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摘要? 油田開發(fā)后期,，為應(yīng)對(duì)含水率大幅上升,、油田地質(zhì)低滲透性、非均質(zhì)性等問題,，油田泡沫驅(qū)技術(shù)被開發(fā) 并逐漸進(jìn)入現(xiàn)場(chǎng)應(yīng)用,。其中高效泡沫劑是提高采收率和影響泡沫驅(qū)油技術(shù)成功的關(guān)鍵因素之一。為獲得耐油,、耐溫且無(wú)色譜分離問題的高效泡沫劑,，本文以萘、濃硫酸,、環(huán)氧乙烷為主要原料合成了不同烷基鏈長(zhǎng)的聚氧乙烯醚萘磺酸鈉,，探究了疏水碳鏈長(zhǎng)度對(duì)烷基聚氧乙烯醚萘磺酸鈉性能的影響，并研究了產(chǎn)物的表面張力,、乳化性能,、礦化度水中的泡沫性能和室內(nèi)巖心驅(qū)油性能。表面張力研究結(jié)果表明：當(dāng)疏水碳鏈長(zhǎng)度為 10 時(shí),，表面張力較大,，而當(dāng)鏈長(zhǎng)大于 10 時(shí)，表面張力差異較小,，其中十四碳體系具有最低的表面張力和最小的CMC濃度,。乳化性能結(jié)果表明：當(dāng)碳鏈長(zhǎng)度大于 10 后，化合物具有良好的乳化性能且十四碳體系乳化穩(wěn)定性最好,。泡沫性能測(cè)試結(jié)果表明：十四碳體系具有最佳發(fā)泡倍率和析液半衰期,，其高溫泡沫性能最好。本文在上述研究的基礎(chǔ) 上,，以十四烷基聚氧乙烯醚萘磺酸鈉為目標(biāo)泡沫體系,，進(jìn)一步研究了該體系的抗吸附性能、耐油性能,、腐蝕性以及對(duì)目標(biāo)油藏原油的界面張力及巖心驅(qū)替性能,，結(jié)果表明：十四碳體系具有良好的抗吸附和耐油性能。吸附前后,，發(fā)泡體系的泡沫性能未出現(xiàn)明顯下降,；隨著含油量的增加,，泡沫性能降低幅度較小。同時(shí),，十四碳體系的腐蝕性能達(dá)標(biāo),，并可以有效降低目標(biāo)原油的油—水界面張力。最終的室內(nèi)巖心驅(qū)替實(shí)驗(yàn)結(jié)果顯示該泡沫劑提高采收率達(dá) 21.01%,，完全滿足高溫油藏泡沫驅(qū)油劑的性能要求。

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關(guān)鍵詞 ：聚氧乙烯醚萘磺酸鈉；表面張力,；乳化性,；泡沫性能；抗吸附性能,；耐油性能,；腐蝕性；界面張力,；驅(qū)替能力

Abstract：

In the late stage of oilfield development, in order to cope with problems such as a sharp increase in water cut, low oilfield geological permeability, and heterogeneity, oilfield foam flooding technology was developed and gradually entered field applications. A high-efficiency foaming agent is one of the key factors that increases oil recovery and affects the success of foam flooding technology. This work aimed to prepare high-efficiency, oil-resistant and temperature-resistant foaming agents that can prevent chromatographic separation. We prepared a series of Polyoxyethylene Ether Naphthalene Sulfonates(PENS) by using naphthalene, concentrated sulfuricacid, and ethylene oxide with different chain-length alkyl groups. In addition, we investigated the effect of the chain length of the alkyl groups on the product properties. The surface tension of the product, emulsification performance, foam performance in saline water and laboratory core oil displacement performance are also studied. When the chain length of the linear alkyl group was ten carbons, the surface tension was relatively high; when the chain length was greater than ten carbons, the surface tension between the products was not obviously different. The product with a fourteen-carbon linear alkyl group had the lowest surface tension and the minimum critical micelle concentration. Similarly, emulsifying performance results show that when the chain length was greater than ten carbons, the products had good emulsifying properties. The product with fourteen-carbon linear alkyl group showed the best emulsion stability. The foam performance test results indicated that the fourteen-carbon system has the best foaming ratio and liquid drainage half-life, so its high-temperature foam performance is the best. Based on the above findings, we investigated the properties of polyoxyethylene ether naphthalene sulfonates with fourteen-carbon linear alkyl group (PENS-14C), including adsorption resistance, oil resistance, corrosivity, interfacial tension with the crude oil of the targeted reservoir, and the laboratory displacement ability in the cores. All the experimental results demonstrated that PENS-14C had good adsorption resistance and oil resistance. Before and after adsorption, the foam performance of the foaming system did not decrease significantly; and with an increase in oil content, the decrease of foam performance was smaller. Meanwhile, its corrosivity also reached the standard. In addition, PENS-14C effectively reduced the oil-water interfacial tension of the target crude oil. The final laboratory core flooding experiment results showed that the foaming agent can increase the recovery rate by 21.0 % , which fully meets the performance requirements of high-temperature reservoir foam oil displacement agents.

Key words： sodium polyoxyethylene ether naphthalene sulfonate; surface tension; emulsifying; foaming property; adsorption resistance; oil resistance; corrosivity; interfacial tension; displacement ability

收稿日期: 2020-12-30 ????

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基金資助:中國(guó)石油天然氣股份有限公司重大科技專項(xiàng)項(xiàng)目(2017E-1507) 資助

通訊作者: [email protected]

引用本文: ??

WANG Hongtao, Feng Lijuan, HE Meng, ZHANG Yuzhen, Guo Dan, ZENG Qingqiao, YANG Lutao, ZHANG Luxia. Preparation and properties of sodium polyoxyethylene ether naphthalene sulfonate with different chain-length alkyl groups. Petroleum Science Bulletin, 2020, 04: 587-596.

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