剂进行SEM,EDS,XPS表征,得知催化剂中的金属元素主要为钴和铜。通过单因素分析法,研究影响该催化剂处理甲基橙模拟废水效果的因素。结果表明:该催化剂在pH为3~9的范围内均表现出较好的催化降解能力;当双氧水的添加量达到20 mL/L时,催化降解能力不再增加;催化剂的投加量影响催化降解能力达到最大的时间;此外,双氧水的投加方式影响降解所需的时间而对最终的处理效果影响不大。     

多相Fenton氧化-沉淀法处理2,3-二羟基琥珀酸铜废水

针对工业废水中难以去除的络合态重金属,采用自制的负载型FeSO4/HS为催化剂,用Fenton-like氧化2,3-二羟基琥珀酸铜废水,并将游离出来的铜加碱沉淀除去。研究发现,当2相似文献   

LiFePO_4非均相Fenton法处理亚甲基蓝染料的研究

采用水热法制备出LiFePO4催化剂,通过电子显微镜（SEM）、X射线衍射（XRD）和傅立叶红外光谱（FTIR）对其进行表征,并将其作为非均相Fenton催化剂处理亚甲基蓝（MB）染料溶液。实验结果表明,在催化剂用量为4 g/L,H2O2浓度为0.04 mol/L,pH值为3,温度为50℃,反应时间为60 min的条件下,浓度为500 mg/L的亚甲基蓝脱色率达99%。根据实验结果,讨论了LiFePO4作为非均相Fenton催化剂对亚甲基蓝的降解机理。     

水下振动台关键技术的研究

本文从理论和实践两方面分析研究了水下振动台的若干关键技术问题,主要包括运动部件的设计、冷却系统的设计、密封系统的设计、压力平衡系统的设计等。解决了水下振动台设计所存在的难题。     

Lactate oxidation in pyrite suspension: a Fenton-like process in situ generating H2O2

Pyrite is a common mineral at many mining sites. In this study, the mineral pyrite was studied as a Fenton-like reagent for environmental concerns. We selected lactate as a model target molecule to evaluate the Fenton-like catalytic efficiency of pyrite upon organic oxidation. A complete set of control experiments in both aerobic and anaerobic atmospheres unequivocally established that the pyrite in aqueous solution could spontaneously in situ generate OH and H₂O₂, serving as a Fenton-like reagent to catalyze the oxidation of lactate to pyruvate with no need for additional H₂O₂. We called it the pyrite-only Fenton-like (PF) reagent. Monitoring concentration changes of lactate and pyruvate with the time indicated that the pyrite mediated the favorable pyruvate formation at pH 4.5, 60 °C, under air atmosphere. The PF reaction could be stimulated by visible light illumination. Under the optimum conditions, up to 50% of lactate was degraded within 10 d. The results suggest that pyrite and its Fenton-like processes may be potentially practical in wastewater treatment.     

The influence of heterogeneous environmental regulation on the green development of the mining industry: empirical analysis based on the system GMM and dynamic panel data model

The intensity of environmental regulation (ERI) affects the short-term effect of the level of green mining (GML), and which structure determines the long-term mechanism. Based on the panel data from 2001 to 2015, with the dynamic panel model and system GMM estimation method were employed to test the influence of heterogeneous environmental regulation on green mining and its transmission mechanism. The results show that, there is a “U” type nonlinear relationship between the ERI and GML. The direct effect of command-control-based (CAC) and the market incentive-based (MBI) environmental regulation on green development of mining shows the characteristics of inhibition and promotion. There is a “U” type of indirectly moderating effect between technological innovation and the energy consumption structure on the GML. The technological innovation promotes the green development of the mining industry only after pass the inflection point of MBI, while the CAC plays a significant guiding role in upgrading of the energy consumption structure. There is an inhibition and promotion effect of MBI on the GML in the southeast coastal area, and the CAC is not significantly. Meanwhile, both of the ERI shows no positive effects in the central and western inland region.     

SO42-/SnO2 -Fe2O3-硅藻土固体酸催化剂的制备及其对染料废水的催化处理

以硅藻土为载体，采用溶胶-凝胶法引入金属氧化物SnO₂和Fe₂O₃，制备了二元氧化物复合型SO₄^2-/SnO₂-Fe₂O₃-硅藻土固体酸催化剂。利用该催化剂与H₂O₂构成非均相类Fenton试剂氧化体系，催化H₂O₂产生氧化能力极强的·OH，用于处理实际翠蓝废水和模拟亚甲基蓝废水。催化剂的最佳制备条件为：H₂SO₄溶液的浓度3 mol/L，浸渍时间2.0 h，焙烧温度550 ℃，焙烧时间3.5 h，焙烧方式为随炉升降温。实验结果表明：采用在最佳工艺条件下制得的催化剂，处理实际翠蓝废水COD去除率可达79.5%、脱色率达99.6%；处理模拟亚甲基蓝废水COD去除率可达83.1%、脱色率达99.6%。