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Artykuły w czasopismach na temat „Water drive reservoir”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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1

Malinda, Marmora Titi, Sutopo Sutopo, and Muhammad Taufiq Fathaddin. "Improving Gas Recovery of Water Drive Gas Reservoir." Journal of Petroleum and Geothermal Technology 4, no. 2 (2023): 71. http://dx.doi.org/10.31315/jpgt.v4i2.10261.

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A gas reservoir with bottom water drive has lower recovery factor compared to depletion drive gas reservoir. Along with the increase in gas demand and the majority of gas reservoirs are water-drive, a method that are still being developed to increase the recovey factor in water-drive gas reservoir is co-production method. This method reducing water influx by planned water production. In this study, a conceptual model of gas reservoir with depletion-drive and water-drive is build and being analyzed. Co-production technique is applied by adding one water production well to the water-drive gas re
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2

Zhang, Lei. "Water Flooding Curve in Determining the A Reservoir Water Flood Sweep Efficiency." Advanced Materials Research 650 (January 2013): 681–83. http://dx.doi.org/10.4028/www.scientific.net/amr.650.681.

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A reservoir in the Jurassic natural water drive development of sandstone reservoirs, reservoir rock sandstone and siltstone and fine particle size, carbonatites cement content less, does not affect the reservoir properties. A reservoir average porosity of 18% and average permeability of 45 × 10-3μm2, belongs in porosity and low permeability reservoir, and the reservoir was not continuous development, strong heterogeneity. A reservoir development characteristics, application of water flooding curve and the related empirical formula A reservoir water flooding sweep efficiency.
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3

Zhang, Lei, and Guo Ming Liu. "Analysis Development Status of A12 Reservoir." Advanced Materials Research 650 (January 2013): 664–66. http://dx.doi.org/10.4028/www.scientific.net/amr.650.664.

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A12 oil and gas reservoirs in L Oilfield Carboniferous carbonate rocks of oil and gas bearing system, saturated with the gas cap and edge water and bottom water reservoir. The A12 oil and gas reservoir structure the relief of the dome-shaped anticline, oil, gas and water distribution controlled by structure, the gas interface -2785 meters above sea level, the oil-water interface altitude range -2940 ~-2980m, average-2960m. Average reservoir thickness of 23m, with a certain amount of dissolved gas drive and gas cap gas drive energy, but not very active edge and bottom water, gas cap drive index
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4

Cui, Chuanzhi, Guobiao Wang, and Shuiqingshan Lu. "Study on the influencing factors of productivity under pressure drive development in low permeability reservoir." E3S Web of Conferences 375 (2023): 01050. http://dx.doi.org/10.1051/e3sconf/202337501050.

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The productivity of low-permeability reservoirs is affected by multiple factors. After the development of water injection by pressure drive, it will also be affected by factors such as construction, resulting in large differences in the productivity of different oil wells. According to reservoir engineering knowledge, the factors affecting the productivity of pressure drive water injection development are preliminarily determined. The conceptual model of pressure drive water injection development of low permeability reservoir is established by numerical simulation method. Combined with orthogo
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5

Li, Ji Qiang, Tao Li, Zhi Lin Qi, Wen De Yan, and Ying Zhong Yuan. "Systematic Evaluation Method of Water Aquifer Energy for Water-Drive Gas Reservoir." Advanced Materials Research 1092-1093 (March 2015): 1501–10. http://dx.doi.org/10.4028/www.scientific.net/amr.1092-1093.1501.

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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-dri
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6

Herawati, Ira. "Analisis Kinerja Tenaga Pendorong Reservoir dan Perhitungan Water Influx pada Perolehan Minyak Tahap Primer (Studi Kasus Lapangan Falipu)." Journal of Earth Energy Engineering 5, no. 2 (2016): 18–32. http://dx.doi.org/10.22549/jeee.v5i2.480.

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Primary recovery is the stage of oil production by relying on the natural ability of the driving force of the reservoir. Kind of driving force that is water drive reservoir, depletion drive, segregation drive and a combination drive. The pressure drop occurred along its produced oil from the reservoir. Reservoir so that the driving force is the main parameter in maintaining reservoir pressure balance. Through the concept of material balance is the determination of the type of propulsion quifer reservoir and the power that generates driving force parameter analysis capability and aquifer in oil
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7

Wang, Xi. "Evaluation of the Development Effect of Oilfield Water Injection." International Journal of Natural Resources and Environmental Studies 3, no. 1 (2024): 20–30. http://dx.doi.org/10.62051/ijnres.v3n1.04.

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Shannan Oilfield Shachu 5 block is a typical elastic dissolved gas-driven lithological reservoir, and the underground oil and water distribution is very complicated due to the long-term water injection and drive, and after the implementation of a large number of water injection measures, it is necessary to analyse and evaluate the effect of water-driven development in this block. Through the screening index, the evaluation of water drive development effect is carried out by adopting the water content increase rate, water drive index, water storage rate and control as the main indexes. The eval
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8

Haas, Travis C., Michael J. Blum, and David C. Heins. "Morphological responses of a stream fish to water impoundment." Biology Letters 6, no. 6 (2010): 803–6. http://dx.doi.org/10.1098/rsbl.2010.0401.

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Water impoundment imposes fundamental changes on natural landscapes by transforming rivers into reservoirs. The dramatic shift in physical conditions accompanying the loss of flow creates novel ecological and evolutionary challenges for native species. In this study, we compared the body shape of Cyprinella venusta collected from eight pairs of river and reservoir sites across the Mobile River Basin (USA). Geometric morphometric analysis of the body shape showed that river populations differ from reservoir populations. Individuals inhabiting reservoirs are deep-bodied and have a smaller head,
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9

Patrick, Godwin Oyindobra Ossai1, and Nnaemeka Ohia2 Princewill. "Waterflooding: A key Option for Stratified Oil Reservoirs in the Niger Delta." International Journal of Engineering Works (ISSN: 2409-2770) 5, no. 09 (2018): 124–29. https://doi.org/10.5281/zenodo.1410815.

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This research work looked at the applicability concept of waterflooding as a key option for enhanced recovery of oil from stratified reservoirs in the Niger Delta, South of Nigeria. Waterflooding is a secondary recovery technique that commences after a homogeneous or multi-layered (stratified) reservoir has reached its economic limit by every possible primary recovery drives (i.e. natural drive mechanisms). The research also covered for Niger Delta the sweep/displacement efficiency deliverability of multi-layered (stratified) reservoirs, reservoir permeability ordering, the effect of waterfloo
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10

Naser, Madi, Omar Ibrahim Azouza, and Faraj Meftah Abousedrah. "Driving Oil Reservoir Mechanisms Estimation using Material Balance (MBAL Software) “A Case Study of Libyan Oil Fields”." Journal of Pure & Applied Sciences 20, no. 2 (2021): 101–11. http://dx.doi.org/10.51984/jopas.v20i2.1227.

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Material Balance (MBAL Software) is a software used for efficient reservoir development and helps the engineer better define reservoir drive mechanisms and hydrocarbon volumes. Natural forces in the reservoir that displace hydrocarbons out of the reservoir into the reservoir bore and up to surface. This paper estimates and compares of driving mechanisms using dynamic simulation in MBAL software and predictive material balance method after history matching of both of this model. Results from this paper shows functionality of MBAL in terms of history matching and performance prediction. The obje
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11

Li, Qianru. "Application of fine injection production technology in water drive reservoir." E3S Web of Conferences 416 (2023): 01011. http://dx.doi.org/10.1051/e3sconf/202341601011.

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As the basic condition for ensuring the stability of oil extraction in the development process of oil extraction in our country, some areas have entered the stage of high water cut development. It is very difficult to develop water drive reservoirs in the high water cut development stage, especially under the background of low oil price industry. How to ensure the orderly promotion of the beneficial development of water drive reservoirs and optimize the comprehensive quality of development has become the core of the development process of the industry and enterprises. The core of this is how t
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12

Hu, Qihao, Xin Mai, Xiuwei Wang, et al. "Study on main controlling factors of sandstone reservoir unsteady water drive development." Journal of Physics: Conference Series 2993, no. 1 (2025): 012047. https://doi.org/10.1088/1742-6596/2993/1/012047.

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Abstract In order to identify the main controlling factors affecting the unsteady water drive development, a conceptual model considering planar heterogeneity is established by using numerical simulation software. The main controlling factors affecting the unsteady water drive development are analyzed based on the numerical model. The geological factors mainly analyzed are planar heterogeneity, permeability, and crude oil viscosity. While the development factors are mainly analyzed from the aspects of recovery degree, pressure retention level, and water cut rise rate. The results show that the
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13

Huang, Quan Hua, Huai Zhong Wen, Li Zhang, and Tian Song. "Formation Pressure Calculation Based on Modified Flowing Material Balance Method." Advanced Materials Research 997 (August 2014): 868–72. http://dx.doi.org/10.4028/www.scientific.net/amr.997.868.

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Formation pressure is an important symbol of driving energy and the key problem of gas reservoir development. Therefore, the formation pressure’s evaluation is a very important work. Due to the invasion of edge-bottom water, using conventional "flow" material balance method to calculate the formation pressure is no longer applicable. According to the theory of reservoir pressure calculation based on flowing material balance method, we established a improved method to calculate the pressure of water drive gas reservoir and verified it by an example. The results show that: edge and bottom water
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14

Liu, Haicheng, and Binshan Ju. "Research on the Mechanism and Prediction Model of Pressure Drive Recovery in Low-Permeability Oil Reservoirs." Energies 17, no. 21 (2024): 5253. http://dx.doi.org/10.3390/en17215253.

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China boasts significant reserves of low-permeability oil reservoirs, and the economic and efficient development of these reservoirs plays a crucial role in enhancing oil and gas production. However, the “difficult injection and difficult recovery” issue in low-permeability oil reservoirs is a major challenge. To address this, research is conducted on the mechanism of pressure drive based on the mathematical model of oil-water seepage in low-permeability reservoirs and the model of fracture permeability. The study finds that pressure drive technology, by directly delivering the pressure drive
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15

Cai, Yu Chuan, Yong Jian Liu, Xiang Fang Li, et al. "A Study on the Technology of Steam - Hot Water - Nitrogen Compound Drive after Steam Channeling in Steam Flooding." Applied Mechanics and Materials 316-317 (April 2013): 854–59. http://dx.doi.org/10.4028/www.scientific.net/amm.316-317.854.

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Nowadays most heavy oil reservoirs are developed by thermal recovery methods, such as steam huff - puff and steam flooding. At the late stage of heavy oil steam drive, because of steam overlap in the upper reservoir formation, steam channeling can easily occur in production well. The research has shown that development effect of steam - nitrogen compound drive is not as good as consideration after steam channeling. But by injecting water slug can decrease the effect of steam channeling. For increasing water phase saturation in high permeability channel, steam and nitrogen gas relative permeabi
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16

Nishikiori, N., and Y. Hayashida. "Investigation of Fluid Conductive Faults and Modeling of Complex Water Influx in the Khafji Oil Field, Arabian Gulf." SPE Reservoir Evaluation & Engineering 3, no. 05 (2000): 401–7. http://dx.doi.org/10.2118/66223-pa.

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Summary This paper describes the multidisciplinary approach taken to investigate and model complex water influx into a water-driven sandstone reservoir, taking into account vertical water flux from the lower sand as a suspected supplemental source. The Khafji oil field is located offshore in the Arabian Gulf. Two Middle Cretaceous sandstone reservoirs are investigated to understand water movement during production. Both reservoirs are supported by a huge aquifer and had the same original oil-water contact. The reservoirs are separated by a thick and continuous shale so that the upper sand is c
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17

Jha, M., T. Tran, and D. Hawkins. "GEOSTEERING OF TWO HORIZONTAL WELLS IN SOUTH UMM GUDAIR FIELD: A SUCCESSFUL CASE HISTORY." APPEA Journal 45, no. 1 (2005): 55. http://dx.doi.org/10.1071/aj04005.

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The South Umm Gudair (SUG) oil field located in the Neutral zone between Kuwait and Saudi Arabia has produced since 1968 from an active water drive carbonate reservoir of Lower Cretaceous age. The lower zones are homogenous intervals of higher permeability which appear to be sufficiently swept by natural water drive over a period of time. The upper zones of the reservoir have lower permeability, are relatively thin and are bound by tighter intervals that act as possible barriers to the natural water drive system.Geosteering techniques are now extensively used in oil and gas industry for horizo
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18

Stenvold, Torkjell, Ola Eiken, and Martin Landrø. "Gravimetric monitoring of gas-reservoir water influx — A combined flow- and gravity-modeling approach." GEOPHYSICS 73, no. 6 (2008): WA123—WA131. http://dx.doi.org/10.1190/1.2991104.

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Knowledge of the magnitude and distribution of water influx can be essential for managing water-drive gas fields. Geophysical fieldwide monitoring can give valuable information, particularly offshore where well control is sparse and observation wells are expensive. Advances in the accuracy of seafloor time-lapse gravimetry have made this method feasible. It can quantify which areas are flooded, providing information complementary to well-monitoring, production, and 4D seismic data. Gravimetric monitoring may aid material-balance calculations, which are vital for assessing reservoir-drive mecha
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19

HAYASHI, KOKI. "Development of a bottom water drive reservoir." Journal of the Japanese Association for Petroleum Technology 51, no. 6 (1986): 532–40. http://dx.doi.org/10.3720/japt.51.532.

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20

Hussein, Marwa, Robert R. Stewart, Deborah Sacrey, David H. Johnston, and Jonny Wu. "Unsupervised machine learning for time-lapse seismic studies and reservoir monitoring." Interpretation 9, no. 3 (2021): T791—T807. http://dx.doi.org/10.1190/int-2020-0176.1.

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Time-lapse (4D) seismic analysis plays a vital role in reservoir management and reservoir simulation model updates. However, 4D seismic data are subject to interference and tuning effects. Being able to resolve and monitor thin reservoirs of different quality can aid in optimizing infill drilling or in locating bypassed hydrocarbons. Using 4D seismic data from the Maui field in the offshore Taranaki Basin of New Zealand, we generate typical seismic attributes sensitive to reservoir thickness and rock properties. We find that spectral instantaneous attributes extracted from time-lapse seismic d
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21

Al-Mahasneh, Mehaysen, Hussam Elddin Al-Khasawneh, Kamel Al-Zboon, Marwan Al-Mahasneh, and Ali Aljarrah. "Water Influx Impact on Oil Production in Hamzeh Oil Reservoir in Northeastern Jordan: Case Study." Energies 16, no. 5 (2023): 2126. http://dx.doi.org/10.3390/en16052126.

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This paper was conducted to delimit the water influx in the Hamzeh oil reservoir, located in northeastern Jordan approximately 150 km east of Amman. Petroleum reservoirs are frequently encompassed by water aquifers that back up the reservoir pressure through water inflow. When the pressure declines in a petroleum reservoir, the water aquifer responds by providing an influx of water. Gradually, the damage is reduced and then eliminated, and more oil is produced from the reservoir. The material balance equation (MBE) is used as the fundamental method for this study, predicting reservoir performa
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22

Oloro, John, and Erhimudia Friday Ukrakpor. "DETERMINATION OF WATER INFLUX IN RESERVOIR IN NIGER DELTA." Continental J. Engineering Sciences 6, no. 2 (2011): 37–44. https://doi.org/10.5281/zenodo.833933.

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Reservoirs produced by a mechanism termed water drive. Often this is called natural water drive to distinguish it from artificial water drive that involves the injection of water into the formation. Hydrocarbon production from the reservoir and the subsequent pressure drop prompt a response from the aquifer to offset the pressure decline. This response comes in a form of water influx. This paper is to determine water influx in reservoir in Niger Delta using van everdingen-hurst unsteady-state model . In doing this, the theoretical aspect of these models were looked at and validation of product
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23

Lin, Lexiao. "Analysis of Fracturing Effect of Recovered Wells in Class II Oil Reservoirs and Practices to Safeguard Fracturing Result." E3S Web of Conferences 329 (2021): 01034. http://dx.doi.org/10.1051/e3sconf/202132901034.

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In recent years, as the polymer drive of the main class I oil reservoir has been transferred to the subsequent water drive development, the class II oil reservoir has gradually become the main target of the three times oil recovery development, compared with the class I oil reservoir, the class II oil reservoir has the characteristics of relatively poor oil reservoir development and strong non-homogeneity. With the effect of the second-class oil layer successively, the fracturing target is mainly the second-class oil layer, but the fracturing effect becomes worse year by year, and it is diffic
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24

Cui, Li Hong. "Qualitative interpretation method of water flooding in independent off surface reservoir of Lamadian Oilfield." E3S Web of Conferences 165 (2020): 03039. http://dx.doi.org/10.1051/e3sconf/202016503039.

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With Lamadian Oilfield entering the late stage of ultra-high water cut, the number of thick layers in water drive is becoming less and less, so it is imperative to study the remaining oil in thin difference reservoir. For the thin difference reservoir, the independent off surface reservoir has naturally become an important research object [1]. It is necessary to study the waterflooding condition of the independent outer surface reservoirs to find out the producing law of the thin difference reservoirs at present. In this paper, we mainly use thewater washing data of independent outer surface r
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25

Tan, Jie, Ying-xian Liu, Yan-lai Li, Chun-yan Liu, and Song-ru Mou. "Study on oil displacement efficiency of offshore sandstone reservoir with big bottom water." Journal of Petroleum Exploration and Production Technology 11, no. 8 (2021): 3289–99. http://dx.doi.org/10.1007/s13202-021-01201-6.

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AbstractX oilfield is a typical sandstone reservoir with big bottom water in the Bohai Sea. The viscosity of crude oil ranges from 30 to 425 cp. Single sand development with the horizontal well is adopted. At present, the water content is as high as 96%. The water cut of the production well is stable for a long time in the high water cut period. The recoverable reserves calculated by conventional methods have gradually increased, and even the partial recovery has exceeded the predicted recovery rate. This study carried out an oil displacement efficiency experiment under big water drive multipl
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Zhao, Chun Sen, Chao Li, and Pei Jing Li. "The Deliverability of Horizontal Wells of the Oil-Water Fluid in Bottom Water Drive Reservoir." Applied Mechanics and Materials 318 (May 2013): 473–76. http://dx.doi.org/10.4028/www.scientific.net/amm.318.473.

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First, we researched permanent infiltrating fluid of horizontal well of the bottom water reservoir using the method of the mirror reflex ion and the potential superposition principle, so we obtained productivity formula of bottom water reservoir in the condition of monophase flow; On the basis of monophase flow, with the horizontal well productivity of monophase flow as the initial production, we deduced horizontal well productivity formula of two-phase flow of bottom water drive reservoir using the potential superposition principle and the method of equivalent filtrational resistance. This fo
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27

Bawahab, Mohammed, and Dmour Hazim. "Performance Analysis of a Water-Drive Oil Reservoir: An Oilfield Case Study." Geosciences and Engineering 11, no. 1 (2023): 117–32. http://dx.doi.org/10.33030/geosciences.2023.01.010.

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One of the primary responsibilities of a reservoir engineer is to evaluate the performance of hydrocarbon reservoirs to estimate the original hydrocarbons in place, reserves, ultimate oil/gas recovery factor. This responsibility becomes complicated in the case of water-drive reservoirs due to the high uncertainty associated with aquifer properties, including rock properties and aquifer geometry. This paper presents a new method to find the optimum aquifer model based on the root mean square error (RMSE) values by using MBAL software. The study investigated the transmissibility between the X, Y
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28

Nmegbu, C. G. J., Orisa F. Ebube, and Emmanuel Aniedi Edet. "Comparative Study of Oil Recovery Factor Determination for Edge and Bottom Water Drive Mechanism Using Water Influx Models." European Journal of Engineering and Technology Research 6, no. 5 (2021): 1–9. http://dx.doi.org/10.24018/ejers.2021.6.5.2493.

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The purpose of this research work is to comparatively study the oil recovery factor from two major aquifer geometry (Bottom and Edge water aquifer) using water aquifer model owing to the fact that most if not every reservoir is bounded by a water aquifer with relative size content (Most Large). These aquifers are pivotal in oil recovery factor (percent%), Cumulative oil produced (MMSTB) as well as overall reservoir performance the methodology utilized in this study involves; Identification of appropriate influx models were utilized for aquifer characterization. The characterizes of the Niger D
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Nmegbu, C. G. J., Orisa F. Ebube, and Emmanuel Aniedi Edet. "Comparative Study of Oil Recovery Factor Determination for Edge and Bottom Water Drive Mechanism Using Water Influx Models." European Journal of Engineering and Technology Research 6, no. 5 (2021): 1–9. http://dx.doi.org/10.24018/ejeng.2021.6.5.2493.

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The purpose of this research work is to comparatively study the oil recovery factor from two major aquifer geometry (Bottom and Edge water aquifer) using water aquifer model owing to the fact that most if not every reservoir is bounded by a water aquifer with relative size content (Most Large). These aquifers are pivotal in oil recovery factor (percent%), Cumulative oil produced (MMSTB) as well as overall reservoir performance the methodology utilized in this study involves; Identification of appropriate influx models were utilized for aquifer characterization. The characterizes of the Niger D
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Zhang, Heng, Mibang Wang, Wenqi Ke, Xiaolong Li, Shengjun Yang, and Weihua Zhu. "Study on Micro-Pressure Drive in the KKM Low-Permeability Reservoir." Processes 12, no. 3 (2024): 571. http://dx.doi.org/10.3390/pr12030571.

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Kazakhstan has abundant resources of low-permeability oil reservoirs, among which the KKM low-permeability oil reservoir has geological reserves of 3844 × 104 t and a determined recoverable reserve of 1670 × 104 t. However, the water flooding efficiency is only 68%, and the recovery efficiency is as low as 32%. The development of the reservoir faces challenges such as water injection difficulties and low oil production from wells. In order to further improve the oil recovery rate of this reservoir, our team developed micro-pressure-driven development technology based on pressure-driven techniq
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Mahmoud, Ahmed, Salaheldin Elkatatny, Weiqing Chen, and Abdulazeez Abdulraheem. "Estimation of Oil Recovery Factor for Water Drive Sandy Reservoirs through Applications of Artificial Intelligence." Energies 12, no. 19 (2019): 3671. http://dx.doi.org/10.3390/en12193671.

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Hydrocarbon reserve evaluation is the major concern for all oil and gas operating companies. Nowadays, the estimation of oil recovery factor (RF) could be achieved through several techniques. The accuracy of these techniques depends on data availability, which is strongly dependent on the reservoir age. In this study, 10 parameters accessible in the early reservoir life are considered for RF estimation using four artificial intelligence (AI) techniques. These parameters are the net pay (effective reservoir thickness), stock-tank oil initially in place, original reservoir pressure, asset area (
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32

Zhang, Jie, Xizhe Li, Weijun Shen, et al. "Study of the Effect of Movable Water Saturation on Gas Production in Tight Sandstone Gas Reservoirs." Energies 13, no. 18 (2020): 4645. http://dx.doi.org/10.3390/en13184645.

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The movable water saturation of tight sandstone reservoirs is an important parameter in characterizing water production capacity, and there is a great need to understand the relationship between movable water saturation and water production characteristics. However, movable water behavior in this context remains unclear. In this study, four groups of tight sandstone cores from the Sulige gas field are measured to understand the movable water saturation characteristics. Then, the effects such as reservoir micropore throat, clay mineral and physical properties on movable water saturation are ana
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Fang, Feifei, Sijie He, Jian Zhuang, Jie Zhang, and Yanan Bian. "Large-Scale Physical Simulation Experiment of Water Invasion Law for Multi-Well Development in Sandstone Gas Reservoirs with Strong Water Drive." Applied Sciences 14, no. 17 (2024): 8067. http://dx.doi.org/10.3390/app14178067.

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In order to clarify the water invasion law and residual gas distribution characteristics in edge and bottom water gas reservoirs with multi-well development, a large-scale three-dimensional physical simulation model was developed and a physical simulation experiment method for the water invasion law of multi-well development in sandstone gas reservoirs with strong water drives was established. Water invasion physical simulation experiments of multi-well development under the conditions of different water body multiples and production systems were conducted. The results show the following: (1)
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34

UEDA, Yoshiaki, Kazuya KOYAMA, and Kazuo FUJITA. "The study of water coning for bottom water drive reservoir." Journal of the Japanese Association for Petroleum Technology 53, no. 6 (1988): 517–24. http://dx.doi.org/10.3720/japt.53.517.

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35

Eiroboyi, I., and P. O. Obeta. "The Performance of a Vertical Well Subject to Edge Water Drive." Advanced Materials Research 1025-1026 (September 2014): 974–78. http://dx.doi.org/10.4028/www.scientific.net/amr.1025-1026.974.

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The economics and productivity of any reservoir is strongly connected to the ultimate recovery of the reservoir, this is chiefly govern by the strength or performance of that reservoir. In order to be able to understand the ability of the formation to produce fluid and characterize the reservoir properly, well testing is use to carry out this analysis.
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Albadan, Deema, Mojdeh Delshad, Bruno Ramon Batista Fernandes, Esmail Eltahan, and Kamy Sepehrnoori. "Analytical Estimation of Hydrogen Storage Capacity in Depleted Gas Reservoirs: A Comprehensive Material Balance Approach." Applied Sciences 14, no. 16 (2024): 7087. http://dx.doi.org/10.3390/app14167087.

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The efficient use of depleted gas reservoirs for hydrogen storage is a promising solution for transitioning to carbon-neutral energy sources. This study proposes an analytical framework for estimating hydrogen storage capacity using a comprehensive material balance approach in depleted gas reservoirs. The methodology integrates basic reservoir engineering principles with thermodynamic considerations to accurately estimate hydrogen storage capacity in both volumetric drive and water drive gas reservoirs through an iterative approach based on mass conservation and the real gas law. This framewor
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37

Shichao, Chai, Li Xiang, Zheng Jianjun, Li Enlin, and Ren Yuxuan. "Application of Liquid Flow Cavitation Reservoir Micro Modification Technology in Improving Water Drive Effect in Poor Reservoirs of Bohai A Oilfield." American Journal of Energy Engineering 13, no. 2 (2025): 47–53. https://doi.org/10.11648/j.ajee.20251302.11.

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B9~B8H are the corresponding well groups for injection and production in Bohai River facies A oilfield. There are poor reservoir bands about 100~300m away from the injection well B9, with poor connectivity between oil and water wells. The wellhead pressure of the injection well rises rapidly, resulting in long-term under injection. The water drive effect of the production well B8H is poor, making it a low yield and low efficiency well. Conventional measures such as acidification, microfracturing, and pressurized water injection have limited treatment radii, and fracturing also poses a risk of
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38

L.E Wenno, Gorgeous, Suryo Prakoso, and Puri Wijayanti. "Studi Simulasi Reservoir pada Reservoir Strong Water Drive untuk Meningkatkan Oil Recovery." Journal of Engineering Environtmental Energy and Science 2, no. 1 (2024): 1–16. http://dx.doi.org/10.31599/5rddd439.

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Lapangan “DMH” memiliki tenaga dorong utama yang berasal dari lapisan akuifer besar sehingga lapangan ini tergolong sebagai strong water drive reservoir. Jumlah kumulatif produksi minyak lapangan DMH sejak tahun 1998 sebesar 2.796 MMSTB atau sekitar 43,5% dari oil in place. Maksud dilakukannya penelitian ini adalah melakukan pemodelan dinamik reservoir X lapangan DMH adapun tujuannya adalah mendapatkan skenario pengembangan lapangan yang paling memungkinkan diterapkan untuk memperoleh incremental recovery yang paling optimum. Pemodelan reservoir dinamik dilakukan menggunakan simulator dengan m
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39

He, Shanbin, Wang Ce, Cui Zhengpan, Xue Fafeng, and Zheng Ping. "Density cutting volume fracturing technology for horizontal well in ultra-low permeability reservoir in Yuan284 area." Advances in Engineering Technology Research 1, no. 1 (2022): 47. http://dx.doi.org/10.56028/aetr.1.1.47.

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The ultra-low permeability reservoir in Huaqing oilfield presents the characteristics of obvious non Darcy seepage, difficult matrix displacement, channeling of injected water along the waterflooding-induced fracture, and low production of single well in horizontal well development. Conventional water injection development is difficult to adapt to the current economic development. It is urgent to explore the effective development mode of horizontal well in ultra-low permeability reservoir, that is, to transform water-flooding development mode. Based on the mechanism of imbibition oil recovery,
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40

Jia, Fengjuan, Chang Qing Lin, Wenkai Zhao, Le Liu, and Chao You. "Discussion on the development practice of low permeability reservoir of beach bar in saltwater lake basin—Take Wu5 block of Wunan Oilfield in Qaidam Basin as an example." Journal of Physics: Conference Series 2834, no. 1 (2024): 012196. http://dx.doi.org/10.1088/1742-6596/2834/1/012196.

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Abstract Based on the analysis of field outcrops, drilling cores, casting thin sections, logging interpretation, and development characteristics in the southwestern region of the Qaidam Basin, combined with the sedimentary characteristics, development patterns, and injection production well networks of the Neogene saline lake facies beach and dam in the southwestern region of the Qaidam Basin, his study aims to optimize the displacement system and improve the production rate. This paper counters the difficulty of Severely reservoir heterogeneity and interlayer contradictions low producing degr
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41

Eiroboyi, I., and P. O. Obeta. "The Effects of Reservoir Area Extent on the Performance of a Vertical Well in a Reservoir Subject to Bottom Water Drive." Applied Mechanics and Materials 752-753 (April 2015): 790–95. http://dx.doi.org/10.4028/www.scientific.net/amm.752-753.790.

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Reservoir performance can be understood from system type curves. The type curve gives vivid information about maximum pressure drops, magnitude of near wellbore effects, reservoir fluid and wellbore properties needed to ascertain the strength of available drive mechanism, maximum withdrawal rates and remaining fluid in real time. This paper investigates the effects of reservoir area extent on the performance of a reservoir, subject to active bottom water, when it is completed with a vertical well. Type curves of dimensionless pressures and dimensionless pressure derivatives were produced for v
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42

Wang, Jian Huai, and Wei Nan Zhang. "Remaining Oil Development Study of a Nature Water Drive Reservoir in the High Water Cut Stage." Applied Mechanics and Materials 522-524 (February 2014): 1346–50. http://dx.doi.org/10.4028/www.scientific.net/amm.522-524.1346.

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Taking M reservoir of D field as an example, analyzing the development feature of a thick sandstone reservoir in the high water cut stage which is driven by natural water, and studying the distribution law of remaining oil for this reservoir through 3 aspects: sweeping of the edge-bottom water, completeness of the well pattern and barrier of the partial interbed, and expounding the development method and effect of this thick sand reservoir in the high water cut stage through exploiting 3 kinds of remaining oil rich regions as fellows: the region which is not swept by the edge-bottom water; inc
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43

Wang, Yong, Hanqiao Jiang, Zhiqiang Wang, Pengxiang Diwu, and Junjian Li. "Study on the Countermeasures and Mechanism of Balanced Utilization in Multilayer Reservoirs at Ultra-High Water Cut Period." Processes 11, no. 11 (2023): 3111. http://dx.doi.org/10.3390/pr11113111.

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After entering the ultra-high water cut stage of multilayer oil reservoirs, the remaining oil is highly dispersed. Due to the continuous development of general water injection, the generation of advantageous channels makes interlayer contradictions more prominent, and the differences in the utilization between different layers are even greater. After the water drive development of multilayer oil reservoirs enters the ultra-high water cut stage, the development effect deteriorates year by year. Layer restructuring is an effective method of improving the water injection development effect and in
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44

Anietie, N. Okon, Appah Dulu, and U. Akpabio Julius. "Water Coning Prediction Review and Control: Developing an Integrated Approach." Journal of Scientific Research & Reports 14, no. 4 (2017): 1–24. https://doi.org/10.9734/JSRR/2017/33291.

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In petroleum industry, oil production strategy to circumvent water coning in reservoirs with strong water drive is quit challenging. To ameliorate this oil production related problem, several water coning prediction models and control approaches have been developed by researchers. The prediction approaches include analytical, empirical and numerical approach. The analytical and empirical prediction approaches are qualitative water coning prediction approach with limited field scale application. However, these approaches model predictions can gain field application if upscale. Numerical approac
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45

Huang, Jiaxi, Ruijun He, and Tao Shen. "Present Situation of Pressure Flooding Technology for Injection Enhancement in Low Permeability Reservoirs." International Journal of Electric Power and Energy Studies 3, no. 3 (2025): 33–40. https://doi.org/10.62051/ijepes.v3n3.05.

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Low permeability reservoir generally exists low permeability, small pore pressure, high start-up pressure gradient and difficult injection. Energy injection technology for low permeability reservoir is always concerned by people. Based on the difficulty of "no injection, no production" in low permeability reservoir, pressure drive water injection technology is put forward. This paper introduces pressure drive technology according to literature investigation and current situation of pressure drive technology at home and abroad.
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46

Pang, Jin, Tongtong Wu, Chunxi Zhou, Haotian Chen, Jiaao Gao, and Xinan Yu. "Influence of Clay Content on the Compaction and Permeability Characteristics of Sandstone Reservoirs." Processes 13, no. 6 (2025): 1835. https://doi.org/10.3390/pr13061835.

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Clay content is a critical geological parameter influencing the pore structure, compaction sensitivity, and flow capacity of sandstone reservoirs. In this study, representative Tertiary sandstones from a major sedimentary basin in western China were selected, covering natural and synthetic core samples with clay contents ranging from 20% to 70%. Utilizing a self-developed apparatus capable of both static and dynamic compaction experiments, we systematically performed staged static loading and gas–water two-phase displacement tests. This enabled us to obtain comprehensive datasets on porosity,
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47

Shi, Jian, Xiaolong Wan, Qichao Xie, et al. "Difference of Microfeatures among Diagenetic Facies in Tight Sandstone Reservoirs of the Triassic Yanchang Formation in the Midwestern Region, Ordos Basin." Mathematical Problems in Engineering 2021 (September 1, 2021): 1–11. http://dx.doi.org/10.1155/2021/5611786.

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Based on the background of sedimentary characteristics, a large amount of core and thin section analysis, taking Chang 6 reservoir of Yanchang Formation in the central and western Ordos Basin as an example, through the application of scanning electron microscopy, high-pressure mercury injection, nuclear magnetic resonance and microscopic water drive oil model, and other experimental test methods, the diagenetic facies types and microscopic pore structure characteristics of tight sandstone reservoirs are discussed and analyzed in depth. The results show that the average porosity loss rate cause
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48

Qin, Guoshuai, Jianwei Liu, Tianxiang Wang, Shiguo Xu, and Guangyu Su. "An Integrated Methodology to Analyze the Total Nitrogen Accumulation in a Drinking Water Reservoir Based on the SWAT Model Driven by CMADS: A Case Study of the Biliuhe Reservoir in Northeast China." Water 10, no. 11 (2018): 1535. http://dx.doi.org/10.3390/w10111535.

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Human activities, especially dam construction, have changed the nutrient cycle process at the basin scale. Reservoirs often act as a sink in the basin and more nutrients are retained due to sedimentation, which induces the eutrophication of the surface water system. This paper proposes an integrated methodology to analyze the total nitrogen (TN) accumulation in a drinking water reservoir, based on the soil and water assessment tool (SWAT) model driven by the China Meteorological Assimilation Driving Datasets for the SWAT model (CMADS). The results show that the CMADS could be applied to drive
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49

Li, Tingli, Zhiqian Yuan, Zhang Zhang, Chunyan Liu, and Mo Zhang. "Research and Practice on EOR Development Strategy of Water Drive Followed by Gas Drive in Fractured Carbonate Reservoir in Bohai Sea." Journal of Physics: Conference Series 2834, no. 1 (2024): 012001. http://dx.doi.org/10.1088/1742-6596/2834/1/012001.

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Abstract Focusing on the issues of high comprehensive water cut and low recovery degree following water flooding in the CFD 2-2 carbonate buried hill reservoir in the Bohai Sea, the productivity variation law, water cut rising characteristics and development effect of horizontal wells were analyzed based on different types of reservoir classification systems. The reservoir numerical simulation model of dual media coupling of matrix and fracture is established, and the analysis is done on the matrix and fracture production state, the distribution pattern of the residual oil, and the primary gov
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Zhou, Yuhui, Liang Pu, Sisi Dang, Jibo He, and Shuang Pu. "Study on Connectivity Analysis and Injection–Production Optimization of Strong Heterogeneous Sandstone Reservoir Based on Connectivity Method." Processes 11, no. 10 (2023): 2816. http://dx.doi.org/10.3390/pr11102816.

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The D reservoir in the Bongor Basin, southern Chad, is highly heterogeneous. In the stage of waterflood development, the injected water is seriously channeled along the dominant channel, and the water drive effect becomes worse. At the same time, due to the strong edge and bottom water, the water flooding situation is aggravated, the water cut is increased, and the development efficiency is reduced. To accurately identify the inter-well connectivity relationship, we developed a reservoir inter-well connectivity model based on the principle of inter-well connectivity and dynamic production data
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