工业技术创新
工業技術創新
공업기술창신
Industrial Technology Innovation
2015年
3期
359-365
,共7页
孟繁奇%薛伟%张志磊%周风山
孟繁奇%薛偉%張誌磊%週風山
맹번기%설위%장지뢰%주풍산
钻井液降粘剂%接枝聚合物%腐植酸%聚丙烯腈%抗温性%抗盐性
鑽井液降粘劑%接枝聚閤物%腐植痠%聚丙烯腈%抗溫性%抗鹽性
찬정액강점제%접지취합물%부식산%취병희정%항온성%항염성
Drilling fluid thinner%Grafted copolymer%Humic acid%Polyacrylonitrile%Temperature tolerance%Salt resistance
随着世界能源需求的增加和钻探技术的发展,国内外深井、超深井数目日益增多。在钻井过程中,井眼越深,井筒内的温度越高,水基钻井液的稠化问题就越突出。特别是当淡水钻井液遇到盐或盐膏层入侵,就会发生严重的稠化,甚至失去流动性。降粘剂是钻井过程中不可缺少的钻井液处理剂之一,它对调节钻井液流变性起着非常重要的作用。常用的钻井液降粘剂主要以铁铬木质素磺酸盐(FCLS)为主,其抗温、抗盐性都比较优越。但由于其中含有污染环境的铬离子,国家已经明令禁止使用。因此,开发新型环境友好型降粘剂势在必行。<br> 本文以腐植酸和聚丙烯腈为主要原料,以乙酸锌和尿素为复合交联剂,接枝共聚合制备出了一种抗温、抗盐性与铁铬木质素磺酸盐性能相当的新型腐植酸接枝聚合物降粘剂。探讨了腐植酸原料选择、聚丙烯腈水解-降解条件优化、合成产物沉降稳定性,评价了新型降粘剂在不同钻井液基浆中的降粘性能对比,建立了科学评价降粘剂的实验方法。这种新型降粘剂合成工艺既解决了铬污染环境的问题,又降低了降粘剂的生产成本,大大提高了新型降粘剂的性价比和市场竞争力。
隨著世界能源需求的增加和鑽探技術的髮展,國內外深井、超深井數目日益增多。在鑽井過程中,井眼越深,井筒內的溫度越高,水基鑽井液的稠化問題就越突齣。特彆是噹淡水鑽井液遇到鹽或鹽膏層入侵,就會髮生嚴重的稠化,甚至失去流動性。降粘劑是鑽井過程中不可缺少的鑽井液處理劑之一,它對調節鑽井液流變性起著非常重要的作用。常用的鑽井液降粘劑主要以鐵鉻木質素磺痠鹽(FCLS)為主,其抗溫、抗鹽性都比較優越。但由于其中含有汙染環境的鉻離子,國傢已經明令禁止使用。因此,開髮新型環境友好型降粘劑勢在必行。<br> 本文以腐植痠和聚丙烯腈為主要原料,以乙痠鋅和尿素為複閤交聯劑,接枝共聚閤製備齣瞭一種抗溫、抗鹽性與鐵鉻木質素磺痠鹽性能相噹的新型腐植痠接枝聚閤物降粘劑。探討瞭腐植痠原料選擇、聚丙烯腈水解-降解條件優化、閤成產物沉降穩定性,評價瞭新型降粘劑在不同鑽井液基漿中的降粘性能對比,建立瞭科學評價降粘劑的實驗方法。這種新型降粘劑閤成工藝既解決瞭鉻汙染環境的問題,又降低瞭降粘劑的生產成本,大大提高瞭新型降粘劑的性價比和市場競爭力。
수착세계능원수구적증가화찬탐기술적발전,국내외심정、초심정수목일익증다。재찬정과정중,정안월심,정통내적온도월고,수기찬정액적주화문제취월돌출。특별시당담수찬정액우도염혹염고층입침,취회발생엄중적주화,심지실거류동성。강점제시찬정과정중불가결소적찬정액처리제지일,타대조절찬정액류변성기착비상중요적작용。상용적찬정액강점제주요이철락목질소광산염(FCLS)위주,기항온、항염성도비교우월。단유우기중함유오염배경적락리자,국가이경명령금지사용。인차,개발신형배경우호형강점제세재필행。<br> 본문이부식산화취병희정위주요원료,이을산자화뇨소위복합교련제,접지공취합제비출료일충항온、항염성여철락목질소광산염성능상당적신형부식산접지취합물강점제。탐토료부식산원료선택、취병희정수해-강해조건우화、합성산물침강은정성,평개료신형강점제재불동찬정액기장중적강점성능대비,건립료과학평개강점제적실험방법。저충신형강점제합성공예기해결료락오염배경적문제,우강저료강점제적생산성본,대대제고료신형강점제적성개비화시장경쟁력。
With the increase of the world's energy needs and the advanced drilling techniques, more and more deep even more ultra deep wells were developed. In drilling, the hole deeper, the higher the temperature within the wellbore, and the water based drilling fluids tend to thickening. Thinner (viscosity reducer) is the indispensable of drilling fluid additive in the drilling process. It plays a very important role in adjusting the rheological characteristics of drilling fluid. The most used commercial drilling fluid thinner is the ferric chomium lignin sulfonate (FCLS), it is a superior to resistance temperature and resistance to salt, but it contains environmentally hazardous chromium ions, so it has banned to use for so many years. Therefore, to develop a new non-toxic and harmless thinner is imperative. <br> A new chromium-free thinner for water based drilling fluid was produced through the grafted copolymerization used the humic acid and polyacrylonitrile as the main raw materials. By using a composite cross-linking agent composed by zinc acetate and urea greatly improved the temperature tolerance and salt resistance of the produced product. The paper investigated the effect of the compositions of humic acid, optimized hydrolysis and degradation conditions of polyacrylonitrile, analyzed the mechanism of the composite cross-linking agent, improved the sedimentation stability of the produced product slurry before spray drying, evaluated the performances of the new thinner in different based drilling fluid, and established an experimental method to evaluate a thinner's comprehensive properties. The new thinner would not only solve the chromium pollution compared with FCLS, but also reduce the thinner's production cost. The new thinner product has a higher market competition in future.
