化学工程师
化學工程師
화학공정사
CHEMICAL ENGINEER
2009年
7期
37-39
,共3页
稠油%表面活性剂%乳化降粘
稠油%錶麵活性劑%乳化降粘
주유%표면활성제%유화강점
viscous crude oil%surfactant%emulsification viscosity reduction
针对泌阳凹陷南部陡坡带泌304区块地下原油粘度高的特点,本文通过化学降粘方法,筛选出能够和稠油乳化并形成水包油(O/W)型乳化液的表面活性剂,优选表而活性剂浓度,研究了温度、矿化度、油水比等对乳状液粘度的影响.
針對泌暘凹陷南部陡坡帶泌304區塊地下原油粘度高的特點,本文通過化學降粘方法,篩選齣能夠和稠油乳化併形成水包油(O/W)型乳化液的錶麵活性劑,優選錶而活性劑濃度,研究瞭溫度、礦化度、油水比等對乳狀液粘度的影響.
침대비양요함남부두파대비304구괴지하원유점도고적특점,본문통과화학강점방법,사선출능구화주유유화병형성수포유(O/W)형유화액적표면활성제,우선표이활성제농도,연구료온도、광화도、유수비등대유상액점도적영향.
In view of the high viscosity characteristic of underground oil at B304 block on the south actic region in Biyang depression, we screened out the surfactant which forms oil-in-water (O/W) emulsion system well with heavy oil by using a chemical visbreaking method. The surfactant concentration and temperature were optimized, salinity, oil-water ratio factors effect on the viscosity of emulsion also been studied.
