CO2 Assisted Steam Flooding Technology after Steam Flooding - A Case Study in Block J6 of Xinjiang Oilfield

Day 2 Wed, October 23, 2019 Pub Date : 2019-10-22 DOI:10.2118/196767-ms

Xi Changfeng, Qi Zongyao, Liu Tong, Z. Yunjun, Zhao Fang, Qingsen Yu, D. Shen, Li Xiuluan

{"title":"CO2 Assisted Steam Flooding Technology after Steam Flooding - A Case Study in Block J6 of Xinjiang Oilfield","authors":"Xi Changfeng, Qi Zongyao, Liu Tong, Z. Yunjun, Zhao Fang, Qingsen Yu, D. Shen, Li Xiuluan","doi":"10.2118/196767-ms","DOIUrl":null,"url":null,"abstract":"\n Currently Block J6 is in the later stage of steam flooding after 27 years’ steam injection, its recovery factor is about 50%, and the water cut is more than 95%. Particularly, the present steam oil ratio is about 12 m3(CWE)/t which has reached the economic limit and is in ineffective development. Cores from four post steam flooding drilling wells show that only top 2-3m of the total 25-30m pay zone has a steam chamber which is the main steam channel and its residual oil saturation is about 20%, the other 22-27m pay zone is displaced by hot water and its oil saturation is 40-55%. A 3D physical simulation show the conventional steam flooding with full interval perforation quickly broke through from the top of reservoir, and the steam oil ratio rose rapidly from 5 m3(CWE)/t to 10 m3(CWE)/t. The recovery factor was only 20.1% at the time of steam breakthrough, and then it was in the phase of high steam oil ratio for a long time. During CO2 assisted steam flooding the whole perforated producer is switched into a low half perforated well, and the recovery factor increases from 20.1% to 81.1%, the steam oil ratio is 3.3m3(CWE)/t. There are three characteristics in CO2 assisted steam flooding stage, firstly there is a steam and CO2 assisted gravity drainage mode, steam chamber expands from the top 2-3cm to the total 20cm oil layer. Secondly, there is a stable emulsion foam oil, its water cut is 60-70%, CO2 liquid ratio is about 5:1 Sm3/t, CO2 is a kind of dispersed bubble so it is much more than the dissolved CO2 liquid ratio 2:1 Sm3/t. Thirdly, CO2 lows the heatloss to overburden and keeps the formation pressure. The calculation shows that the heat loss can be reduced by more than 10% in the top layer. A pilot test including 9 well patterns(49 wells) has been established, and its recovery factor will be up to 75%, and the steam oil ratio will up to 2 m3(CWE)/t, a good production performance is predicted optimistically.","PeriodicalId":10977,"journal":{"name":"Day 2 Wed, October 23, 2019","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2019-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Day 2 Wed, October 23, 2019","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2118/196767-ms","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 1

Abstract

Currently Block J6 is in the later stage of steam flooding after 27 years’ steam injection, its recovery factor is about 50%, and the water cut is more than 95%. Particularly, the present steam oil ratio is about 12 m3(CWE)/t which has reached the economic limit and is in ineffective development. Cores from four post steam flooding drilling wells show that only top 2-3m of the total 25-30m pay zone has a steam chamber which is the main steam channel and its residual oil saturation is about 20%, the other 22-27m pay zone is displaced by hot water and its oil saturation is 40-55%. A 3D physical simulation show the conventional steam flooding with full interval perforation quickly broke through from the top of reservoir, and the steam oil ratio rose rapidly from 5 m3(CWE)/t to 10 m3(CWE)/t. The recovery factor was only 20.1% at the time of steam breakthrough, and then it was in the phase of high steam oil ratio for a long time. During CO2 assisted steam flooding the whole perforated producer is switched into a low half perforated well, and the recovery factor increases from 20.1% to 81.1%, the steam oil ratio is 3.3m3(CWE)/t. There are three characteristics in CO2 assisted steam flooding stage, firstly there is a steam and CO2 assisted gravity drainage mode, steam chamber expands from the top 2-3cm to the total 20cm oil layer. Secondly, there is a stable emulsion foam oil, its water cut is 60-70%, CO2 liquid ratio is about 5:1 Sm3/t, CO2 is a kind of dispersed bubble so it is much more than the dissolved CO2 liquid ratio 2:1 Sm3/t. Thirdly, CO2 lows the heatloss to overburden and keeps the formation pressure. The calculation shows that the heat loss can be reduced by more than 10% in the top layer. A pilot test including 9 well patterns(49 wells) has been established, and its recovery factor will be up to 75%, and the steam oil ratio will up to 2 m3(CWE)/t, a good production performance is predicted optimistically.

查看原文本刊更多论文

蒸汽驱后CO2辅助蒸汽驱技术——以新疆油田J6区块为例

J6区块注汽27年，目前处于蒸汽驱后期，采收率约为50%，含水率在95%以上。特别是目前的汽油比约为12 m3 /t，已达到经济极限，开发效果不佳。蒸汽驱后4口井的岩心显示，在25 ~ 30m的产层中，只有顶部2 ~ 3m有蒸汽室，为主蒸汽通道，残余油饱和度约为20%，其余22 ~ 27m产层为热水驱替，含油饱和度为40 ~ 55%。三维物理模拟结果表明，常规蒸汽驱全段射孔从储层顶部迅速突破，汽油比从5 m3 /t迅速上升到10 m3 /t。蒸汽突破时采收率仅为20.1%，此后长期处于高汽油比阶段。在CO2辅助蒸汽驱过程中，将整口射孔采油井改为低半射孔井，采收率由20.1%提高到81.1%，汽油比为3.3m3 /t。CO2辅助蒸汽驱阶段有三个特点:一是蒸汽- CO2辅助重力泄油模式，蒸汽室从顶部2-3cm扩展到总20cm油层;其次，有一种稳定的乳化液泡沫油，其含水率为60-70%，CO2液比约为5:1 Sm3/t, CO2是一种分散的气泡，所以它的溶解性CO2液比远远大于2:1 Sm3/t。第三，CO2降低了覆盖层的热损失，保持了地层压力。计算表明，在顶层可使热损失降低10%以上。建立了9口井模式(49口井)的中试，采收率可达75%，汽油比可达2 m3 /t，乐观预测生产效果良好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Day 2 Wed, October 23, 2019

自引率

0.00%

发文量

文献相关原料

公司名称	产品信息	采购帮参考价格