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第 8 期纪宽，等: 含辣素衍生结构的疏水缔合共聚物的制备及性能 ·1715·

见到微孔，而浸泡 PACIAM 和 PACSAM（图 12h、i）高表观黏度优势；无皂乳液聚合法也为更多辣素衍
钢条等表面则无明显微孔，说明含有辣素衍生结构生物的发展提供了新的技术支持。
的共聚物能够有效地减缓钢条腐蚀，表现出很好的
参考文献：
缓蚀作用，这也与失重法得到的结果相一致。
[1] ZHU Y Y (朱友益), HOU Q F (侯庆锋), JIAN G Q (简国庆), et al.
Composite flooding technology and application status and development
trend[J]. Chemical Engineering Design Communications (石油勘探
与开发), 2013,40(1): 90-96.
[2] KAMAL M S, SULTAN A S, AL-MUBAIYEDH U A, et al. Review
on polymer flooding: Rheology, adsorption, stability, and field
applications of various polymer systems[J]. Polymer Reviews, 2015,
55(3): 491-530.
[3] ZHANG H F (张宏方), WANG D M (王德民), WANG L J (王立军).
Seepage law of polymer solution in porous media and its mechanism
to improve oil displacement efficiency[J]. Petroleum Geology &
Oilfield Development in Daqing (大庆石油地质与开发), 2002,
21(4): 57-60.
[4] ZHANG C L, HU B Z, WANG P, et al. Feasibility of re-injecting the
production effluent from alkali surfactant polymer flooding systems
back into a reservoir to further improve oil recovery[J]. Natural
Resources Research, 2020, 29(3):2191-2207.
[5] ZHAO X T (赵修太), WANG Z B (王增宝), QIU G M (邱广敏), et al.
Study on influence factors of the initial viscosity of HPAM
solution[J]. Chemical Engineering of Oil and Gas (石油与天然气化
工), 2009, 38(3): 231-234.
[6] YANG F, GUO Y J, ZHANG X M, et al. Enhanced oil recovery
technology of alkaline/surfactant/hydrophobically associating

a—浸泡前；b—无共聚物；c—HPAM；d—PAA；e—PACA；f polyacrylamide flooding after polymer flooding[J]. Acta Petrol
—PACIA；g—PACSA；h—PACIAM；i—PACSAM Sinica, 2014, 35(5): 908-913.
[7] CHEN H (陈宏), DENG Z Y (邓征宇), GONG Z B (宫兆波), et al.
图 12 浸泡前后钢条表面形貌图 Progress of treatment technologies for oilfield produced water from
Fig. 12 Surface morphology of steel bars before and after chemical flooding process[J]. Environmental Science & Technology
immersion (环境科学与技术), 2017, 40(5): 95-101.
[8] ZHOU W, ZHANG J, HAN M, et al. Application of hydrophobically
associating water-soluble polymer for polymer flooding in China
3 结论 offshore heavy oilfield[C]//International Petroleum Technology
Conference, 2007: 1449-1453.
通过超声分散辣素衍生单体 HMMAM、分步跟 [9] PO A, PILIPOVI A. Self-association of C3 and C6 epimers of
hyodeoxycholate anions in aqueous medium: Hydrophobicity, critical
进引发及无皂乳液聚合的方式成功合成了两种含辣 micelle concentration and aggregation number[J]. Journal of Molecular
素衍生结构的疏水缔合共聚物，有效解决了运用乳 Liquids, 2007, 238(4): 48-57.
[10] ISHIDA N, KUSAKA Y, USHIJIMA H. Hydrophobic attraction
化剂及有机助溶剂溶解非极性单体而造成的产物纯
between silanated silica surfaces in the absence of bridging
度和表观黏度降低的工艺问题。SEM 分析表明，辣 bubbles[J]. Langmuir the ACS Journal of Surfaces & Colloids, 2012,
素衍生单体 HMMAM 使共聚物分子形成了稳定的三 28(39): 13952-13959.
[11] YU X L (于晓琳), YU L M (于良民), JIANG X H (姜晓辉).
维网络结构，增强了疏水缔合作用力。在质量浓度 Synthesis of acrylamide with capsaicin like structure and its
为 10 g/L 时，性能最优异的 PACSAM 在 30 ℃下的 antibacterial and antifouling properties[J]. Chinese Journal of Applied
Chemistry (应用化学), 2014, 31(5): 594-599.
表观黏度可达到 1224 mPa·s，且经过升温至 90 ℃ [12] WU G, YU L M, JIANG X H. Synthesis and properties of an
的耐温性测试以及溶解在质量浓度为 10 g/L 的 NaCl acrylamide-based polymer for enhanced oil recovery: A preliminary
study[J]. Advances in Polymer Technology, 2018, 37(8): 2763-2773.
溶液中的耐盐性测试，其表观黏度保留率分别可达 [13] FU B Y (付冰月), YU L M (于良民), JIANG X H (姜晓辉), et al.
到 41.44%和 42.12%，共聚物拥有优异的耐受性能； Synthesis of hydrophobically associating polymers containing
capsaicin functional monomers and their resistance to temperature,
三维多孔结构赋予了其良好的溶解性，溶解时间为
salt and bacteria[J]. Periodical of Ocean University of China (中国海
27 min；缓蚀性能分析表明，在 1 mol/L 的盐酸中，洋大学学报: 自然科学版), 2019, 49(11): 74-82.
质量浓度为 4 g/L 的共聚物溶液的缓蚀效率高达 [14] MATYJASZEWSKI K, WOODWORTH B, ZHANG X, et al. Simple
and efficient synthesis of various alkoxyamines for stable free radical
97.28%，能够有效延缓原油传输过程中管道的内腐 polymerization[J]. Macromolecules, 1998, 31(17): 5955-5957.
蚀现象。 [15] National Plastics Standardization Technical Committee. Determination
for dissolving velocity of powder polyacrylamide: GB/T 12005.8—
HMMAM 成功提升了聚丙烯酰胺共聚物的各
1989[S]. Beijing: China Standard Press (中国标准出版社), 1989.
项耐受性能，使其能够在油田三次开采领域发挥出（下转第 1728 页）

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