Abstract: A method for neutralizing hydrogen sulfide in a well using oxidants by installing a venturi jet pump between a packer and a tubing string in a reservoir, injecting oxidant into water forming a power fluid using a surface tension modification generator; continuously injecting the power fluid into tubing in the source well or oil field production well at 50 psi-5000 psi to an inlet nozzle of the venturi jet pump. Velocity increases and pressure decreases on the power fluid as fluid flows through the inlet nozzle. Simultaneously drawing in reservoir fluid and mixing with the power fluid in a draw down chamber forming a molecularly mixed fluid. Mixing oxidant with reservoir fluid for 0.1 to 10 seconds to scavenge hydrogen sulfide, methyl sulfide and/or explode cell membranes of anaerobic bacteria of the reservoir and discharging the treated stream from the venturi jet pump up an annulus of the wellbore to surface.
Abstract: A method for evaluating the potential effectiveness of refracking a previously fracked oil/gas well is accomplished by isolating a plurality of previously fracked zones of an oil/gas well in a formation and measuring the fluid flow rates from the isolated zones using a three phase flow meter positioned within the well at or near the previously fracked zones. The zones may be isolated by an isolation assembly which includes two packers connected by a perforated pipe and attached to a tubular positioned within the well.
Type:
Grant
Filed:
August 3, 2021
Date of Patent:
March 28, 2023
Assignee:
Tech Flo Consulting, LLC
Inventors:
William J. Jackson, Erik J. Reissig, James L. Miller, II
Abstract: A method for evaluating the potential effectiveness of refracing a previously fracked oil/gas well is accomplished by isolating a plurality of previously fracked zones of an oil/gas well in a formation and measuring the fluid flow rates from the isolated zones using a three phase flow meter positioned within the well at or near the previously fracked zones. The zones may be isolated by an isolation assembly which includes two packers connected by a perforated pipe and attached to a tubular positioned within the well.
Type:
Application
Filed:
August 3, 2021
Publication date:
November 25, 2021
Applicant:
Tech Flo Consulting, LLC
Inventors:
William J. Jackson, Erik J. Reissig, James L. Miller, II
Abstract: A method for evaluating the potential effectiveness of refracing a previously fracked oil/gas well is accomplished by isolating a plurality of previously fracked zones of an oil/gas well in a formation and measuring the fluid flow rates from the isolated zones using a three phase flow meter positioned within the well at or near the previously fracked zones. The zones may be isolated by an isolation assembly which includes two packers connected by a perforated pipe and attached to a tubular positioned within the well.
Type:
Application
Filed:
March 15, 2019
Publication date:
July 11, 2019
Applicant:
Tech Flo Consulting, LLC
Inventors:
William J. Jackson, Erik J. Reissig, James L. Miller, II
Abstract: A method for evaluating the potential effectiveness of refracing a previously fracked oil/gas well is accomplished by isolating a plurality of previously fracked zones of an oil/gas well in a formation and measuring the fluid flow rates from the isolated zones using a three phase flow meter positioned within the well at or near the previously fracked zones. The zones may be isolated by an isolation assembly which includes two packers connected by a perforated pipe and attached to a tubular positioned within the well.
Type:
Application
Filed:
July 24, 2018
Publication date:
November 15, 2018
Applicant:
Tech Flo Consulting, LLC
Inventors:
William J. Jackson, Erik J. Reissig, James L. Miller, II
Abstract: A hydraulically powered downhole jet pump is designed to provide greater flexibility in operations of wells producing oil, gas and/or water. The pump consists of a housing and a carrier assembly. The housing is attached to an inner threaded tubular member and run inside the well casing to a depth as required for optimal operations. The one piece carrier assembly is inserted and seals into the housing with proper orientation of the carrier assembly outlet ports with the housing outlet ports resulting from the combination of a helically or tapered cut guide on the exterior of the carrier assembly and an inward positioned pin in the housing.