全面腐蚀控制
全麵腐蝕控製
전면부식공제
TOTAL CORROSION CONTROL
2014年
12期
54-60
,共7页
厉嘉滨%李敏%高大义%孙吉星
厲嘉濱%李敏%高大義%孫吉星
려가빈%리민%고대의%손길성
氧腐蚀%稠油热采%蒸汽驱
氧腐蝕%稠油熱採%蒸汽驅
양부식%주유열채%증기구
oxygen corrosion%heavy oil thermal recovery%steam drive
随着稠油开采的投入逐年增大,稠油热采技术成为石油行业研究的热门。稠油热采中,蒸汽吞吐通常作为油田规模蒸汽驱开发之前的先导开发方式。但是,高温高压蒸汽进入油管后,可能会对油管造成腐蚀和结垢。尤其在氮气纯度不够时,会携带有氧气,这样会对热采井管柱造成严重腐蚀。再者,考虑到热采井套管承受高温、高压引起的交变热应力的影响,腐蚀后的管柱管壁减薄或者局部穿孔,这些情况极易造成管柱形变和断裂。因此对高温高压氧腐蚀研究的开展就显得尤为重要。本文从不同氧含量、不同高温、不同水质情况等因素研究了高温高压蒸汽对热采井管柱腐蚀问题。
隨著稠油開採的投入逐年增大,稠油熱採技術成為石油行業研究的熱門。稠油熱採中,蒸汽吞吐通常作為油田規模蒸汽驅開髮之前的先導開髮方式。但是,高溫高壓蒸汽進入油管後,可能會對油管造成腐蝕和結垢。尤其在氮氣純度不夠時,會攜帶有氧氣,這樣會對熱採井管柱造成嚴重腐蝕。再者,攷慮到熱採井套管承受高溫、高壓引起的交變熱應力的影響,腐蝕後的管柱管壁減薄或者跼部穿孔,這些情況極易造成管柱形變和斷裂。因此對高溫高壓氧腐蝕研究的開展就顯得尤為重要。本文從不同氧含量、不同高溫、不同水質情況等因素研究瞭高溫高壓蒸汽對熱採井管柱腐蝕問題。
수착주유개채적투입축년증대,주유열채기술성위석유행업연구적열문。주유열채중,증기탄토통상작위유전규모증기구개발지전적선도개발방식。단시,고온고압증기진입유관후,가능회대유관조성부식화결구。우기재담기순도불구시,회휴대유양기,저양회대열채정관주조성엄중부식。재자,고필도열채정투관승수고온、고압인기적교변열응력적영향,부식후적관주관벽감박혹자국부천공,저사정황겁역조성관주형변화단렬。인차대고온고압양부식연구적개전취현득우위중요。본문종불동양함량、불동고온、불동수질정황등인소연구료고온고압증기대열채정관주부식문제。
Increased year by year, as the investment of heavy oil exploitation of heavy oil thermal recovery become popular in the petroleum industry research. In Heavy oil thermal recovery field, the steam stimulation normally as the premise of oilfield scale steam drive development before development way. But, after the high temperature and high pressure steam into the tubing, may cause corrosion and scaling of tubing. Especially, when nitrogen gas purity is not enough, it will carry oxygen, and will cause serious corrosion of thermal recovery Wells string. For second, Considering the thermal recovery Wells casing under the influence of alternating thermal stress caused by high temperature and high pressure, corrosion of cylinder wall thinning or partial perforation, these things easily to string deformation and fracture. On the whole, the research on high temperature and hyperbaric oxygen corrosion development is particularly important. In this paper, study the factors, such as different oxygen content, different temperature and different water quality, how to affect steam corrosion behavior in thermal recovery Wells.