Reservoir Evaluation and Development ›› 2019, Vol. 9 ›› Issue (4): 36-40.
• Petroleum Engineering • Previous Articles Next Articles
ZHANG Xian1,CHE Hongchang2,LIU Yisheng2,CHEN Xin2
Received:
2018-09-28
Online:
2019-08-26
Published:
2019-08-28
CLC Number:
ZHANG Xian,CHE Hongchang,LIU Yisheng,CHEN Xin. Improved efficiency of in-situ combustion by application of submicro metal oxides particles[J].Reservoir Evaluation and Development, 2019, 9(4): 36-40.
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[1] | 刘海, 潘一, 冷俊 , 等. 国内外火烧油层研究进展与应用[J]. 当代化工, 2015,44(3):545-457. |
[2] | 王元基, 何江川, 廖广志 , 等. 国内火驱技术发展历程与应用前景[J]. 石油学报, 2012,33(5):909-914. |
[3] | 张方礼 . 火烧油层技术综述[J]. 特种油气藏, 2011,18(6):1-5. |
[4] | ZHANG X, LIU Q C, CHE H C . Parameters determination during in-situ combustion of Liaohe heavy oil[J]. Energy & Fuels, 2013,27(6):3416-3426. |
[5] | 蔡文斌, 谢志勤, 王霞 . 湿式燃烧的实验研究[J]. 特种油气藏, 2001,8(2):81-85. |
[6] | 程海清, 刘宝良, 赵庆辉 , 等. 超稠油燃烧基础参数特征研究[J]. 特种油气藏, 2012,19(2):107-110. |
[7] | 杨俊印. 火烧油层( 干式燃烧) 室内实验研究[J]. 特种油气藏, 2011,18(6):96-99. |
[8] | 柴利文, 金兆勋 . 中深厚层稠油油藏火烧油层试验研究[J]. 特种油气藏, 2010,17(3):67-69. |
[9] | 关文龙, 张霞林, 席长丰 , 等. 稠油老区直井火驱驱替特征与井网模式选择[J]. 石油学报, 2017,38(8):935-946. |
[10] | 胡士清, 白国斌, 赵春梅 . 火烧油层技术在庙5块低渗透稠油油藏中的应用[J]. 特种油气藏, 1998,5(4):33-37. |
[11] | OSSAI P G O, OHIA P N O, OBAH B , et al. In-situ combustion methods: Applicability to heavy oil reservoirs in the Niger Delta[J]. Petroleum Science and Technology, 2017,35(1):51-58. |
[12] | MOORE R G, LAURESHEN C J, MEHTA M G , et al. A downhole catalytic upgrading process for heavy oil using in-situ combustion[J]. Journal of Canadian Petroleum Technology, 1999,38(13):96-72. |
[13] | MUSA B A, HUGHES H . Comparison of conventional and catalytic in-situ combustion processes for oil recovery[J]. Energy & Fuels, 2009,23(1):186-192. |
[14] | KOK M, ISCAN A . Catalytic effects of metallic additives on the combustion properties of crude oils by thermal analysis techniques[J]. Journal of Thermal Analysis and Calorimetry, 2001,64(3):1311-1318. |
[15] | SHALLCROSS D, RIOS C, CASTANIER L , et al. Modifying in-situ combustion performance by the use of water-soluble additives[J]. SPE Reservoir Engineering, 1991,6(3):287-294. |
[16] | SHOKRLU Y H, MAHAM Y, TAN X , et al. Enhancement of the efficiency of in-situ combustion technique for heavy-oil recovery by application of nickel ions[J]. Fuel, 2013,105:397-407. |
[17] | 李巍, 刘永建, 田歆源 , 等. 重油中添加金属催化剂的火烧油层实验[J]. 油田化学, 2015,32(1):98-101. |
[18] |
樊铖, 张强, 魏飞 . 稠油的可控氧化热采:MnO2催化剂上的重油低温氧化分解行为[J]. 催化学报, 2015,36(2):153-159.
doi: 10.1016/S1872-2067(14)60236-9 |
[19] | 石岩松, 赵法军 . 应用于稠油降黏改质中的超分散纳米催化剂的研究进展与前景展望[J]. 当代化工, 2015,44(12):2805-2807. |
[20] | 鹿剑, 盛剑平, 骆建敏 , 等. 油溶性纳米Fe2O4催化稠油水热裂解降黏[J]. 广东化工, 2017,44(6):56-58. |
[21] | 唐君实, 关文龙, 梁金中 , 等. 热重分析仪求取稠油高温氧化动力学参数[J]. 石油学报, 2013,34(4):775-779. |
[22] | 关文龙, 马德胜, 梁金中 , 等. 火驱储层区带特征实验研究[J]. 石油学报, 2010,31(1):100-104. |
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