Abstract: Methods and systems are provided for rapidly estimating the hydrocarbon production potential of a subsurface hydrocarbon shale prospect or prospects. In short, the methods disclosed herein provide rapid mechanisms to determine sorbed gas storage of a shale reservoir with minimal delay and resource expenditure to aid operators in determining which prospects to exploit. In certain embodiments, an empirical implemented method for rapidly assessing hydrocarbon content of a shale reservoir comprises extracting one or more shale samples, performing a rock eval pyrolysis on the shale samples to determine certain geochemical properties of the shale, using the geochemical properties to determine a thermal maturity of the shale, determining a Langmuir volume of the shale, generating a adsorption isotherm of the shale, and determining a gas storage capacity of the shale. Advantages of the methods include a more efficient and rapid determination of shale gas storage with a minimal expenditure of resources.

Abstract: Methods and systems are provided for allocating production among reservoir compartments by way of compositional and isotopic analysis. That is, where individual reservoir compartments contribute differing amounts of fluid to a commingled production stream, the methods herein determine the relative contribution of fluid volume from each reservoir compartment. Both a composition-based relative contribution and an isotope-based relative contribution of fluid from each reservoir compartment may be determined to allocate production to each reservoir compartment, the determinations respectively being based on composition mass balances and stable carbon isotope mass balances of components. The combination of both allocation analysis provides quality checks on the results that identify improper allocations that may arise. In addition to production allocation, other applications include, among others, determining the effectiveness of intervention operations and providing feedback for adjusting operations.

Abstract: Methods and systems are provided for allocating production among reservoir compartments by way of compositional and isotopic analyses. That is, where individual reservoir compartments contribute differing amounts of fluid to a commingled production stream, the methods herein determine the relative contribution of fluid volume from each reservoir compartment. Both a composition-based relative contribution and an isotope-based relative contribution of fluid from each reservoir compartment may be determined to allocate production to each reservoir compartment, the determinations respectively being based on composition mass balances and stable carbon isotope mass balances of components. The combination of both allocation analyses provides quality checks on the results that identify improper allocations that may arise. In addition to production allocation, other applications include, among others, determining the effectiveness of intervention operations and providing feedback for adjusting operations.

Abstract: Methods and systems are provided for rapidly estimating the hydrocarbon production potential of a subsurface hydrocarbon shale prospect or prospects. In short, the methods disclosed herein provide rapid mechanisms to determine sorbed gas storage of a shale reservoir with minimal delay and resource expenditure to aid operators in determining which prospects to exploit. In certain embodiments, an empirical implemented method for rapidly assessing hydrocarbon content of a shale reservoir comprises extracting one or more shale samples, performing a rock eval pyrolysis on the shale samples to determine certain geochemical properties of the shale, using the geochemical properties to determine a thermal maturity of the shale, determining a Langmuir volume of the shale, generating a adsorption isotherm of the shale, and determining a gas storage capacity of the shale. Advantages of the methods include a more efficient and rapid determination of shale gas storage with a minimal expenditure of resources.