Method for real-time interpretation of pressure transient test

1 . A method for predicting future production from a well, the method comprising: obtaining pressure measurements of well fluid during the pressure transient test; using the obtained pressure measurements to determine, through inversion and while continuing the pressure transient test, probabilistic estimates of input parameters of a pressure transient reservoir model; and estimating future production from the well based on the probabilistic estimates of the input parameters of the pressure transient reservoir model determined through inversion. 2 . The method of claim 1 , comprising terminating the pressure transient test in response to a determination that uncertainty in the estimated future production is below a predefined threshold value. 3 . The method of claim 1 , wherein using the obtained pressure measurements to determine probabilistic estimates of input parameters of the pressure transient reservoir model includes using the obtained pressure measurements to update previous probabilistic estimates of input parameters of the pressure transient reservoir model. 4 . The method of claim 3 , comprising providing initial probabilistic estimates of input parameters of the pressure transient reservoir model before beginning the pressure transient test within the well. 5 . The method of claim 1 , comprising: using the obtained pressure measurements to iteratively update, through inversion and while continuing the pressure transient test, the probabilistic estimates of input parameters of the pressure transient reservoir model; and iteratively refining an estimation of future production from the well based on the iteratively updated probabilistic estimates of the input parameters of the pressure transient reservoir model determined through inversion. 6 . The method of claim 1 , wherein estimating future production from the well based on the probabilistic estimates of the input parameters of the pressure transient reservoir model determined through inversion is performed during the pressure transient test. 7 . The method of claim 1 , wherein estimating future production from the well based on the probabilistic estimates of the input parameters of the pressure transient reservoir model determined through inversion includes using the probabilistic estimates of the input parameters of the pressure transient reservoir model determined through inversion as input parameters of a production prediction reservoir model. 8 . The method of claim 1 , wherein using the obtained pressure measurements to determine the probabilistic estimates of input parameters of the pressure transient reservoir model includes using the obtained pressure measurements to determine the probabilistic estimates of input parameters of the pressure transient reservoir model via inversion of an approximation of the pressure transient reservoir model. 9 . The method of claim 8 , comprising constructing the approximation of the pressure transient reservoir model. 10 . The method of claim 9 , wherein constructing the approximation of the pressure transient reservoir model includes constructing the approximation of the pressure transient reservoir model via polynomial chaos expansion or constructing a kriging-based approximation of the pressure transient reservoir model. 11 . The method of claim 1 , comprising performing a global sensitivity analysis to quantify contributions of uncertainty in the input parameters of the pressure transient reservoir model to uncertainty in an output of the pressure transient reservoir model, wherein performing the global sensitivity analysis includes constructing an approximation of the pressure transient reservoir model. 12 . The method of claim 1 , comprising: defining uncertain input parameters of the pressure transient reservoir model and a production prediction reservoir model; defining probability distributions for the uncertain input parameters; generating forward realizations of the pressure transient reservoir model; generating forward realizations of the production prediction reservoir model; quantifying contributions of uncertainty in the input parameters to uncertainty in a pressure transient response output of the pressure transient reservoir model; quantifying contributions of uncertainty in the input parameters to uncertainty in a predicted production output of the production prediction reservoir model; comparing the quantified contributions of uncertainty in the input parameters to uncertainty in the pressure transient response output with the quantified contributions of uncertainty in the input parameters to uncertainty in the predicted production output; and refining the pressure transient test to be performed within the well at the wellsite based on the comparison of the quantified contributions of uncertainty in the input parameters to the uncertainties in the pressure transient response output and the predicted production output so as to reduce uncertainty in the estimated future production. 13 . The method of claim 12 , wherein quantifying contributions of uncertainty in the input parameters to uncertainties in the pressure transient response output and the predicted production output includes performing global sensitivity analysis to quantify the contributions. 14 . The method of claim 13 , wherein performing global sensitivity analysis to quantify the contributions includes constructing approximations of the pressure transient reservoir model and the production prediction reservoir model. 15 . The method of claim 12 , wherein defining probability distributions for the uncertain input parameters includes using the obtained pressure measurements to determine, through inversion and while continuing the pressure transient test, probabilistic estimates of input parameters of the pressure transient reservoir model. 16 . The method of claim 15 , further comprising terminating the pressure transient test based on the comparison of the quantified contributions of uncertainty in the input parameters to the uncertainties in the pressure transient response output and the predicted production output if further uncertainty reduction in the estimated future production from the well is deemed unattainable from further continuing the pressure transient test. 17 . A method comprising: defining uncertain input parameters of a pressure transient reservoir model and a production prediction reservoir model; defining probability distributions for the uncertain input parameters; generating forward realizations of the pressure transient reservoir model; generating forward realizations of the production prediction reservoir model; quantifying contributions of uncertainty in the input parameters to uncertainty in a pressure transient response output of the pressure transient reservoir model; quantifying contributions of uncertainty in the input parameters to uncertainty in a predicted production output of the production prediction reservoir model; comparing the quantified contributions of uncertainty in the input parameters to uncertainty in the pressure transient response output with the quantified contributions of uncertainty in the input parameters to uncertainty in the predicted production output; refining a pressure transient test to be performed within a well at a wellsite based on the comparison of the quantified contributions of uncertainty in the input parameters to the uncertainties in the pressure transient response output and the predicted production output so as to reduce uncertainty in an estimated future production from the well; and perform