Claims for Patent: 9,982,524
✉ Email this page to a colleague
Summary for Patent: 9,982,524
| Title: | Method of using viscosified fracture fluid to improve flow of liquids and gases from a subterranean fracture |
| Abstract: | A method of improving flow of liquids and gases from a subterranean fracture using a viscosified fracture fluid 1 formed by combining a solid proppant, a binding agent and an enzyme to form a proppant-immobilized enzyme 2, mixing the proppant-immobilized enzyme 2 with a second proppant 3 to form a heterogeneous proppant pack 4 and mixing said heterogeneous proppant pack 4 with a gelled liquid fracturing fluid 5 to form the viscosified fracture fluid 1 containing the heterogeneous proppant pack 4. The viscosified fracture fluid 1 containing the heterogeneous proppant pack 4 is pumped 6 into a subterranean zone 7 to form one or more fractures therein. The proppant-immobilized enzyme 2 that is part of the heterogeneous proppant pack 4 has the dual purpose of propping open the subterranean fractures and reducing the viscosity of the viscosified fracture fluid. |
| Inventor(s): | Desbarats; Andrew (Aurora, CA), Yacyshyn; Vince (Calgary, CA) |
| Assignee: | Immortazyme Company Ltd. (Calgary, Alberta, CA) |
| Application Number: | 14/786,070 |
| Patent Claims: | 1. A method of improving a flow of liquids and gases from one or more fractures in a subterranean zone comprising the steps of: pumping a fracture fluid comprising a
liquid fracturing fluid and a proppant immobilized enzyme into the subterranean zone to form the one or more fractures in the subterranean zone, wherein the proppant immobilized enzyme comprises a proppant, a viscosity-reducing enzyme, and a binding
agent binding the viscosity-reducing enzyme to the proppant so that the viscosity-reducing enzyme is immobilized on the proppant; propping open the one or more fractures by a portion of the proppant immobilized enzyme; reducing a viscosity of the
liquid fracturing fluid in the subterranean zone by the viscosity-reducing enzyme immobilized on the portion of the proppant immobilized enzyme to form a viscosity-reduced liquid fracturing fluid; and removing the viscosity-reduced liquid fracturing
fluid from the subterranean zone leaving the portion of the proppant immobilized enzyme in the subterranean zone to prop open the one or more fractures to allow the liquids and gases to flow from the one or more factures propped open by the portion of
the proppant immobilized enzyme.
2. The method of claim 1, further comprising removing an other portion of the proppant-immobilized enzyme from the one or more fractures along with the viscosity-reduced liquid fracturing fluid, recycling the other portion of the proppant-immobilized enzyme, and reusing the other portion of the proppant-immobilized enzyme in a second subterranean fracture. 3. The method of claim 1, wherein a rate of hydrolysis of the liquid fracturing fluid by the proppant-immobilized enzyme is between 10% and 25% of that of the viscosity-reducing enzyme from which the proppant-immobilized enzyme is derived. 4. The method of claim 1, wherein a half-life of the proppant-immobilized enzyme is equivalent to a half life of the viscosity-reducing enzyme from which the proppant-immobilized enzyme is derived. 5. The method of claim 1, wherein a rate of hydrolysis of the liquid fracturing fluid by the proppant-immobilized enzyme is between 26% and 50% of that of the viscosity-reducing enzyme from which the proppant-immobilized enzyme is derived. 6. The method of claim 1, wherein a rate of hydrolysis of the liquid fracturing fluid by the proppant-immobilized enzyme is over 100% of that of the viscosity-reducing enzyme from which the proppant-immobilized enzyme is derived. 7. The method of claim 1, wherein a half-life of the proppant-immobilized enzyme is 1.1-fold to 2-fold greater than a half life of the viscosity-reducing enzyme from which the proppant-immobilized enzyme is derived. 8. The method of claim 1, wherein a half-life of the proppant-immobilized enzyme is between 1.5 times and 5 times a half-life of the viscosity-reducing enzyme. 9. The method of claim 1, wherein the enzyme is a group 3 hydrolase. 10. The method of claim 1, wherein the enzyme comprises at least one enzyme selected from the group consisting of mannanase, alpha-amylase, glucoamylase, cellulase, hemicellulase, xylanase, beta-glucanase, cellobiohydrolase, xanthanase or asparaginase. 11. The method of claim 1, wherein the proppant comprises at least one proppant selected from the group consisting of sand, fracking sand, silica, aluminum silicate, zeolite, sintered bauxite, ceramic beads, glass beads, glycoxyl-agarose, curable or non-curable resin and metal particulate matter. 12. The method of claim 1, wherein the binding agent comprises a dialdehyde. 13. The method of claim 1, wherein the binding agent comprises a glutaraldehyde cross-linker. 14. A method of improving a flow of oil and gas from one or more fractures in a subterranean zone comprising the steps of: pumping a fracture fluid comprising a liquid fracturing fluid and a proppant immobilized group 3 hydrolase enzyme down a wellbore into the subterranean zone to form the one or more fractures in the subterranean zone, wherein the proppant immobilized enzyme comprises a proppant, a group 3 hydrolase enzyme, and a binding agent binding the group 3 hydrolase enzyme to the proppant so that the group 3 hydrolase enzyme is immobilized on the proppant; propping open the one or more fractures by a portion of the proppant immobilized group 3 hydrolase enzyme; reducing a viscosity of the liquid fracturing fluid in the subterranean zone by the group 3 hydrolase enzyme immobilized on the portion of the proppant immobilized group 3 hydrolase enzyme to produce a viscosity-reduced fracturing fluid; and removing the viscosity-reduced fracturing fluid from the subterranean zone and leaving the portion of the proppant immobilized enzyme in the subterranean zone to prop open the one or more fractures so that the oil or gas can flow through the one or more fractures into the wellbore. 15. The method according to claim 14, wherein the proppant comprises fracking sand granules. 16. The method according to claim 14, wherein the proppant comprises at least one proppant selected from the group consisting of sand, fracking sand, silica, aluminum silicate, zeolite, sintered bauxite, ceramic beads, glass beads, glycoxyl-agarose, curable or non-curable resin and metal particulate matter. 17. The method according to claim 14, wherein the binding agent comprises a dialdehyde. 18. The method according to claim 14, wherein the binding agent comprises a glutaraldehyde cross-linker. 19. The method of claim 14, further comprising removing an other portion of the proppant-immobilized enzyme from the one or more fractures along with the viscosity-reduced liquid fracturing fluid, recycling the other portion of the proppant-immobilized enzyme, and reusing the other portion of the proppant-immobilized enzyme in a second subterranean fracture. |
Details for Patent 9,982,524
| Applicant | Tradename | Biologic Ingredient | Dosage Form | BLA | Approval Date | Patent No. | Expiredate |
|---|---|---|---|---|---|---|---|
| Recordati Rare Diseases, Inc. | ELSPAR | asparaginase | For Injection | 101063 | 01/10/1978 | ⤷ Try a Trial | 2039-02-26 |
| >Applicant | >Tradename | >Biologic Ingredient | >Dosage Form | >BLA | >Approval Date | >Patent No. | >Expiredate |
Make Better Decisions: Try a trial or see plans & pricing
Drugs may be covered by multiple patents or regulatory protections. All trademarks and applicant names are the property of their respective owners or licensors. Although great care is taken in the proper and correct provision of this service, thinkBiotech LLC does not accept any responsibility for possible consequences of errors or omissions in the provided data. The data presented herein is for information purposes only. There is no warranty that the data contained herein is error free. thinkBiotech performs no independent verification of facts as provided by public sources nor are attempts made to provide legal or investing advice. Any reliance on data provided herein is done solely at the discretion of the user. Users of this service are advised to seek professional advice and independent confirmation before considering acting on any of the provided information. thinkBiotech LLC reserves the right to amend, extend or withdraw any part or all of the offered service without notice.
© Copyright 2002-2024 thinkBiotech LLC
ISSN: 2162-2639
Privacy and Cookies
Terms & Conditions
Site Map
DrugPatentWatch Alternatives
LOE / Major Patent Expirations 2024 - 2025
NCE-1 Patent Challenge Dates 2024 - 2025
Trigger-based marketing for the life sciences
Get DrugPatentWatch Business Intelligence Reports at Amazon.com
DrugChatter - AI-based answers to questions about drugs
RxJam - HIPAA-ready chat for life sciences
ISSN: 2162-2639
Privacy and Cookies
Terms & Conditions
Site Map
DrugPatentWatch Alternatives
LOE / Major Patent Expirations 2024 - 2025
NCE-1 Patent Challenge Dates 2024 - 2025
Trigger-based marketing for the life sciences
Get DrugPatentWatch Business Intelligence Reports at Amazon.com
DrugChatter - AI-based answers to questions about drugs
RxJam - HIPAA-ready chat for life sciences
Preferred Citation:
Friedman, Yali. "DrugPatentWatch" DrugPatentWatch, thinkBiotech, 2024, www.DrugPatentWatch.com.
See Primary Research Papers Citing DrugPatentWatch
Links
Follow DrugPatentWatch:
