Systematic Evaluation Method of Water Aquifer Energy for Water-Drive Gas Reservoir

Ji Qiang Li; Tao Li; Zhi Lin Qi; Wen De Yan; Ying Zhong Yuan

doi:10.4028/www.scientific.net/AMR.1092-1093.1501

Paper Titles

The Applications of Cluster Analysis of Reservoir Evaluation in Chang 8 Oil Reservoirs of Baibao Oilfield
p.1480

The Characteristics of Tight Gas Reservoirs Microscopic Pore Structure - To Sulige Gas Field as an Example
p.1485

The Experimental Study and Mechanism Analysis on Flotation Separation of Tetradymite and Pyrite
p.1490

Types of Coal-Bearing Basin and Tectonic Unit in the Northwest Coal Hosting Area
p.1497

Systematic Evaluation Method of Water Aquifer Energy for Water-Drive Gas Reservoir
p.1501

Physical Design and Parameters Determination of Bubble Generator of Cyclonic Static Micro-Bubble Flotation Column
p.1511

Antioxidant Activity of Enzymatic Hydrolysates of High-Temperature Soybean Meal Pretreated with High Pressures
p.1519

Drying Temperature Affect Secondary Structure of Soybean Protein-Isolate/Carboxymethyl Cellulose/Stearic Acid Composite Films
p.1525

Effect of Drying Temperature on Performance of Soybean Protein-Isolate/Carboxymethyl Cellulose/Stearic Acid Composite Films
p.1529

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1092-1093Systematic Evaluation Method of Water Aquifer...

Systematic Evaluation Method of Water Aquifer Energy for Water-Drive Gas Reservoir

Abstract:

On the basis of present relevant research about water aquifer energy for water-drive gas reservoir, systematic evaluation method of water aquifer energy for water-drive gas reservoir is constructed from water invasion recognition, water aquifer size calculation, water influx volume calculation, water aquifer active degree evaluation and drive energy composition analysis. According to static and dynamic data of an actual typical water-drive gas reservoir, water aquifer energy was evaluated systematically. Research results indicated that this method can evaluate water aquifer energy of water-drive gas reservoir quickly and systematically, which can offer reference to development performance forecast and development adjustment of this kind of gas reservoir, and realize reasonable and effective development of this kind of gas reservoir.

You might also be interested in these eBooks

Sustainable Energy and Environmental Engineering III

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1092-1093)

Pages:

1501-1510

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1092-1093.1501

Citation:

Cite this paper

Online since:

March 2015

Authors:

Ji Qiang Li, Tao Li, Zhi Lin Qi, Wen De Yan, Ying Zhong Yuan

Keywords:

Systematic Evaluation, Water Aquifer Energy, Water Influx Volume, Water Invasion Model, Water Invasion Recognition, Water-Drive Gas Reservoir

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Li Chuandong. Recovering technology of fractured and watered gas reservoirs[J]. Natural Gas Industry, 2003, 23, supplementary issue, 123~126.

Google Scholar

[2] Xiong Yu, Yang Shuiqinget. al. A new method of water influx performance analysis on fracture gas reservoirs with bottom water[J]. Natural Gas Industry, 2010，30（1）：61-64.

Google Scholar

[3] Sun Zhidao. Production characteristics and the optimization of development schemes of fractured gas reservoir with edge or bottom water[J]. Petroleum exploration and development, 2002，29（4）：69-71.

Google Scholar

[4] He Xiaodong, Zou Shaolin, Lu Xiaomin. A preliminary discussion on mechanism and recognizing of water invasion characteristics in edge water drive gas reservoirs[J]. Natural Gas Industry, 2006，26（3）：87-89.

Google Scholar

[5] Cheng Kaihe, Jiang Tongwenet. al. A study on water invasion mechanism of the bottom-water gas reservoir in the ordovician system of Hetian-He gas field [J]. Natural Gas Industry, 2006，26（3）：87-89.

Google Scholar

[6] Li Chuanliang. Fundamentals of reservoir engineering. Beijing: Petroleum Industry Press, 2005：129-131.

Google Scholar

[7] Li Chuanliang. Determination of water influx in gas reservoirs [J]. Xinjiang Petroleum Geology, 2003，24(5): 430-431.

Google Scholar

[8] Chen Yuanqian. Judgement method of water invasion in natural gas reservoir [J]. Petroleum exploration and development, 1978，5（3）：51-57.

Google Scholar

[9] Schilthuis R J. Active Oil and Reservoir Energy[J]. Trans. AIME, 1936, 118: 33-52. (SPE 936033).

DOI: 10.2118/936033-g

Google Scholar

[10] Fetkovich M.J. A Simplified Approach to Water Influx Calculations-Finite Aquifer Systems[J].J. Pet. Tech. 1971: 814-828. (SPE 2603).

DOI: 10.2118/2603-pa

Google Scholar

[11] Wang Nutao, Tang Gang and Ren Hongwei. Optimized calculating method of aquifer influx and parameters for water drive gas reservoirs. Natural Gas Industry, 2005，25（5）：75-78.

Google Scholar

[12] Wang Nutao, Huang Bingguang, Zhang Congjun. A novel method of calculating water-flooded gas in place and water influx of water drive gas reservoirs [J]. Journal of southwest petroleum institute, 2000，22（4）：26-29.

Google Scholar

[13] Li Shilun. Natural gas engineering[M]. Beijing: Petroleum Industry Press , 2008：194-203.

Google Scholar