Process for the upgrading of heavy crude oil, extra-heavy crude oil or bitumens through the addition of a biocatalyst

Abstract

A process for the upgrading of heavy crude oil, extra-heavy crude oil or bitumens through the addition of a biocatalyst in the hydrocarbon flow, that includes the steps of: i) selecting the biological material for the preparation of the biocatalyst; ii) dispersing the biocatalyst in the flow of heavy crude, extra-heavy crude or bitumen; and iii) subjecting the crude oil mixture and biocatalyst to a process of bioconversion, separation, recovery and subsequent thermal process of the biotreated crude oil. The bioactive material and process to prepare the biocatalyst are moreover provided.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

A detailed description of the characteristics of the invention is indicated below, with reference to the drawings that are attached, where:

FIG. 1: This is a schematic representation of the process of biochemical conversion related to this invention, for the production of an upgraded crude oil starting from heavy crude oil, extra-heavy crude oil or bitumens.

FIG. 2: This is a schematic representation of the process of biochemical conversion related to this invention.

Claims

1. A method for upgrading heavy crude oils, extra-heavy crude oils or bitumens through the action of a biocatalyst in the hydrocarbon flow, comprising: a. selecting the biological material from the group consisting of naphthalene negative, phenanthrene negative, pyrene positive, dibenzothiophene (DBT) negative, and indol negative Acinetobacter radioresistens; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT negative, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Bacillus fusiformis; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Comamonas testosteroni; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Comamonas testosteroni; naphthalene positive, phenanthrene negative, pyrene positive, DBT negative, and indol negative Chryseobacterium formosense; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas plecoglossicida; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Staphylococcus pasteuri; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Providencia stuartii; naphthalene positive, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Gamma proteobacterium; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; thermotolerant and surfactant producing Pseudomonas aeruginosa; Pseudomonas thermaerum; Providencia rettgeri; Pseudomonas pseudoalcaligenes; and Bacillus licheniformis; and/or pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium solani; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium proliferatum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Cladosporium sphaerospermum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Pestalotiopsis sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 2;pyrene positive, naphthalene positive, cyclohexane positive Penicillium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. fumigatus; pyrene positive, phenanthrene positive, DBT negative, naphthalene positive, cyclohexane positive Trichoderma sp. 1;pyrene positive, phenanthrene positive, DBT positive, cyclohexane positive Trichoderma sp. 2;pyrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Trichoderma sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. terreus; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 4;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Paecillomyces sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene negative, cyclohexane positive Fusarium sp.4for the preparation of the biocatalyst;b. dispersing the biocatalyst in the flow of heavy crude oils, extra-heavy crude oils or bitumen;c. subjecting the crude mixture and biocatalyst to a bioconversion process;d. breaking the emulsion and separating the biotreated crude; ande. submitting the biotreated crude to a thermal process, in order to provide upgraded crude oils.

2. The method of claim 1, where the step of selecting the bacterial biological material for the preparation of the biocatalyst from the group consisting of naphthalene negative, phenanthrene negative, pyrene positive, dibenzothiophene (DBT) negative, and indol negative Acinetobacter radioresistens; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT negative, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Bacillus fusiformis; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Comamonas testosteroni; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Comamonas testosteroni; naphthalene positive, phenanthrene negative, pyrene positive, DBT negative, and indol negative Chryseobacterium formosense; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas plecoglossicida; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Staphylococcus pasteuri; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Providencia stuartii; naphthalene positive, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Gamma proteobacterium; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; thermotolerant and surfactant producing Pseudomonas aeruginosa; Pseudomonas thermaerum; Providencia rettgeri; Pseudomonas pseudoalcaligenes; and Bacillus licheniformis; comprises:a. selecting at least one bacterial strain with capacity to degrade polyaromatic molecules and heavy crude oils, extra-heavy crude oils or bitumen;b. growing the bacterial strains separately in the M9 minimum culture medium supplemented with naphthalene as only source of carbon and energy; andc. recovering the cells and mixing them in M9 minimum culture.

3. The method of claim 1, where the step of selecting the bacterial biological material for the preparation of the biocatalyst from the group consisting of naphthalene negative, phenanthrene negative, pyrene positive, dibenzothiophene (DBT) negative, and indol negative Acinetobacter radioresistens; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT negative, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Bacillus fusiformis; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Comamonas testosteroni; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Comamonas testosteroni; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Comamonas testosteroni; naphthalene positive, phenanthrene negative, pyrene positive, DBT negative, and indol negative Chryseobacterium formosense; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas plecoglossicida; naphthalene negative, phenanthrene negative, pyrene positive, DBT negative, and indol negative Acinetobacter baumannii; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Staphylococcus pasteuri; naphthalene negative, phenanthrene negative, pyrene negative, DBT negative, and indol negative Providencia stuartii; naphthalene positive, phenanthrene negative, pyrene negative, DBT negative, and indol negative Ochrobactrum intermedium; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene positive, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; naphthalene positive, phenanthrene positive, pyrene negative, DBT positive, and indol positive Gamma proteobacterium; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas putida; naphthalene positive, phenanthrene negative, pyrene positive, DBT positive, and indol positive Pseudomonas fulva; thermotolerant and surfactant producing Pseudomonas aeruginosa; Pseudomonas thermaerum; Providencia rettgeri; Pseudomonas pseudoalcaligenes; and Bacillus licheniformis; comprises:a. selecting at least one bacterial strain with capacity to degrade polyaromatic molecules and heavy crude oils, extra-heavy crude oils or bitumen;b. growing the bacterial strains separately in the M9 minimum culture medium supplemented with naphthalene as only source of carbon and energy; andc. preparing the bacterial enzymatic extracts separately and then mixing them in Na—K buffer.

4. The method of claim 1, where the step of selecting the fungi biological material for the preparation of the biocatalyst from the group consisting of pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium solani; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium proliferatum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Cladosporium sphaerospermum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Pestalotiopsis sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 2;pyrene positive, naphthalene positive, cyclohexane positive Penicillium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. fumigatus; pyrene positive, phenanthrene positive, DBT negative, naphthalene positive, cyclohexane positive Trichoderma sp. 1;pyrene positive, phenanthrene positive, DBT positive, cyclohexane positive Trichoderma sp. 2;pyrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Trichoderma sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. terreus; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 4;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Paecillomyces sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene negative, cyclohexane positive Fusarium sp. 4comprises:a. selecting at least one fungus strain with capacity to degrade polyaromatic molecules and heavy crude oils, extra-heavy crude oils or bitumen; andb) inoculating fresh spores of the selected fungus in the Czapek minimum culture medium supplemented with naphthalene as only source of carbon and energy to obtain the inoculate that will constitute the biocatalyst.

5. The method of claim 1, where the step of selecting the fungi biological material for the preparation of the biocatalyst from the group consisting of CVCM No. pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium solani; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium proliferatum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Cladosporium sphaerospermum; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive Pestalotiopsis sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Neosartorya sp. 2;pyrene positive, naphthalene positive, cyclohexane positive Penicillium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 1;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 2;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. fumigatus; pyrene positive, phenanthrene positive, DBT negative, naphthalene positive, cyclohexane positive Trichoderma sp. 1;pyrene positive, phenanthrene positive, DBT positive, cyclohexane positive Trichoderma sp. 2;pyrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Trichoderma sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Aspergillus aff. terreus; pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Penicillium sp. 4;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Paecillomyces sp.;pyrene positive, phenanthrene positive, DBT positive, naphthalene positive, cyclohexane positive Fusarium sp. 3;pyrene positive, phenanthrene positive, DBT positive, naphthalene negative, cyclohexane positive Fusarium sp. 4comprises:a. selecting at least one fungus strain with capacity to degrade polyaromatic molecules and heavy crude oils, extra-heavy crude oils or bitumen;b) inoculating fresh spores of the selected fungus in the Czapek minimum culture medium supplemented with naphthalene as only source of carbon and energy; andc) preparing the bacterial enzymatic extracts separately and then mixing them in Na—K buffer.

6. The method of claim 1, where the biocatalyst is dispersed in aqueous phase of a heavy crude oil, extra-heavy crude oil or bitumen emulsion.

7. The method of claim 6, where the emulsion is of the oil/water (O/W) type in a proportion of water no greater than 70%.

8. The method of claim 6, in which the solution of the biocatalyst is diluted in the aqueous phase of the emulsion.

9. The method of claim 6, in which the biocatalyst is dispersed to directly conform an emulsion at well head, maintaining water in a proportion no greater than 50%.

10. The method of claim 2, where the biocatalyst in the aqueous phase comprises a titer no greater than 10 times the titer reached in the late exponential growth phase.

11. The method of claim 3, where the concentration of the enzymatic extract of the biocatalyst in the aqueous phase is up to 10 times greater than the concentration obtained form the titer reached in the late exponential growth phase.

12. The method of claim 4, where the fungus biocatalyst in the aqueous phase comprises a growth phase no greater than 96 hours.

13. The method of claim 5, where the concentration of the enzymatic extract of the fungus biocatalyst in the aqueous phase is up to 10 times greater than the concentration obtained from a culture grown up to 96 hours.

14. The method of claim 1, where the bioconversion occurs at a temperature of 9° C. to 70° C.

15. The method of claim 1, where the bioconversion occurs during a reaction time of 3 to 72 hours.

16. The method of claim 1, where the bioconversion occurs at an air pressure from 10 psi to 150 psi.

17. The method of claim 1, where the biotreated crude is separated breaking the emulsion through a convention crude-water separation process.

18. The method of claim 17, where the separated biotreated crude is recovered through a conventional process.

19. The method of claim 1, where the biotreated crude oil is subjected to any thermal process installed in the refinery or any other process established downstream, with operating temperature equal to or greater than 350° C.

20. The method of claim 1, whereby after the thermal process an upgraded crude oil is obtained.