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Study on Treatment Technology of Methanol in the Low-concentration Methanol-containing Wastewater of a Gas Field
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作者 Ren Xiaorong 《Meteorological and Environmental Research》 CAS 2018年第6期49-52,61,共5页
The low-concentration methanol-containing wastewater of a gas field mainly consists of the dehydrated water from natural gas,the water at the bottom of a rectifying tower,and the water used to clear tanks and pipes. T... The low-concentration methanol-containing wastewater of a gas field mainly consists of the dehydrated water from natural gas,the water at the bottom of a rectifying tower,and the water used to clear tanks and pipes. The concentration of methanol as its characteristic component is mostly lower than 3%. Its production and water quality change seasonally. It is mainly produced in late autumn,winter,and early spring when temperature is low. In the low-concentration methanol-containing wastewater,the content of organic matter,suspended solids and salts and COD value are high,and it is acidic. According to the physical and chemical properties of methanol such as easily dissolving in water,dissolving in most organic solvents,and having strong molecular polarity,laboratory experiments were made to study the difficulties of using high-temperature rectification,biodegradation,membrane filtration and organic oxidation technology to treat low-concentration methanol in the wastewater as well as the feasibility of industrial application. Ultraviolet catalytic oxidation technology has the advantages of high treatment efficiency,no secondary pollution,and no addition of treatment agent. After the low-concentration methanol-containing wastewater was treated by ultraviolet catalytic oxidation for 90 min,methanol concentration in the wastewater reduced from about 3% to around 0. 1%,thereby rapidly and efficiently degrading methanol in the wastewater. Based on the experimental parameters,a pilot device of ultraviolet catalytic oxidation was developed and used in the continuous treatment of the wastewater. When the flow rate of inflow was 500 L/h,the intensity of UV light was 2 k W,and hydraulic retention time was 60 min,methanol could be removed completely from the wastewater with the methanol concentration of about 0. 3%. This study provides a method for the treatment of low-concentration methanol-containing wastewater of a gas field,and also provides an experimental basis for the efficient degradation of organic wastewater. 展开更多
关键词 low-concentration methanol-containing wastewater METHANOL Organic wastewater wastewater treatment
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Fe/La定向修饰凹凸棒土稻壳基颗粒成型生物炭:磷酸盐吸附行为与机制 被引量:1
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作者 曾凤美 孙思佳 +8 位作者 孙恩惠 肖清波 雍宬 曲萍 张晶 Charles Hunter 杨林章 黄红英 孙丰文 《环境科学学报》 CAS CSCD 北大核心 2022年第7期279-289,共11页
本研究合成一种新型除磷载Fe/La定向修饰凹凸棒土稻壳基颗粒成型生物炭吸附材料(Fe-La/AC),考察了材料表面特性、Fe/La投加量、热解温度、保温时间以及凹凸棒土投加量等对磷素吸附影响规律.Fe/La最佳投加量为2:2 mmol,AT添加量为30%,热... 本研究合成一种新型除磷载Fe/La定向修饰凹凸棒土稻壳基颗粒成型生物炭吸附材料(Fe-La/AC),考察了材料表面特性、Fe/La投加量、热解温度、保温时间以及凹凸棒土投加量等对磷素吸附影响规律.Fe/La最佳投加量为2:2 mmol,AT添加量为30%,热解温度为350℃,热解时间2 h,制备的Fe-La/AC对磷酸根的最大吸附量可以达到47.62 mg·g^(-1)(以磷计).傅里叶红外光谱分析表明Fe、La主要以铁镧氧化物及铁镧水合氯化物的形式存在于炭材料表面,Fe和La提供了磷酸盐吸附的活性中心.该材料吸附动力学过程符合准二级动力学模型,吸附等温线拟合分析Langmiur模型更适于描述Fe-La/AC对磷酸盐的吸附过程,表明吸附动力学主要受化学作用控制.磷酸盐吸附机制主要涉及静电吸引、配体交换和内层络合作用.本研究制备的Fe-La/AC颗粒成型生物炭,可作为低磷浓度废水处理及水体富营养化调控的一种高效除磷吸附剂,具有较大的实际应用前景. 展开更多
关键词 富营养化 金属氢氧化物 成型生物炭 吸附磷 铁/镧-磷结合 低浓度含磷废水
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