化工技术与开发
化工技術與開髮
화공기술여개발
TECHNOLOGY & DVELOPMENT OF CHEMICAL INDUSTRY
2013年
10期
1-5
,共5页
张洁%张强%陈刚%赵景瑞%许仁军
張潔%張彊%陳剛%趙景瑞%許仁軍
장길%장강%진강%조경서%허인군
植物聚糖%磺化%水基钻井液%正交实验
植物聚糖%磺化%水基鑽井液%正交實驗
식물취당%광화%수기찬정액%정교실험
plant polysaccharides%sulfonate%water based drilling fluids%orthogonal experiment
为提高天然植物聚糖的水溶性及其胶液粘度,以植物聚糖衍生物为原料,通过磺化反应制得了改性植物聚糖。采用红外光谱和差示扫描量热分析对磺化前后的植物聚糖进行了表征,证实了磺化结果。通过正交实验确定了磺化改性的反应条件:反应温度90℃,反应pH=12,反应时间12h,磺化剂与植物聚糖质量比为0.6∶1。与原糖相比,改性植物聚糖具有更好的水溶性,经改性植物聚糖处理后的钻井液增黏率为135.1%,降滤失率为22.9%。经改性植物聚糖处理后的钻井液在90℃以下流变性能稳定,具有一定的抗温性。线性膨胀率实验及泥球实验表明,与改性前的原糖相比,改性磺化后的植物聚糖具有良好的抑制防塌作用。
為提高天然植物聚糖的水溶性及其膠液粘度,以植物聚糖衍生物為原料,通過磺化反應製得瞭改性植物聚糖。採用紅外光譜和差示掃描量熱分析對磺化前後的植物聚糖進行瞭錶徵,證實瞭磺化結果。通過正交實驗確定瞭磺化改性的反應條件:反應溫度90℃,反應pH=12,反應時間12h,磺化劑與植物聚糖質量比為0.6∶1。與原糖相比,改性植物聚糖具有更好的水溶性,經改性植物聚糖處理後的鑽井液增黏率為135.1%,降濾失率為22.9%。經改性植物聚糖處理後的鑽井液在90℃以下流變性能穩定,具有一定的抗溫性。線性膨脹率實驗及泥毬實驗錶明,與改性前的原糖相比,改性磺化後的植物聚糖具有良好的抑製防塌作用。
위제고천연식물취당적수용성급기효액점도,이식물취당연생물위원료,통과광화반응제득료개성식물취당。채용홍외광보화차시소묘량열분석대광화전후적식물취당진행료표정,증실료광화결과。통과정교실험학정료광화개성적반응조건:반응온도90℃,반응pH=12,반응시간12h,광화제여식물취당질량비위0.6∶1。여원당상비,개성식물취당구유경호적수용성,경개성식물취당처리후적찬정액증점솔위135.1%,강려실솔위22.9%。경개성식물취당처리후적찬정액재90℃이하류변성능은정,구유일정적항온성。선성팽창솔실험급니구실험표명,여개성전적원당상비,개성광화후적식물취당구유량호적억제방탑작용。
To improve the water solubility of plant polysaccharides derivatives and the viscosity of its solution, a new material was devel-oped by sulfonation. It was characterized by IR and DSC, which confirmed the modification. The optimum reaction conditions were deter-mined by the orthogonally designed experiment. The optimal conditions were found as followed:the reactions temperature was 90℃, the pH was 12, the reaction time was 12h and the mass ratio of the sulfonating agent to plant polysaccharides was 0.6:1. The results showed that, compared to the raw agent, the sulfonated product had higher water solubility. Furthermore, in drilling fluids, the viscosity could be enhanced by 135.1%and the filtration reduction was depressed by 22.9%by the sulfonated product. As the aging temperature below 90℃, the temperature had a slight effect on rheological properties of the sulfonated product treated drilling fluids. Linear bentonite expansion rate experiment and the mud ball immersing experiment results showed that the sulfonated product had good anti-sloughing effect comparing to the raw agent.