high-pressure-and-high-temperature-hpht-lost-circulation-material-lcm-testing

The National Renewable Energy Laboratory in the US specializes in the research and development of renewable energy, energy efficiency, energy systems integration, and sustainable transportation.

national-renewable-energy-laboratory-nrel

National Renewable Energy Laboratory (NREL)

To understand why current LCMs are not successful in sealing fractures, we wanted to establish an initial point, a baseline, testing conventional LCMs typically used in geothermal operations. We experimented with 12 different LCM with different characteristics, shapes, and sizes under high-temperature conditions.

HPHT LCM Fluid Loss Tests.xlsx

Rheology tests were performed up to 200C, and we found that some of the most popular LCMs, such as sawdust, cottonseed hulls, or walnuts, are prone to thermal degradation. Once the LCM degrades, its sealing capability is highly affected, evidenced in the high volume of filtration and the limited sealing pressure that the sealed fracture can stand before reopening.

HPHT LCM Rheogolgy Test Results.xlsx

The particle size analysis showed that irregular shapes and larger particle sizes have reduced the specific surface area per mass unit, making the heat concentrated in a smaller area, exposing these materials to thermal degradation. Conversely, fine granular materials have larger specific surface areas, and the heat is distributed in a larger area, making these materials more resistant to thermal degradation.

LCM PSD Anaylsis.xlsx

ARMA paper - "Wellbore Strengthening for Geothermal Applications: Experimental Study of Thermal Degradation of LCM to Address Wellbore Tensile Failure". The results are from three kinds of tests: HPHT LCM Rheology, LCM PSD Analysis, and HPHT LCM Fluid Loss Tests. The paper was prepared for presentation at the 55th US Rock Mechanics/Geomechanics Symposium held in Houston, Texas, USA, 20-23 June 2021. ARMA 21-2059. 

Wellbore Strengthening for Geothermal Applications.pdf

Geothermics paper - "Rheological investigation of effect of high temperature on geothermal drilling fluids additives and lost circulation materials". The paper was published in Geothermics 96 (2021) 102219.

Rheological Investigation of Effect of High Temperature.pdf

JERT paper - "Screening of Lost Circulation Materials for Geothermal Applications: Experimental Study at High Temperature". The paper was published in the Journal of Energy Resources Technology 144(3), 033008.

Screening of Lost Circulation Materials.pdf

High-Pressure and High-Temperature (HPHT) Lost Circulation Material (LCM) Testing

improved-polymers-for-enhanced-oil-recovery-synthesis

The National Energy Technology Laboratory is a U.S national laboratory under the Department of Energy Office of Fossil Energy. NETL focuses on applied research for the clean production and use of domestic energy resources

national-energy-technology-laboratory-netl

National Energy Technology Laboratory (NETL)

Improved Polymers for Enhanced Oil Recovery Synthesis and Rheology, Sixth Annual Report, October 1982-September 1983

Improved Polymers for Enhanced Oil Recovery Synthesis

improved-polymers-for-enhanced-oil-recovery-synthesis-and-rheology-final-report-october-1985

Improved Polymers for Enhanced Oil Recovery-Synthesis and Rheology, Final Report, October 1985

reservoir-stimulation-optimization-with-operational-monitoring-for-creation-of-egs

Demonstration of volume expansion of our fracturing fluid 

PAA Rheology vs T and P.jpg

High P&T cell and system for rheology studies

Rheology 3-window cell.jpg

Rheology high P&T system.jpg

Rheorimeter for viscosity analysis as a function of P, T and shear rate

Rheometer system.jpg

PAA Recycling.jpg

Viscosity as a function of P on our proposed fracturing fluid

Viscosity Test-2_Results PAA.xlsx

Viscosity Test-4_Results-SDS.xlsx

Viscosity Test-3_Results Xanthan.xlsx

water-CO2 control.jpg

NMR instrumentation and high P/T rotors for chemical speciation analysis of our fracturing fluid in operando

NMR capability and needs.pptx

NMR spectra showing speciation of our polymer with CO2 but limited to 150C and 130 atm

Final High P&T PAA_NMR_rev2a.pptx

Acoustic analysis setup for in operando monitoring of fracturing processes

Acoustic emission setup.jpg

XMT image showing a 3D local fracture generated on highly crystalline rock using our fracturing fluid technology

XMT showing local fractures created by PAA on Coso 1-2.jpg

Report on Pulse Echo Analysis data on rock samples previous to fracturing to learn about the potential of this technique for in operando acoustic monitoring of fracturing processes.

Pulse echo Setup and Data report 3-7-13 final.docx

Fracturing high P&T system.jpg

Images of fractured rock from Coso geothermal site using our fluid technology

Pics of four Coso samples subjected to 7 atm CO2 pressure.jpg

Pics of two PAA-fractured Coso samples subjected to KI seepage.jpg

Images of Ki seepage analysis on fractured rock from Coso geothermal site using our fluid technology

Pics vs time of PAA-fractured Coso 1-2 sample subjected to KI seepage.jpg

Summary of XMT images as well as photographs of rock samples from Coso Geothermal site using our fluid technology as compared to other common fluids

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