Journal of Jilin University(Earth Science Edition) ›› 2016, Vol. 46 ›› Issue (2): 525-535.doi: 10.13278/j.cnki.jjuese.201602202

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Evaluation of Hot Dry Rock Resource Potential Under Different Reservoir Conditions in Xujiaweizi Area, Daqing

Guo Liangliang1, Zhang Yanjun1,2, Xu Tianfu2, Jin Xianpeng3   

  1. 1. School of Construction Engineering, Jilin University, Changchun 130026, China;
    2. Key Lab of Groundwater Resource and Environment, Ministry of Education, Jilin University, Changchun 130021, China;
    3. Downhole Operation Company of Daqing Oilfield, Daqing 163453, Heilongjiang, China
  • Received:2015-06-14 Published:2016-03-26
  • Supported by:

    Supported by the National High Technology Research and Development Program of China (2012AA052803), National Natural Science Foundation of China (41372239) and the Specialized Research Fund for the Doctoral Program of Higher Education of China (20110061110055)

Abstract:

To evaluate the hot dry rock (HDR) resource under different conditions in Xujiaweizi area in Daqing, based on the real logging data of one deep well we divided the existing conditions into several types. For each formation type, we proposed the corresponding fracturing strategy and created 3D fracturing model. Based on the stimulated reservoir, the hydro-thermal simulations were performed by using TOUGH2, and the extracted thermal energy was evaluated. The results indicate that Yingcheng formation is the most suitable reservoir for HDR development at present; the target formation based on feature fracture could be divided into tight and fractured formation; based on stress confinement condition, it could be subdivided to confined and unconfined formation; after 20 years operation (horizontal part length is 2000 m), the heat production from the confined and unconfined formation are 3500-5350 kJ/s and 5600-7760 kJ/s respectively, when the injection rate are 20 and 32 kg/s respectively; whereas the heat from naturally fractured formation is much higher than that from tight formation (injection rate is 30 kg/s, heat production is 17000-18500 kJ/s). Above all, the horizontal technique makes the tight formation also have the HDR resource development potential.

Key words: hot dry rock, hydraulic fracturing, horizontal well, hydro-thermal simulation, development potential

CLC Number: 

  • P641

[1] 雷宏武, 金光荣,李佳琦,等.松辽盆地增强型地热系统地热能开发热-水动力耦合过程[J]. 吉林大学学报(地球科学版), 2014,44(5):1633-1646. Lei Hongwu, Jin Guangrong, Lijiaqi, et al. Coupled Thermal-Hydrodynamic Processes for Geothermal Energy Exploitation in Enhanced Geothermal System at Songliao Basin, China[J]. Journal of Jilin University (Earth Science Edition), 2014,44(5):1633-1646.

[2] 许天福,张延军,曾昭发,等. 增强型地热系统(干热岩)开发技术进展[J].科技导报,2012,30(32):42-45. Xu Tianfu, Zhang Yanjun, Zeng Zhaofa, et al. Technology Progress in an Enhanced Geothermal System (Hot Dry Rock)[J]. Science & Technology Review, 2012,30(32):42-45.

[3] Hofmann H, Babadagli T, Zimmermann G. Hot Water Generation for Oil Sands Processing from Enhanced Geothermal Systems:Process Simulation for Different Hydraulic Fracturing Scenarios[J]. Applied Energy,2014,113:524-547.

[4] Van der Hoorn K, Heijnen L J, Gankema M E, et al. Hydraulic Fracturing in Limestone:A Case Study of Two EGS Projects in The Netherlands[C]//Proceedings of the 37th Workshop on Geothermal Reservoir Engineering.Stanford:Stanford University,2012.

[5] Zeng Y C, Wu N Y, Su Z, et al. Numerical Simulation of Heat Production Potential from Hot Dry Rock by Water Circulating Through a Novel Single Vertical Fracture at Desert Peak Geothermal Field[J]. Energy,2013,63:268-282.

[6] Huang X X, Zhu J L, Niu C K, et al. Heat Extraction and Power Production Forecast of A Prospective Enhanced Geothermal System Site in Songliao Basin, China[J]. Energy,2014,75:360-370.

[7] 周庆华,冯子辉,门广田. 松辽盆地北部徐家围子断陷现今地温特征及其与天然气生成关系研究[J].中国科学:D辑:地球科学,2007,37(增刊2):177-188. Zhou Qinghua, Feng Zihui, Men Guangtian. Research on Relationship Between Natural Gas Generation and Geothermal Characteristics in Xujiaweizi Depression Area in Northern Songliao Basin[J]. Science China:Series D:Earth Sciences, 2007,37(Sup.2):177-188.

[8] Nolte K G, Smith M. STIMPLAN User's Guide[R]. Tulsa:NSI Technologies, Inc, 2011.

[9] Zhang Y J,Li Z W,Guo L L,et al.Electricity Generation from Enhanced Geothermal Systems by Oilfield Produced Water Circulating Through Reservoir Stimulated by Staged Fracturing Technology for Horizontal Wells:A Case Study in Xujiaweizi Area in Daqing Oilfield, China[J]. Energy, 2014,78:788-805.

[10] Chabora E, Zemach E, Spielman P, et al. Hydraulic Stimulation of Well 27-15, Desert Peak Geothermal Field, Nevada, USA[C]//Proceedings, Thirty-Seventh Workshop on Geothermal Reservoir Engineering. Stanford:Stanford University, 2012:SGP-TR-194.

[11] Genter A, Fritsch D, Cuenot N, et al. Overview of the Current Activities of the European EGS Soultz Project:From Exploration to Electricity Production[C]//Proceedings, Thirty-Fourth Workshop on Geothermal Reservoir Engineering. Stanford:Stanford University, 2009:SGP-TR-187.

[12] Pruess K, Oldenburg C, Moridis G. TOUGH2 User's Guide Version 2.0[R]. Berkeley:Lawrence Berkeley National Laboratory, 1999.

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