發(fā)布時間：2018-08-13 21:13

【摘要】：隨著工業(yè)的迅速發(fā)展,油品的使用越來越廣泛,在石油運(yùn)輸、儲存和使用過程中的泄露造成了巨大的經(jīng)濟(jì)損失和環(huán)境污染。本研究針對現(xiàn)有的吸油材料存在吸油倍率不高、油水選擇性低、吸油速率比較慢的缺點,制備了具有優(yōu)良吸油性能的改性聚氨酯海綿和聚苯乙烯/聚丙烯腈(PS/PAN)靜電紡絲纖維,解決了油污泄露所帶來的環(huán)境問題和能源問題,具有很大的經(jīng)濟(jì)意義和現(xiàn)實意義。針對聚氨酯海綿同時吸水吸油的缺點,本文通過預(yù)處理,硅烷偶聯(lián)劑浸泡改性得到具有一定疏水性能的海綿,為了進(jìn)一步改善吸油性能,采用表面接枝方法,以丙烯酸丁酯(BA)為單體,二乙烯基苯(DVB)為交聯(lián)劑,過氧化苯甲酰(BPO)為引發(fā)劑,在一定的溫度下得到了表面接枝聚氨酯海綿。利用紅外分析對海綿改性前后的組成進(jìn)行了分析,采用熱重分析對產(chǎn)物的熱穩(wěn)定性進(jìn)行了表征。通過正交試驗分析,得到最佳制備條件:反應(yīng)溫度為80°C,反應(yīng)時間為4 h,引發(fā)劑濃度為PU質(zhì)量的9%,交聯(lián)劑濃度為PU質(zhì)量的0.5%,單體BA與PU海綿的質(zhì)量比為2:1。在最佳條件下,改性海綿在甲苯和四氯化碳中的吸收倍率分別為62.4 g/g和49.1 g/g,在水中的吸收倍率為5.06 g/g,對水的接觸角為124.88°,并且吸油速率比較快,在溢油回收中具有良好的應(yīng)用前景。針對聚苯乙烯纖維在非極性有機(jī)溶劑中的機(jī)械性能比較差且易溶解的缺點,本文通過聚苯乙烯(PS)和聚丙烯腈(PAN)共混靜電紡絲的方法,得到了一種吸油倍率比較高,機(jī)械性能良好,可重復(fù)利用的靜電紡絲纖維�？疾炝薖S/PAN(質(zhì)量比)、紡絲液濃度、電壓、溫度、接收距離、濕度、噴頭內(nèi)徑、推進(jìn)速度對靜電紡絲纖維形貌結(jié)構(gòu)以及吸油性能的影響;考察了纖維在不同油品中的吸油倍率隨時間的變化情況,纖維的重復(fù)利用性以及在水面上的浮力;采用X射線光電子能譜和掃描電鏡能譜對PS/PAN纖維的表面元素分布進(jìn)行了表征。實驗得出PS/PAN纖維的最佳制備條件為:PS/PAN(質(zhì)量比)為5/5,紡絲液濃度為18 wt%,電壓為25 kV,溫度為30°C,接收距離為10 cm,濕度為40%,噴頭內(nèi)徑為0.6 mm,推進(jìn)速度為0.1 mm/s。纖維在不同油中的吸油倍率:真空泵油194.85g/g,花生油131.70 g/g,柴油66.75 g/g,汽油43.38 g/g,并且吸油過程符合二級動力學(xué)方程。纖維對柴油的接觸角為0°,對水的接觸角為144.32°,表現(xiàn)出優(yōu)良的疏水親油性。纖維通過擠壓以及溶劑浸泡的方式可以多次重復(fù)利用,并且表現(xiàn)出了良好的浮力,可以用于水面漏油處理。
[Abstract]:With the rapid development of industry, oil products are used more and more widely. The leakage of oil transportation, storage and use has caused huge economic losses and environmental pollution. In this study, the modified polyurethane sponge and polystyrene / polyacrylonitrile (PS/PAN) electrostatic spinning fiber with excellent oil absorption properties were prepared to overcome the disadvantages of low oil absorption ratio, low oil-water selectivity and slow oil absorption rate of the existing oil-absorbing materials. It is of great economic and practical significance to solve the environmental and energy problems caused by oil spill. In view of the disadvantages of water absorption and oil absorption of polyurethane sponge, a hydrophobic sponge was prepared by pretreatment and soaking with silane coupling agent. In order to further improve the oil absorption, the surface grafting method was adopted. Using butyl acrylate (BA) as monomer, divinylbenzene (DVB) as crosslinking agent and benzoyl peroxide (BPO) as initiator, the surface grafted polyurethane sponge was prepared at a certain temperature. The composition of sponge before and after modification was analyzed by IR, and the thermal stability of the product was characterized by thermogravimetric analysis. By orthogonal test, the optimum preparation conditions were obtained as follows: reaction temperature 80 擄C, reaction time 4 h, initiator concentration 9% of pu mass, crosslinking agent concentration 0.5% and mass ratio of BA to pu sponge 2: 1. Under the optimum conditions, the absorptivity of modified sponge in toluene and carbon tetrachloride were 62.4 g / g and 49.1 g / g, respectively, the absorptivity in water was 5.06 g / g, the contact angle to water was 124.88 擄, and the oil absorption rate was relatively fast. It has a good application prospect in oil spill recovery. In view of the disadvantages of poor mechanical properties and easy dissolution of polystyrene fibers in non-polar organic solvents, a high oil absorption ratio was obtained by electrospinning of polystyrene (PS) and polyacrylonitrile (PAN) blends. Good mechanical properties, reusable electrostatic spinning fiber. The effects of PS/PAN (mass ratio), concentration of spinning solution, voltage, temperature, receiving distance, humidity, nozzle diameter and propulsion speed on the morphology and oil absorption properties of electrostatic spinning fiber were investigated. The variation of oil absorption ratio with time, the reusability of fiber and the buoyancy on water surface were investigated, and the surface element distribution of PS/PAN fiber was characterized by X-ray photoelectron spectroscopy (XPS) and scanning electron microscope (SEM). The results show that the optimal preparation conditions of PS/PAN fiber are as follows: the mass ratio of w / PS / pan is 5 / 5, the concentration of spinning solution is 18 wts, the voltage is 25 kV, the temperature is 30 擄C, the receiving distance is 10 cm, the humidity is 40 cm, the nozzle diameter is 0.6 mm, and the speed of propulsion is 0.1 mm / s. Fiber absorbency in different oils: vacuum pump oil 194.85 g / g, peanut oil 131.70 g / g, diesel oil 66.75 g / g, gasoline 43.38 g / g, and the oil absorption process conforms to the second-order kinetic equation. The contact angle of fiber to diesel oil is 0 擄, and the contact angle to water is 144.32 擄, showing excellent hydrophobicity. The fiber can be reused many times by extrusion and solvent soaking, and has good buoyancy. It can be used for oil spill treatment on water surface.
【學(xué)位授予單位】：中國石油大學(xué)(華東)
【學(xué)位級別】：碩士
【學(xué)位授予年份】：2015
【分類號】：TB34;TQ342.86

【參考文獻(xiàn)】

相關(guān)期刊論文 前10條

1 劉佳;姚光曄;;硅烷偶聯(lián)劑的水解工藝研究[J];中國粉體技術(shù);2014年04期

2 杜昕昕;王普慧;王耀兵;;一種吸油泡沫材料的吸油性及吸油機(jī)理探討[J];環(huán)境科學(xué)與管理;2012年05期

3 劉建平;楊小敏;李倩倩;胡林;;丙烯酸乙酯與甲基丙烯酸甲酯共聚物合成及其吸油性研究[J];廣東農(nóng)業(yè)科學(xué);2011年02期

4 柳穎;徐明;柳婧;;高吸油性樹脂的研究進(jìn)展[J];化學(xué)與粘合;2010年01期

5 吳宇雄;周盡花;劉洋;陳煦;;丙烯酸酯系高吸油樹脂的合成及性能[J];精細(xì)石油化工;2009年01期

6 于萌萌;陳厚;崔亨利;周文英;;新型高吸油性樹脂材料研究進(jìn)展[J];魯東大學(xué)學(xué)報(自然科學(xué)版);2008年04期

7 王斌;霍瑞亭;;硅烷偶聯(lián)劑水解工藝的研究[J];濟(jì)南紡織化纖科技;2008年02期

8 紀(jì)占敏;杜仕國;施冬梅;魯艷玲;;硅烷偶聯(lián)劑在復(fù)合材料中的應(yīng)用研究[J];現(xiàn)代涂料與涂裝;2006年12期

9 徐萌;李彥鋒;楊艷;彭巍;;高吸油樹脂材料的研究進(jìn)展[J];化工新型材料;2006年11期

10 吳波;周美華;;高吸油性樹脂[J];現(xiàn)代塑料加工應(yīng)用;2006年02期

相關(guān)碩士學(xué)位論文 前4條

1 包彩霞;濾料表面改性與含油廢水處理的研究[D];蘭州交通大學(xué);2013年

2 李春桃;硅烷偶聯(lián)劑改性木粉/HDPE復(fù)合材料的研究[D];東北林業(yè)大學(xué);2010年

3 徐萌;基于天然高分子吸油材料的制備與表征[D];蘭州大學(xué);2007年

4 盧娟;乳液型高吸油樹脂的制備、性能及應(yīng)用[D];浙江大學(xué);2006年

，

本文編號：2182207