×

Method for petroleum recovery and carbon dioxide sequestration in residual oil zones

  • US 10,087,720 B1
  • Filed: 04/24/2015
  • Issued: 10/02/2018
  • Est. Priority Date: 04/24/2014
  • Status: Active Grant
First Claim
Patent Images

1. A method of assessment, management and monitoring of the sequestration of carbon dioxide associated with CO2 enhanced oil recovery (EOR) operations bycharacterizing conditions within a residual oil zone (ROZ) to assess if it is a viable commercial CO2 EOR target, comprising;

  • identifying and obtaining one or more samples of media from an ROZ;

    quantitatively and qualitatively evaluating how in situ microbial self limitation (MSL) conditions govern the microbial processing of petroleum in the one or more samples obtained from the ROZ by a process comprising;

    identifying specific microbial consortia and associated metabolic pathways within the one or more samples obtained from the ROZ, wherein identifying the specific microbial consortia and associated metabolic pathways within the one or more samples comprises identification by domain and species and by heterotrophic and autotrophic metabolic pathways;

    determining the effects of microbial processes of the microbial consortia on mineral species within one or more of the samples obtained from the ROZ;

    thereafter determining how in situ MSL conditions govern the microbial processing of petroleum by the microbial consortia in the one or more samples taken from the ROZ to effect biogenic mineral production of amorphous, nano-crystalline and chaotic mineral forms having enhanced reactivity towards CO2 by a process comprising;

    determining the activity of the indigenous or introduced microbial consortia to the presence of petroleum hydrocarbons based on selective degradation and modification of native hydrocarbons species in the one or more samples;

    determining whether the modification of the native hydrocarbon species generates charged or polar species that interact with mineral surface charges to stimulate adsorption of petroleum hydrocarbons to mineral surfaces within the one or more samples;

    determining the effect of biosurfactants on the one or more samples obtained from the ROZ;

    determining the capacity for stimulation of iron reduction by the microbial consortia within the one or more samples;

    determining the effect of sulfate reduction, methanogenic and labile elemental systems, and processes and effects of microbial inhibition that prevent the substantially complete degradation of petroleum in the one or more samples; and

    combinations thereof;

    determining the ability of the amorphous, nano-crystalline and chaotic mineral forms having enhanced reactivity towards CO2 that were effected by the processing of petroleum by the microbial consortia in the one or more samples taken from the ROZ to sequester and store at least some injected CO2; and

    ,thereafter determining if the sampled ROZ can be economically developed using CO2 EOR techniques based in part on the determination of the effects of the microbial consortia on mineral species and the determination of how in situ MSL conditions govern the microbial processing of petroleum by the microbial consortia to effect biogenic mineral production of amorphous, nano-crystalline and chaotic mineral forms having enhanced reactivity towards CO2 within one or more of the samples obtained from the ROZ,wherein if it is determined that the ROZ can be economically developed using CO2 EOR techniques, thereafter injecting CO2 into the ROZ and monitoring the sequestration of injected CO2 associated with the CO2 EOR operation.

View all claims
  • 1 Assignment
Timeline View
Assignment View
    ×
    ×