First Successful Application of Multi-Stage Proppant Fracturing on Horizontal Well in Carbonate Reservoirs in Iraq

Zhu, Deqing; Cui, Mingyue; Chen, Yandong; Wang, Yongli; Ding, Yunhong; Xiong, Chao; Liang, Chong; Yao, Fei; Wang, Xiaoyong; Cai, Wei; He, Yanhui; Ling, Zongfa; Wang, Dayong

doi:10.2118/205281-ms

Cited by 3 publications

(1 citation statement)

References 2 publications

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“…In the process of carbonate reservoir stimulation, Iraq's Halfaya oilfield has successfully adopted hydraulic fracturing operation and achieved good stimulation effect [19,20]. This provides a new idea for optimizing the stimulation process of carbonate reservoirs in the Middle East.…”

Section: Introductionmentioning

confidence: 99%

Study on Optimization of Stimulation Technology of Heterogeneous Porous Carbonate Reservoir

Zhao,

Xu,

Wang

et al. 2024

Processes

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Mishrif (M) reservoir of Faihaa (F) oilfield in Iraq is a heterogeneous porous carbonate reservoir. The reservoir properties of each reservoir unit differ greatly, and the distribution of porosity and permeability is non-uniform. Some reservoir units have the problem that the expected production cannot be achieved or the production decline rate is too fast after matrix acidification. This work optimized and compared the process of acid fracturing and hydraulic fracturing techniques. The Mishrif B (MB) and Mishrif C (MC) layers are selected as the target units for fracturing and the perforation intervals are optimized. The acid fracturing process adopted the acid fracturing technology of guar gum pad fluid and gelled acid multi-stage injection. According to the wellhead pressure limit and fracture propagation geometry, the pumping rate is optimized. The recommended maximum pumping rate of acid fracturing is 5.0 m3/min, and the optimized acid volume is 256.4 m3. The pressure changes during hydraulic fracturing and acid fracturing are different. It is recommended that the maximum hydraulic fracturing pump rate is 4.5 m3/min for MB and MC layers, and the amount of proppant in MB and MC layers is 37.5 m3 and 43.7 m3, respectively. The production prediction of two optimized processes is carried out. The results showed that the effect of acid fracturing in MB and MC layers is better than hydraulic fracturing, and it is recommended to adopt acid fracturing technology to stimulate MB and MC layers. Acid fracturing operation is carried out in the X-13 well, and better application results are achieved. The results of this study provide optimized reference ideas for reservoir stimulation in heterogeneous porous reservoirs.

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Section: Introductionmentioning

confidence: 99%

Study on Optimization of Stimulation Technology of Heterogeneous Porous Carbonate Reservoir

Zhao,

Xu,

Wang

et al. 2024

Processes

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Progress and prospects of oil and gas production engineering technology in China

ZHENG

SHI

CAO

et al. 2022

Petroleum Exploration and Development

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Achievements of Integrated Design for Multi-Stage Hydraulic Fracturing in Ultra-Low Permeability Carbonate Reservoirs: A Case Study in the Middle East

Liu,

Jin,

Chen

et al. 2023

Day 2 Wed, September 13, 2023

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S-T is an ultra-low permeability (0.03 mD-2.29 mD) porous limestone reservoir with moderate porosity (15%-17.6%) in H Oilfield in the Middle East. Compared to the conventional acidizing and acid fracturing, multi-stage hydraulic fracturing in this reservoir has great improvement on well productivity. This paper will present a case study of integrated design for multi-stage hydraulic fracturing in horizontal wells in S-T reservoir. An integrated geology-engineering-economy design is put forward based on the "Design-Implementation-Post Evaluation-Improvement cycle" strategy. Combining sedimentary and diagenesis facies, sweet spots are identified and further classified into four grades to optimize the well location. Then, according to the rock mechanics properties, production prediction and technical limitations, stimulation-completion-drilling proposals are carried out accordingly. After implementing multi-stage hydraulic fracturing, on-time post well evaluation is done to improve the designs for coming new wells. With the integrated design, smooth implementation and significantly improved productivity of individual well is obtained. Until the end of Jan 2023, nine (9) horizontal wells have been implemented multi-stage proppant fracturing and commissioned. Compared with previous wells which are under intermittent production, new wells’ performance become stable with higher initial rate (above 1500 bbl/d), 3-5 times of productivity improved and lower monthly decline rate (3%~1%). Furthermore, higher cumulative oil production helps to achieve quick cost recovery, guaranteed economic benefits with 2.5-3 months payout time under relatively high oil price. This good production performance illustrates the success of the integrated design for multi-stage hydraulic fracturing for horizontal wells, which lays a solid foundation for the S-T "Pilot-Scale up-Overall deployment" development. The experience gained from this case could also provide theoretical as well as practical information for similar reservoirs in the Middle East.

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First Successful Application of Multi-Stage Proppant Fracturing on Horizontal Well in Carbonate Reservoirs in Iraq

Cited by 3 publications

References 2 publications

Study on Optimization of Stimulation Technology of Heterogeneous Porous Carbonate Reservoir

Study on Optimization of Stimulation Technology of Heterogeneous Porous Carbonate Reservoir

Progress and prospects of oil and gas production engineering technology in China

Achievements of Integrated Design for Multi-Stage Hydraulic Fracturing in Ultra-Low Permeability Carbonate Reservoirs: A Case Study in the Middle East

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