化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
6期
2276-2284
,共9页
陈月芳%季振%林海%董颖博
陳月芳%季振%林海%董穎博
진월방%계진%림해%동영박
乳化油%玉米芯%花生壳%月桂酸%改性%亲油疏水性%吸附剂%吸附%废水
乳化油%玉米芯%花生殼%月桂痠%改性%親油疏水性%吸附劑%吸附%廢水
유화유%옥미심%화생각%월계산%개성%친유소수성%흡부제%흡부%폐수
emulsifie d oil%corn cob%peanut shell%lauric acid%modification%oleophylic/hydrophobic property%adsorbents%adsorption%wastewater
油污染对环境、生物和经济产生了不利的影响。目前,诸多研究均希望得到一种有效、简单且价廉的除油方法。为了提高对含乳化油废水的处理效果,以玉米芯和花生壳为原料,采用月桂酸对其进行改性,并且利用扫描电镜、比表面积测试和红外光谱等测试手段研究生物质材料的改性和处理含乳化油废水的机理。研究发现,月桂酸改性是利用月桂酸上含有的羧基和生物质材料的纤维素、半纤维素和木质素上含有的羟基发生的酯化反应,形成的酯基链接月桂酸本身的烷基链,增强了亲油疏水性,同时也有造孔的作用即进一步增大微孔和提高孔隙率,由于改性材料是通过亲油性烷基链和微孔吸附油粒子,因此这两者的共同作用提高了材料的吸油能力。利用石油醚萃取水中油分,采用紫外分光光度法测定水中的油浓度。这种方法能够更加直接地看出含乳化油废水的处理程度,也更加贴近实际工程概况。研究表明,原始玉米芯和花生壳对含乳化油废水的油吸附容量分别是6.86 mg·g-1和5.21 mg·g-1,经月桂酸改性后,其吸附容量有了较大提高,分别达到了10.79 mg·g-1和7.44 mg·g-1。因此,当处理含乳化油废水时,利用月桂酸改性玉米芯和花生壳不仅能高效率除油,而且基于以废治废,是一项相当环保的措施。
油汙染對環境、生物和經濟產生瞭不利的影響。目前,諸多研究均希望得到一種有效、簡單且價廉的除油方法。為瞭提高對含乳化油廢水的處理效果,以玉米芯和花生殼為原料,採用月桂痠對其進行改性,併且利用掃描電鏡、比錶麵積測試和紅外光譜等測試手段研究生物質材料的改性和處理含乳化油廢水的機理。研究髮現,月桂痠改性是利用月桂痠上含有的羧基和生物質材料的纖維素、半纖維素和木質素上含有的羥基髮生的酯化反應,形成的酯基鏈接月桂痠本身的烷基鏈,增彊瞭親油疏水性,同時也有造孔的作用即進一步增大微孔和提高孔隙率,由于改性材料是通過親油性烷基鏈和微孔吸附油粒子,因此這兩者的共同作用提高瞭材料的吸油能力。利用石油醚萃取水中油分,採用紫外分光光度法測定水中的油濃度。這種方法能夠更加直接地看齣含乳化油廢水的處理程度,也更加貼近實際工程概況。研究錶明,原始玉米芯和花生殼對含乳化油廢水的油吸附容量分彆是6.86 mg·g-1和5.21 mg·g-1,經月桂痠改性後,其吸附容量有瞭較大提高,分彆達到瞭10.79 mg·g-1和7.44 mg·g-1。因此,噹處理含乳化油廢水時,利用月桂痠改性玉米芯和花生殼不僅能高效率除油,而且基于以廢治廢,是一項相噹環保的措施。
유오염대배경、생물화경제산생료불리적영향。목전,제다연구균희망득도일충유효、간단차개렴적제유방법。위료제고대함유화유폐수적처리효과,이옥미심화화생각위원료,채용월계산대기진행개성,병차이용소묘전경、비표면적측시화홍외광보등측시수단연구생물질재료적개성화처리함유화유폐수적궤리。연구발현,월계산개성시이용월계산상함유적최기화생물질재료적섬유소、반섬유소화목질소상함유적간기발생적지화반응,형성적지기련접월계산본신적완기련,증강료친유소수성,동시야유조공적작용즉진일보증대미공화제고공극솔,유우개성재료시통과친유성완기련화미공흡부유입자,인차저량자적공동작용제고료재료적흡유능력。이용석유미췌취수중유분,채용자외분광광도법측정수중적유농도。저충방법능구경가직접지간출함유화유폐수적처리정도,야경가첩근실제공정개황。연구표명,원시옥미심화화생각대함유화유폐수적유흡부용량분별시6.86 mg·g-1화5.21 mg·g-1,경월계산개성후,기흡부용량유료교대제고,분별체도료10.79 mg·g-1화7.44 mg·g-1。인차,당처리함유화유폐수시,이용월계산개성옥미심화화생각불부능고효솔제유,이차기우이폐치폐,시일항상당배보적조시。
Oil pollution results in detrimental effects on the environment, living organisms and economy. Currently, a lot of attempt is devoted to provide an efficient, easy and cheap method for cleaning-up oil pollution. To improve the efficiency cleaning-up emulsified oil in wastewater, lauric acid was employed to modify corn cob and peanut shell, and these materials were characterized by scanning electron microscope (SEM), Brunauer-Emmett-Teller (BET) method and Fourier transform infrared spectrometer (FTIR). The results indicate that the modification of lauric acid is taken place by the esterification reaction between carboxyl in lauric acid and hydroxyl in cellulose, hemicellulose and lignin of biologic materials, and ester group formed is connected to alkyl chain, not only increasing the oleophylic and decreasing hydrophobic property of absorbents, but also creating micro-porosity. So, it can be expected that if the modified materials are employed for removal of emulsified oil, the oil adsorption capacity can be enhanced, because of the combined action of alkyl chain and micro-pore. In order to measure the removal efficiency of emulsified oil, in the present study, petroleum ether is used to extract oil from water sample, and ultraviolet spectroscopy employs for measuring oil concentration. The results show that the oil adsorption capacity is 6.86 mg·g-1 and 5.21 mg·g-1 for raw corn cob and peanut shell, and goes up 10.79 mg·g-1 and 7.44 mg·g-1 for the modified samples by lauric acid, respectively. Therefore, when biologic materials modified by lauric acid are applied to treat emulsified oily water, not only removal efficiency is high, but also the waste is controled by another waste. It is a very environmental protection measure.
