鄂尔多斯盆地西缘上古生界低孔低渗测井储层预测
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摘要
本文为了在鄂尔多斯西缘上古生界低孔低渗储层的背景下预测相对高孔高渗储层,采用地质资料与测井评价相结合,对相对高孔隙带和裂缝发育带进行评价,分析了不同地区的它们的成因联系,进一步优选了有利高效储层。获得的主要研究成果和认识为:
1、上古生界石炭系羊虎沟组砂体以潮坪、泻湖沉积为主;太原组砂体南部为障壁岛沉积,北部为三角洲沉积。二叠系山西组、石盒子组和石千峰组砂体主要为河流、三角洲沉积。
2、贺兰山—横山堡地区处于逆冲带上,距物源近,成岩阶段早,压实作用弱,下石盒子至山西组高孔隙带普遍发育,而上石盒子组,仅在胜利井、图东断块半背斜和色东构造带上发育高孔隙带;天环坳陷带北部鄂托克前旗地区,离物源较近,物源充足,加之成岩作用阶段较早,有利于次生孔隙发育,下石盒子组和山西组高孔隙带发育;马家滩—惠安堡地区,芦参1井山西组主要处于逆冲带下盘,由于构造抬升造成地层承受压力得到释放而减小,压实作用减小,同时酸性地层水环境下,凝灰质填隙物不稳定性导致产生溶蚀粒间孔和高岭石晶间孔,因此芦参1井在山西组砂体中发育高孔隙带;平凉—沙井子地区,埋藏深度大,砂岩储层压实压溶作用强烈,原生粒间孔隙度少,成岩作用阶段晚,次生孔隙发育不明显,仅在镇探1井盒6和山1底部具相对高孔隙带。
3、综合分析,研究区构造显裂缝主要发育在北部贺兰山—横山堡地区和鄂托克前旗地区;而构造微裂隙主要发育在中部和南部。
4、最有利高效储层位于贺兰山—横山堡地区的下石盒子组至山西组以及胜利井、图东断块半背斜和色东构造带上的上石盒子组;较有利高效储层主要为鄂托克前旗以北地区的下石盒子组和山西组,以及位于冲断带下盘与芦参1井山西组沉积、成岩作用特征类似的储层;潜力高效储层为平凉—沙井子地区下石盒子组及山1段储层。
In order to predicted the relative high porosity and relative high permeability reservoirs on the background of low porosity and low permeability reservoirs of Upper Paleozoic in the western of Ordors Basin, The thesis evaluated the distribution of the relative high pore zone and the fracture zone and analyzed their genesis relationships of different region, and further selected the high-efficient reservoirs.
The results in the thesis are as follows:
1. The sandstone body of Yanghugou formation deposited mostly from tidal flat and lagoon. In Taiyuan formation, the southern sandstone body deposited from barrier islands, the northern sandstone body deposited from delta. In Shanxi formation, Shihezi formation and Shiqianfeng formation, the sandstone body deposited mainly from fluvial and delta deposition.
2. The Helan Mountains-Hengshanbao region located at the obduction zone .The region is nearby the main formation source, earlier diagenesis phases and weak compacting action. The higher porosity reservoir belts distributed generally in Lower Shihezi formation and Shanxi formation. However, the higher porosity reservoir belts in Upper Shihezi formation only distributed in the Shenglijing tectonic zone, the Tudong fault block and the Sedong tectonic zone. The Etuokeqianqi region is within nearer distance of the main formation source, enough sediment supply. They are of great advantage to the development of secondary porosity. The higher porosity reservoir belts distributed in Lower Shihezi formation and Shanxi formation in this region. Well Lucan 1 located at the dropped side of obduction zone in the Majiatan-Huianbao region. Owing to structure uplift resulted in stratum pressure decreased, it is weak compacting action. Under the control of acidic diagenetic environment, the instability of volcanic tuff filling resulted in the development of intergranular dissolution porosity and intercrystal porosity with Kaolinite filling. The higher porosity reservoir belts developed in Shanxi formation in Well Lucan 1. The diagenesis phases of Pingliang-Shajingzi region are later. Only the higher porosity reservoir belts developed in He 6 member and Shan 1 member in Well Zhentan 1.
3. The obvious fracture developed mainly in the Helan Mountains- Hengshanbao region and the Etuokeqianqi region, the northern of the western of Ordors Basin. The minor fracture developed mainly in the central and southern of the western of Ordors
1、上古生界石炭系羊虎沟组砂体以潮坪、泻湖沉积为主;太原组砂体南部为障壁岛沉积,北部为三角洲沉积。二叠系山西组、石盒子组和石千峰组砂体主要为河流、三角洲沉积。
2、贺兰山—横山堡地区处于逆冲带上,距物源近,成岩阶段早,压实作用弱,下石盒子至山西组高孔隙带普遍发育,而上石盒子组,仅在胜利井、图东断块半背斜和色东构造带上发育高孔隙带;天环坳陷带北部鄂托克前旗地区,离物源较近,物源充足,加之成岩作用阶段较早,有利于次生孔隙发育,下石盒子组和山西组高孔隙带发育;马家滩—惠安堡地区,芦参1井山西组主要处于逆冲带下盘,由于构造抬升造成地层承受压力得到释放而减小,压实作用减小,同时酸性地层水环境下,凝灰质填隙物不稳定性导致产生溶蚀粒间孔和高岭石晶间孔,因此芦参1井在山西组砂体中发育高孔隙带;平凉—沙井子地区,埋藏深度大,砂岩储层压实压溶作用强烈,原生粒间孔隙度少,成岩作用阶段晚,次生孔隙发育不明显,仅在镇探1井盒6和山1底部具相对高孔隙带。
3、综合分析,研究区构造显裂缝主要发育在北部贺兰山—横山堡地区和鄂托克前旗地区;而构造微裂隙主要发育在中部和南部。
4、最有利高效储层位于贺兰山—横山堡地区的下石盒子组至山西组以及胜利井、图东断块半背斜和色东构造带上的上石盒子组;较有利高效储层主要为鄂托克前旗以北地区的下石盒子组和山西组,以及位于冲断带下盘与芦参1井山西组沉积、成岩作用特征类似的储层;潜力高效储层为平凉—沙井子地区下石盒子组及山1段储层。
In order to predicted the relative high porosity and relative high permeability reservoirs on the background of low porosity and low permeability reservoirs of Upper Paleozoic in the western of Ordors Basin, The thesis evaluated the distribution of the relative high pore zone and the fracture zone and analyzed their genesis relationships of different region, and further selected the high-efficient reservoirs.
The results in the thesis are as follows:
1. The sandstone body of Yanghugou formation deposited mostly from tidal flat and lagoon. In Taiyuan formation, the southern sandstone body deposited from barrier islands, the northern sandstone body deposited from delta. In Shanxi formation, Shihezi formation and Shiqianfeng formation, the sandstone body deposited mainly from fluvial and delta deposition.
2. The Helan Mountains-Hengshanbao region located at the obduction zone .The region is nearby the main formation source, earlier diagenesis phases and weak compacting action. The higher porosity reservoir belts distributed generally in Lower Shihezi formation and Shanxi formation. However, the higher porosity reservoir belts in Upper Shihezi formation only distributed in the Shenglijing tectonic zone, the Tudong fault block and the Sedong tectonic zone. The Etuokeqianqi region is within nearer distance of the main formation source, enough sediment supply. They are of great advantage to the development of secondary porosity. The higher porosity reservoir belts distributed in Lower Shihezi formation and Shanxi formation in this region. Well Lucan 1 located at the dropped side of obduction zone in the Majiatan-Huianbao region. Owing to structure uplift resulted in stratum pressure decreased, it is weak compacting action. Under the control of acidic diagenetic environment, the instability of volcanic tuff filling resulted in the development of intergranular dissolution porosity and intercrystal porosity with Kaolinite filling. The higher porosity reservoir belts developed in Shanxi formation in Well Lucan 1. The diagenesis phases of Pingliang-Shajingzi region are later. Only the higher porosity reservoir belts developed in He 6 member and Shan 1 member in Well Zhentan 1.
3. The obvious fracture developed mainly in the Helan Mountains- Hengshanbao region and the Etuokeqianqi region, the northern of the western of Ordors Basin. The minor fracture developed mainly in the central and southern of the western of Ordors
引文
1.张小莉,王鹏等.鄂尔多斯盆地西缘老井单井评价研究报告.2005,长庆内部资料.
2.冯乔,张小莉,王鹏等.鄂尔多斯盆地西部前陆古生界储层评价研究报告.2005,长庆内部资料.
3.纪友亮,陈丽华等.鄂尔多斯盆地西缘重点地区上古层序地层及有效储层特征研究报告.2004,长庆内部资料.
4.陈孟晋,刘锐娥等.鄂尔多斯盆地前陆储层研究报告.2003,长庆内部资料.
5.李文厚,陈全红等.鄂尔多斯盆地前陆沉积体系研究报告.2004,长庆内部资料.
6.张家声.鄂尔多斯盆地西缘沉积—构造演化研究报告.2004,长庆内部资料.
7.邱隆伟,姜在兴,陈文学等.一种新的储层孔隙成因类型—石英溶解型次生孔隙[J].沉积学报,2002,20(4):621-627.
8.李捷,王海云等.东北部中生代断陷盆地储层次生孔隙形成机制[J].沉积学报,1999,17(4):591-595.
9.陈丽华,赵澄林,纪友亮等.碎屑岩天然气储集层次生孔隙的三种成因机理[J].石油勘探与开发,1999,26(5):77-79.
10.朱国华.碎屑岩储集层孔隙的形成、演化利预测[J].沉积学报,1992,10(3):114-123.
11.李义军.浅述次生孔隙的成因[J].西北地质,2002,35(1):65-69.
12.楚泽涵.声波测井原理.北京:石油工业出版社,1980.
13.碎屑岩成岩阶段划分SY/T5477-2003.石油天然气行业标准,2003.7.
14.刘林玉,陈刚,柳益群等.碎屑岩储集层溶蚀型次生孔隙发育的影响因素分析.沉积学报,1998,16(2):97-101.
15.V.恩格尔哈特.沉积物和沉积岩的成因.北京:地质出版社,1982.
16.谭廷栋.裂缝性油气藏测井解释模型与评价方法.北京:石油工业出版社,1987.
17.周文.裂缝性油气储集层评价方法.四川:四川科学技术出版社,1998.
18.谭廷栋.现代石油测井论文集.北京:石油工业出版社,1997.
19.谭廷栋等.测井学,北京:石油工业出版社,1998.
20.赵澄林,朱筱敏等.沉积岩石学.北京:石油工业出版社,2001,304-306.
21.翟光明.中国石油地质志.北京:石油工业出版社,1987.
22.欧阳健等.石油测井解释与储层评价.北京:石油工业出版社,1994.
23.惠斌耀等.鄂尔多斯盆地西部人中气田勘探方向及目标研究报告.1990,长庆内部资料.
24.中国石油勘探开发研究院廊坊分院.鄂尔多斯盆地西北部上古生界砂岩储集体工业制图及勘探目标评选.2001,鄂尔多斯分院内部资料.
25.汤锡元.郭忠铭等.陕甘宁盆地西缘逆冲推覆构造及油气勘探.西安:西北大学出版社,1992.
26.李清河,郭守年等.鄂尔多斯西缘与西南缘深部结构与构造.北京:地震出版社,1999.
27.杨俊杰,裴锡古等.中国天然气地质学(卷四).北京:石油工业出版社,1996.
28.邓起东,程绍平,闵伟等.鄂尔多斯块体新生代构造活动和动力学的讨论.地质力学学报.1999,5(3):13-21.
29.国家地震局《鄂尔多斯周缘活动断裂系》课题组.《鄂尔多斯周缘活动断裂系》.北京:??地震出版社,1988,1-335.
30.刘少峰.杨士恭等.鄂尔多斯盆地西缘南北差异及其形成机制.地质科学,1997,32(3):397-408.
31.汤锡元,郭忠铭等.鄂尔多斯盆地西缘地质构造演化特征.见:杨俊杰.鄂尔多斯盆地西缘掩冲带构造与油气.兰州:甘肃科学技术出版社,1990:77-90.
32.张进,马宗晋,任文军等.鄂尔多斯盆地西缘逆冲带南北差异的形成机制.大地构造与成矿,2000,24(2):124-133.
33.张进.陕甘宁地区古生代以来的构造及演化特征研究(博士学位论文).中国地震局地质研究所,2002,1-110.
34.张抗.鄂尔多斯断块构造利资源.西安:陕西科学技术出版社,1989.
35.孙国凡等.贺兰拗拉槽与前渊盆地及其演化.石油天然气地质,1983,4(3):14-19.
36.张小莉,沈英,陈文学等.利用测井资料分析成岩作用对储集层的影响.沉积学报,2000,18(1):127-131.
37.O.塞拉.测井解释基础与数据采集[M].北京:石油工业出版社,1992.
38.李素杰,李喜海等.测井技术在曙光低潜山带碳酸岩裂缝型储层评价中的应用.特种油气藏,2000,7(3):8-10.
39.张小莉,冯乔等.志丹探区延长组储集层裂缝特征及意义.西北地质,1998,19(3):24-27.
40.金燕,张旭等.测井裂缝参数估算与储层裂缝评价方法研究.天然气工业,2002,22增刊:64-67.
41.李舟波,刘四新,尚林阁等.神经网络划分变质岩裂缝性储层中的应用见:中国石油学会测井专业委员会94(西安)国际测井学术会议论文集.北京:石油工业出版社,1994,192-197.
42.伍先运,王克协,郭立等.利用声全波测井资料求取储层渗透率的方法与应用研究.地球物理学报,1995,38(增刊):224-231.
43.陈孟晋,刘锐娥,孙粉锦等.鄂尔多斯盆地西北部上古生界碎屑岩储层的孔隙结构特征初探[J].沉积学报,2002,20(4):639-643.
44.杨俊杰,裴锡古等.中国天然气地质学(卷四)(M).北京:石油工业出版社,1996.
45.王建伟,鲍志东等.前前陆盆地层系砂岩成岩环境特征及其孔隙演化.岩石矿物学杂志,2004,20(4):639-643.
46.罗利.低孔砂岩孔隙度计算方法及裂缝识别技术.测井技术,1999,23(1):33-37.
47.沃尔特,施密特等.砂岩成岩过程中的次生储集孔隙[M].北京:石油工业出版社,1982.272-276.
48.朱翔怡,于兴河等.鄂尔多斯盆地苏里格气田相对高渗砂体的成因及其岩石物理测井识别方法.石油实验地质,2004,26(4):389-393.
49.邸世祥.中国碎屑岩储集层孔隙结构[M].西安:西北大学出版社,1991.
50.赵重远.鄂尔多斯盆地的演化历史、形成机制和含油气有利地区,华北克拉通沉积盆地形成与演化及其油气赋存.西安:西北大学出版社,1990.
51.李善军.肖承文等.碳酸盐岩地层中裂缝孔隙度的定量解释[J].测井技术,1997,21(3):205-214.
52.吴文圣,陈钢花,雍世和等.利用双侧向测井方法判别裂缝的有效性.石油大学学报,2001,25(1):87-89.
53.赵军,张永忠等.横波各项异性在碳酸盐岩裂缝性储层评价中的应用,测井技术,2005.??29(2):118-120.
54.朱留方.交叉偶极子阵列声波测井资料在裂缝性储层评价中的应用.测井技术,2003,27(3):225-227.
55.江明.声波全波列测井的处理方法及应用.石油仪器,2005,29(5),53-58.
56. Rafaela Marfil, Michael Scherer et al. Diagenetic processes influencing porosity in sandstones form the Triassic Buntsandstein of the Iberian Range, spain. Sedimentary Geology, 1996, 105:203-109.
57. V. Schmidt, D. A. McDonald. Textures and recognition of secondary porosity in sandstones. Aspects of Diagenesis, 1979, 26:209-225.
58. G. Chia, P.S. Giles. Diagenetic history and porosity evolution of Upper Carboniferous sandstones from the Spring Valley #1 well, Maritimes Basin, Canada-implications for reservoir development, Journal of Geochemical Exploration, 2003,80:171-191.
59. F L. Paillet. Qualitative and quantitative interpretation of fiacture permeability using acoustic full-waveform logs. The Log Analyst, 1991, (May-June): 256-270
60. E D. Pittman et al. Organic acids in geological processes [C]. Berlin: Springer-verlag,1993, 1-481.
2.冯乔,张小莉,王鹏等.鄂尔多斯盆地西部前陆古生界储层评价研究报告.2005,长庆内部资料.
3.纪友亮,陈丽华等.鄂尔多斯盆地西缘重点地区上古层序地层及有效储层特征研究报告.2004,长庆内部资料.
4.陈孟晋,刘锐娥等.鄂尔多斯盆地前陆储层研究报告.2003,长庆内部资料.
5.李文厚,陈全红等.鄂尔多斯盆地前陆沉积体系研究报告.2004,长庆内部资料.
6.张家声.鄂尔多斯盆地西缘沉积—构造演化研究报告.2004,长庆内部资料.
7.邱隆伟,姜在兴,陈文学等.一种新的储层孔隙成因类型—石英溶解型次生孔隙[J].沉积学报,2002,20(4):621-627.
8.李捷,王海云等.东北部中生代断陷盆地储层次生孔隙形成机制[J].沉积学报,1999,17(4):591-595.
9.陈丽华,赵澄林,纪友亮等.碎屑岩天然气储集层次生孔隙的三种成因机理[J].石油勘探与开发,1999,26(5):77-79.
10.朱国华.碎屑岩储集层孔隙的形成、演化利预测[J].沉积学报,1992,10(3):114-123.
11.李义军.浅述次生孔隙的成因[J].西北地质,2002,35(1):65-69.
12.楚泽涵.声波测井原理.北京:石油工业出版社,1980.
13.碎屑岩成岩阶段划分SY/T5477-2003.石油天然气行业标准,2003.7.
14.刘林玉,陈刚,柳益群等.碎屑岩储集层溶蚀型次生孔隙发育的影响因素分析.沉积学报,1998,16(2):97-101.
15.V.恩格尔哈特.沉积物和沉积岩的成因.北京:地质出版社,1982.
16.谭廷栋.裂缝性油气藏测井解释模型与评价方法.北京:石油工业出版社,1987.
17.周文.裂缝性油气储集层评价方法.四川:四川科学技术出版社,1998.
18.谭廷栋.现代石油测井论文集.北京:石油工业出版社,1997.
19.谭廷栋等.测井学,北京:石油工业出版社,1998.
20.赵澄林,朱筱敏等.沉积岩石学.北京:石油工业出版社,2001,304-306.
21.翟光明.中国石油地质志.北京:石油工业出版社,1987.
22.欧阳健等.石油测井解释与储层评价.北京:石油工业出版社,1994.
23.惠斌耀等.鄂尔多斯盆地西部人中气田勘探方向及目标研究报告.1990,长庆内部资料.
24.中国石油勘探开发研究院廊坊分院.鄂尔多斯盆地西北部上古生界砂岩储集体工业制图及勘探目标评选.2001,鄂尔多斯分院内部资料.
25.汤锡元.郭忠铭等.陕甘宁盆地西缘逆冲推覆构造及油气勘探.西安:西北大学出版社,1992.
26.李清河,郭守年等.鄂尔多斯西缘与西南缘深部结构与构造.北京:地震出版社,1999.
27.杨俊杰,裴锡古等.中国天然气地质学(卷四).北京:石油工业出版社,1996.
28.邓起东,程绍平,闵伟等.鄂尔多斯块体新生代构造活动和动力学的讨论.地质力学学报.1999,5(3):13-21.
29.国家地震局《鄂尔多斯周缘活动断裂系》课题组.《鄂尔多斯周缘活动断裂系》.北京:??地震出版社,1988,1-335.
30.刘少峰.杨士恭等.鄂尔多斯盆地西缘南北差异及其形成机制.地质科学,1997,32(3):397-408.
31.汤锡元,郭忠铭等.鄂尔多斯盆地西缘地质构造演化特征.见:杨俊杰.鄂尔多斯盆地西缘掩冲带构造与油气.兰州:甘肃科学技术出版社,1990:77-90.
32.张进,马宗晋,任文军等.鄂尔多斯盆地西缘逆冲带南北差异的形成机制.大地构造与成矿,2000,24(2):124-133.
33.张进.陕甘宁地区古生代以来的构造及演化特征研究(博士学位论文).中国地震局地质研究所,2002,1-110.
34.张抗.鄂尔多斯断块构造利资源.西安:陕西科学技术出版社,1989.
35.孙国凡等.贺兰拗拉槽与前渊盆地及其演化.石油天然气地质,1983,4(3):14-19.
36.张小莉,沈英,陈文学等.利用测井资料分析成岩作用对储集层的影响.沉积学报,2000,18(1):127-131.
37.O.塞拉.测井解释基础与数据采集[M].北京:石油工业出版社,1992.
38.李素杰,李喜海等.测井技术在曙光低潜山带碳酸岩裂缝型储层评价中的应用.特种油气藏,2000,7(3):8-10.
39.张小莉,冯乔等.志丹探区延长组储集层裂缝特征及意义.西北地质,1998,19(3):24-27.
40.金燕,张旭等.测井裂缝参数估算与储层裂缝评价方法研究.天然气工业,2002,22增刊:64-67.
41.李舟波,刘四新,尚林阁等.神经网络划分变质岩裂缝性储层中的应用见:中国石油学会测井专业委员会94(西安)国际测井学术会议论文集.北京:石油工业出版社,1994,192-197.
42.伍先运,王克协,郭立等.利用声全波测井资料求取储层渗透率的方法与应用研究.地球物理学报,1995,38(增刊):224-231.
43.陈孟晋,刘锐娥,孙粉锦等.鄂尔多斯盆地西北部上古生界碎屑岩储层的孔隙结构特征初探[J].沉积学报,2002,20(4):639-643.
44.杨俊杰,裴锡古等.中国天然气地质学(卷四)(M).北京:石油工业出版社,1996.
45.王建伟,鲍志东等.前前陆盆地层系砂岩成岩环境特征及其孔隙演化.岩石矿物学杂志,2004,20(4):639-643.
46.罗利.低孔砂岩孔隙度计算方法及裂缝识别技术.测井技术,1999,23(1):33-37.
47.沃尔特,施密特等.砂岩成岩过程中的次生储集孔隙[M].北京:石油工业出版社,1982.272-276.
48.朱翔怡,于兴河等.鄂尔多斯盆地苏里格气田相对高渗砂体的成因及其岩石物理测井识别方法.石油实验地质,2004,26(4):389-393.
49.邸世祥.中国碎屑岩储集层孔隙结构[M].西安:西北大学出版社,1991.
50.赵重远.鄂尔多斯盆地的演化历史、形成机制和含油气有利地区,华北克拉通沉积盆地形成与演化及其油气赋存.西安:西北大学出版社,1990.
51.李善军.肖承文等.碳酸盐岩地层中裂缝孔隙度的定量解释[J].测井技术,1997,21(3):205-214.
52.吴文圣,陈钢花,雍世和等.利用双侧向测井方法判别裂缝的有效性.石油大学学报,2001,25(1):87-89.
53.赵军,张永忠等.横波各项异性在碳酸盐岩裂缝性储层评价中的应用,测井技术,2005.??29(2):118-120.
54.朱留方.交叉偶极子阵列声波测井资料在裂缝性储层评价中的应用.测井技术,2003,27(3):225-227.
55.江明.声波全波列测井的处理方法及应用.石油仪器,2005,29(5),53-58.
56. Rafaela Marfil, Michael Scherer et al. Diagenetic processes influencing porosity in sandstones form the Triassic Buntsandstein of the Iberian Range, spain. Sedimentary Geology, 1996, 105:203-109.
57. V. Schmidt, D. A. McDonald. Textures and recognition of secondary porosity in sandstones. Aspects of Diagenesis, 1979, 26:209-225.
58. G. Chia, P.S. Giles. Diagenetic history and porosity evolution of Upper Carboniferous sandstones from the Spring Valley #1 well, Maritimes Basin, Canada-implications for reservoir development, Journal of Geochemical Exploration, 2003,80:171-191.
59. F L. Paillet. Qualitative and quantitative interpretation of fiacture permeability using acoustic full-waveform logs. The Log Analyst, 1991, (May-June): 256-270
60. E D. Pittman et al. Organic acids in geological processes [C]. Berlin: Springer-verlag,1993, 1-481.