Study and Use of Geopolymer Mixtures for Oil and Gas Well Cementing Applications
Author:
Salehi Saeed1, Khattak Mohammad Jamal2, Ali Nasir3, Ezeakacha C.1, Saleh Fatemeh K.1
Affiliation:
1. Mewbourne School of Petroleum and Geological Engineering, University of Oklahoma, Norman, OK 73069 2. Civil Engineering Department, University of Louisiana, Lafayette, LA 70504 3. Petroleum Engineering Department, University of Louisiana, Lafayette, LA 70504
Abstract
The study here presents laboratory testing results of Class F fly ash geopolymer for oil well cementing applications. The challenge reported in literature for the short thickening time of geopolymer ash has been overcome in this study, where more than 5 h of the thickening time is achievable. API Class H Portland cement used a controller on all the tests conducted in this work. Tests conducted in this research include unconfined compressive strength (UCS), shear bond strength, thickening time, shrinkage, free water, and cyclic and durability tests. Results indicate temperature as a crucial factor affecting the thickening time of geopolymer mix slurry. UCS testing indicates considerably higher compressive strength after one and fourteen days of curing for geopolymer mixtures. This indicates gaining strength with time for geopolymer mixture, where time retrogression effects are observed for Portland cements. Results also indicate higher shear bond strength for geopolymer mix that can better tolerate debonding issues. Additionally, more ductile material behavior and higher fracture toughness were observed for optimum geopolymer mixes. Tests also show applicability of these materials for deviated wells as a zero free water test was observed.
Publisher
ASME International
Subject
Geochemistry and Petrology,Mechanical Engineering,Energy Engineering and Power Technology,Fuel Technology,Renewable Energy, Sustainability and the Environment
Reference47 articles.
1. Application of Real-Time Field Data to Optimize Drilling Hydraulics Using Neural Network Approach;ASME J. Energy Resour. Technol.,2015 2. Farahani, M., Soleimani, R., Jamshidi, S., and Salehi, S., 2014, “Development of a Dynamic Model for Drilling Fluid's Filtration: Implications to Prevent Formation Damage,” SPE International Symposium and Exhibition on Formation Damage Control, Lafayette, LA, Feb. 26–28, SPE Paper No. SPE-168151-MS10.2118/168151-MS. 3. Dokhani, V., Pordel Shahri, M., Karimi, M., and Salehi, S., 2013, “Evaluation of Annular Pressure Losses While Casing Drilling,” SPE Annual Technical Conference and Exhibition, New Orleans, LA, Sept. 30–Oct. 2, SPE Paper No. SPE-166103-MS10.2118/166103-MS. 4. Integrated Experimental and Analytical Wellbore Strengthening Solutions by Mud Plastering Effects;ASME J. Energy Resour. Technol.,2016 5. Ghalambor, A., Salehi, S., Shahri, M. P., and Karimi, M., 2014, “Integrated Workflow for Lost Circulation Prediction,” SPE International Symposium and Exhibition on Formation Damage Control, Lafayette, LA, Feb. 26–28, SPE Paper No. SPE-168123-MS10.2118/168123-MS.
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48 articles.
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