Rate Decline Analysis of Vertically Fractured Wells in Shale Gas Reservoirs

Zhang, Xiaoyang; Xiao-dong, Wang; Hou, Xiaochun; Xu, Weiya

doi:10.3390/en10101602

Cited by 16 publications

(4 citation statements)

References 60 publications

(56 reference statements)

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“…Shale gas reservoirs (SGRs) have developed into a vital source in providing natural gas, with hydraulic fracking being the process used in the extraction of shale gas . However, consistently forecasting the reserves of shale basins over a long period has been a challenge .…”

Section: Introductionmentioning

confidence: 99%

Accuracy Assessment of Single and Hybrid Models for Predicting Shale Gas Production

Manda

Nkazi

2021

Energy Fuels

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The accuracy of a predictive tool determines the levels of trust in the model and its attraction for commercial usage. The study examined the single and hybrid model approach for shale gas production. Multilayer perception artificial neural network (ANN), autoregressive integrated moving average (ARIMA), and Arps–power law exponential hybrid decline models were developed to predict shale gas production and compared with the already developed Arps decline and power law exponential (PLE) decline models. By a trial-and-error approach, a multilayer perception (MLP) network with four neurons in the hidden layer was attained in the ANN structure to predict shale gas production. While for the ARIMA model, the number of nodes that showed the best performance indicated (2,1,2) for the two sets of data. Evaluation of the root mean square error (RMSE) values for the models showed that the Arps–power law exponential hybrid decline model had a lower percentage error in conjunction with good accuracy. The study found the Arps–power law exponential hybrid decline model to be a good forecaster of shale gas production and that hybrid models do deliver better accuracy over single models. A future revision of model assumptions may improve its accuracy and make the Arps–power law exponential hybrid decline model an attractive predictive tool.

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Section: Introductionmentioning

confidence: 99%

Accuracy Assessment of Single and Hybrid Models for Predicting Shale Gas Production

Manda

Nkazi

2021

Energy Fuels

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“…The well production performance and reservoir evaluation are of great significance for enhancing recovery in multilayer oil and gas field development [1][2][3]. Both production decline analysis and well testing analysis are important dynamic technologies for petroleum engineers to evaluate well performance [4][5][6]. During the past years, many researchers have investigated the production decline behavior and pressure response characteristics of the vertical commingled well.…”

Section: Introductionmentioning

confidence: 99%

Transient Behavior of Vertical Commingled Well in Vertical Non-Uniform Boundary Radii Reservoir

et al. 2020

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Transient behavior analysis, including rate transient analysis (RTA) and pressure transient analysis (PTA), is a powerful tool to investigate the production performance of the vertical commingled well from long-term production data and capture the formation parameters of the multilayer reservoir from transient well testing data. Current transient behavior analysis models hardly consider the effect of vertical non-uniform boundary radii (VNBR) on transient performances (rate decline and pressure response). The VNBR may cause an obvious novel radial flow regime and rate decline type, which can easily be mistaken as a radial composite reservoir. In this paper, we present a VNBR transient behavior analysis model, the extended vertical uniform boundary radii (VUBR), to investigate the rate decline behavior and pressure response characteristics through diagnostic type curves. Results indicate that the dimensionless production integral derivative curve or pressure derivative curve can magnify the differences so that we can diagnose the outer-convex shape and size of the VNBR. Therefore, it is significant to incorporate the effects of VNBR into the transient behavior analysis models of the vertical commingled well, and the model proposed in this paper enables us to better evaluate well performance, capture formation characteristics and diagnose flow regimes based on rate/pressure transient data.

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“…Later, Williams-Kovacs et al (2012) established an MBE considering adsorbed phase volume. Their studies indicate that the adsorbed phase volume has significant influences on the evaluation results of geological reserves (Zhang et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Flowing material balance method with adsorbed phase volumes for unconventional gas reservoirs

Han

Liu

2019

Energy Exploration & Exploitation

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This paper presents an improved flowing material balance method for unconventional gas reservoirs. The flowing material balance method is widely used to estimate geological reserves. However, in the case of the unconventional gas reservoirs, such as coalbed methane reservoirs and shale gas reservoirs, the conventional method is inapplicable due to the gas adsorption on the organic pore surface. In this study, a material balance equation considering adsorption phase volume is presented and a new total compressibility is defined. A pseudo-gas reservoir is simulated and the results were compared with the existing formulations. The results show that the proposed formulation can accurately get the geological reserves of adsorbed gas reservoirs. Furthermore, the results also show that the volume of the adsorbed phase has a significant influence on the analysis, and it can only be ignored when the Langmuir volume is negligible.

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Rate Decline Analysis of Vertically Fractured Wells in Shale Gas Reservoirs

Cited by 16 publications

References 60 publications

Accuracy Assessment of Single and Hybrid Models for Predicting Shale Gas Production

Accuracy Assessment of Single and Hybrid Models for Predicting Shale Gas Production

Transient Behavior of Vertical Commingled Well in Vertical Non-Uniform Boundary Radii Reservoir

Flowing material balance method with adsorbed phase volumes for unconventional gas reservoirs

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