Abstract
With growing global demand for hydrocarbons and decreasing conventional reserves, the gas industry is shifting its focus in the direction of unconventional reservoirs. Tight gas reservoirs have typically been deemed uneconomical due to their low permeability which is understood to be below 0.1mD, requiring advanced drilling techniques and stimulation to enhance hydrocarbons. However, the first step in determining the economic viability of the reservoir is to see how much gas is initially in place. Numerical simulation has been regarded across the industry as the most accurate form of gas estimation, however, is extremely costly and time consuming. The aim of this study is to provide a framework for a simple analytical method to estimate gas. Usually during production three variables are readily accessible: production rate, production time, and pressure-volume-temperature properties. This paper develops an analytical approach derived from the dynamic material balance proposing a new methodology to calculate pseudo time, with an interactive technique. This model encompasses pseudo functions accounting for pressure dependent fluid and rock variables. With the dynamic material balance yielding weak results in the linear flow regimes, an additional methodology derived from the volumetric tank model has been taken into consideration whereby equivalent drainage area is linked to total reservoir area. It has been shown even with short production data this volumetric approach yields accurate results. This proposed methodology has been validated against previous literature and additional cases considered to determine the sensitivity of each of it to reservoir parameters. Finally, it is shown that this method works for both fractured and unfractured wells in tight gas reservoirs, however, it is sensitive to the quantity of data based within the pseudo steady state flow period.
Highlights
The petroleum industry is quickly depleting conventional resources whilst worldwide demand for hydrocarbons continues to grow (Sadeq, 2018, Al-Fatlawi et al, 2019a, Al-Fatlawi et al, 2019b)
Tight gas reservoirs (TGRs) modelling can be a complicated expensive mission due to severe heterogeneities and uncertainties tied to reservoir parameters such as porosity and permeability providing a range of variable when history matching
This study investigates the application of the dynamic material balance and suggests a new methodology to calculate pseudo time improving the accuracy of estimations and reducing computation costs
Summary
The petroleum industry is quickly depleting conventional resources whilst worldwide demand for hydrocarbons continues to grow (Sadeq, 2018, Al-Fatlawi et al, 2019a, Al-Fatlawi et al, 2019b). Decline curve analysis is a simple approach and has been applied for many years (Sun, 2015 and Hazlett et al, 2021), whereby no engineering judgment is made regarding the reservoir a decline model is applied to cumulative production-pressure plots which are extrapolated to find GIIP. The volumetric approach is simple tank model approach where there is no influence beyond the reservoir boundaries (Al-Fatlawi et al, 2016, Huang et al, 2015). This is a simplest approach, and like reservoir simulation modelling, average reservoir properties must be determined acting as a source of uncertainty
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