SScchhoollaarrss'' MMiinnee Masters Theses Student Theses and Dissertations Spring 2013 CCoommppaarriissoonn ooff ccllaassss IIII iinnjjeeccttiioonn wweellll aarreeaa ooff rreevviieeww rreeqquuiirreemmeennttss wwiitthh aarreeaa ooff eevvaalluuaattiioonn ffoorr hhyyddrraauulliiccaallllyy ffrraaccttuurreedd wweellllss Yashesh Jitendra Panchal Follow this and additional works at: https://scholarsmine.mst.edu/masters_theses Part of the Petroleum Engineering Commons DDeeppaarrttmmeenntt:: RReeccoommmmeennddeedd CCiittaattiioonn Panchal, Yashesh Jitendra, "Comparison of class II injection well area of review requirements with area of evaluation for hydraulically fractured wells" (2013). Masters Theses. 5367. https://scholarsmine.mst.edu/masters_theses/5367 This thesis is brought to you by Scholars' Mine, a service of the Missouri S&T Library and Learning Resources. This work is protected by U. S. Copyright Law. Unauthorized use including reproduction for redistribution requires the permission of the copyright holder. For more information, please contact [email protected]. COMPARISON OF CLASS II INJECTION WELL AREA OF REVIEW REQUIREMENTS WITH AREA OF EVALUATION FOR HYDRAULICALLY FRACTURED WELLS by YASHESH JITENDRA PANCHAL A THESIS Presented to the Faculty of the Graduate School of the MISSOURI UNIVERSITY OF SCIENCE AND TECHNOLOGY In Partial Fulfillment of the Requirements for the Degree MASTER OF SCIENCE IN PETROLEUM ENGINEERING 2013 Approved by Dr. Shari Dunn-Norman, Advisor Dr. Ralph Flori Dr. Runar Nygaard  2013 YASHESH PANCHAL All Rights Reserved iii ABSTRACT Since 2010 the US Environmental Protection Agency (EPA) has been proposing plans to study, and has now initiated research regarding the potential impact of hydraulic fracturing processes on drinking water sources. Their work refers to an ‘Area of Evaluation’ around a hydraulically fractured well, inferring that the wells immediately around hydraulic fractured wells should be studied, to evaluate the conditions of these wells and their potential to contaminate overlying USDWs. Class II injection wells must have a minimum ¼ mile radius area of review to determine the condition of wells surrounding the proposed injection well. All wells within this AOR are evaluated, although wells that intersect the zone of injection are of greatest interest. This study examines publically available micro seismic data for multi-stage hydraulic fractured horizontal wells in various shale plays. A ¼ mile AOE is inscribed on each stage the microseismic to determine if all microseismic events fall within this criteria. The study also investigates current state practices with respect to AOE. Results of this study indicate that most wells have hydraulically fractures that fit within current ¼ mile AOR criteria. While this may not be the only aspect to consider with respect to these types of wells, it is a good starting point for additional study. iv ACKNOWLEDGMENTS This thesis would not have been possible without the help and support of my advisor Dr. Shari Dunn-Norman. I thank her for accepting me as one of her graduate students, being so patient and pushing me to be a better engineer. I am thankful to my committee members Dr. Runar Naygaard and Dr. Ralph Flori for providing their timely guidance. I am thankful to all the Oil and Gas State Regulatory Board for providing the data regarding the practice followed in their respective states. I am grateful to my friends Anuroop, Siddharth, Ananth, Vibhuti, Aditi Mishra, Palak, Sachin, Sahil and Soham for motivating me and creating a fun environment around me that helped me release my tension at times. I would also like to thank Aditi Sharma, Deepak and Ishan for being with me when I needed support. I am grateful to my friends back home in India, Harshit, Apurv, Darshan, Chintan, Sagar, Nishtih, Yatri, Miten, Mansi, Fenil, Poojan, Komal, Priyank and Suril for constantly forcing me to concentrate on my research work. This thesis would not have been possible without the continuous support of my friends. I would like to thank Apoorva, because of whom I am in United States and pursuing my higher education. It was a pleasent experience to work in the University library. I would thank the Staff of library to encourage me. Special thanks to Dawn Mick, Dan, Scott, Marsha, June and all fellow students working in library. And finally I would like to acknowledge the trust and support of my PARENTS and my FAMILY members. v TABLE OF CONTENTS Page ABSTRACT ....................................................................................................................... iii ACKNOWLEDGMENTS ................................................................................................. iv LIST OF ILLUSTRATIONS ........................................................................................... viii LIST OF TABLES ............................................................................................................. xi NOMENCLATURE ......................................................................................................... xii SECTION 1. INTRODUCTION ...................................................................................................... 1 2. AREA OF REVIEW (AOR) ...................................................................................... 3 2.1. FUNDAMENTALS OF CLASS II INJECTION/DISPOSAL WELLS .............3 2.2. CONCEPT OF AREA OF REVIEW (AOR) ..................................................... 9 2.3. AREA OF REVIEW VARIANCE ................................................................... 16 3. METHODOLOGY. .................................................................................................. 17 4. HYDRAULIC FRACTURING. ............................................................................... 19 4.1. BASIC OF HYDRAULIC FRACTURING...................................................... 19 4.2. HORIZONTAL FRACTURING ...................................................................... 22 4.3.HYDRAULIC FRACTURING FLUID ............................................................. 23 4.4. FRACTURE ORIENTATION.......................................................................... 23 4.5. PRESSURE ANALYSIS OF HYDRAULIC FRACTURE ............................. 28 5. FRACTURE DIAGNOSTICS ................................................................................. 31 5.1. INDUCTION LOGS ......................................................................................... 31 5.2. TILTMETER .................................................................................................... 33 vi 5.2.1. Surface Tiltmeter .................................................................................... 34 5.2.2. Working of Surface Tiltmeter ................................................................ 35 5.2.3. Downhole Tiltmeter ............................................................................... 36 5.3. MICROSEISMIC MAPPING ........................................................................... 38 5.4. SUMMARY OF FRACTURE DIAGNOSTIC TECHNOLOGIES AND THEIR LIMITATIONS ................................................................................... 40 6. MICROSEISMIC MAPPING .................................................................................. 41 6.1. MICROSEISMIC EVENT ............................................................................... 42 6.2. MICROSEISMIC EVENT DETECTION ........................................................ 43 6.2.1. Threshold Triggering .............................................................................. 43 6.2.2. STA/LTA Ratio ...................................................................................... 45 6.3. WAVEFORM ................................................................................................... 46 6.3.1. P Waves...................................................................................................46 6.3.2. S Waves...................................................................................................47 6.3.3. Moveout...................................................................................................47 6.3.4. Use of P and S Waves in Event Location................................................48 6.3.4.1 Event location using P and S waves ...........................................48 6.3.4.2 Orientation using hodogram analysis..........................................49 6.4. MOMENT MAGNITUDE................................................................................ 49 6.5. UNCERTAINTIES IN LOCATING MICROSEISMIC EVENTS .................. 51 6.5.1. Travel Time of P and S Waves ............................................................... 51 6.5.2. Velocity Model ....................................................................................... 53 6.5.3. Distance Effects ...................................................................................... 54 6.5.4. Effect of Location of Observation Well ................................................. 55 vii 6.6. INTERPRETATION OF MICROSEISMIC DATA ........................................ 57 7. ANALYSIS OF HYDRAULICALLY FRACTURED WELL DATA .................... 59 7.1. AREA OF EVALUATION METHODOLOGY .............................................. 59 7.2. CASE STUDIES ............................................................................................... 63 7.2.1. Case 1 ..................................................................................................... 63 7.2.2. Case 2 ..................................................................................................... 64 7.2.3. Case 3 ..................................................................................................... 65 7.2.4. Case 4 ..................................................................................................... 66 7.2.5. Case 5 ..................................................................................................... 68 7.2.6. Case 6 ..................................................................................................... 69 7.2.7. Case 7 ..................................................................................................... 70 7.2.8. Case 8 ..................................................................................................... 72 7.2.9. Case 9 ..................................................................................................... 73 7.2.10. Case 10 ................................................................................................. 74 7.3. EXAMPLE OF FORMATION THAT ARE OUTSIDE UNITED STATES .. 75 7.3.1. Case 1 ..................................................................................................... 75 7.3.2. Case 2 ..................................................................................................... 76 7.3.3. Case 3 ..................................................................................................... 77 7.3.4. Case 4 ..................................................................................................... 78 7.3.5. Case 5 ..................................................................................................... 79 8. CONCLUSIONS AND FUTURE WORK............................................................... 83 BIBLIOGRAPHY ............................................................................................................. 84 VITA ................................................................................................................................ 88 viii LIST OF ILLUSTRATIONS Figure Page 2.1. Classification of class II injection wells ...................................................................... 4 2.2. Class II injection facts .................................................................................................. 6 2.3. Texas RRC well construction packer rules for class II injection ................................. 7 2.4. Texas RRC cementing guide for class II injection ...................................................... 7 2.5. Example of well construction standard ........................................................................ 8 2.6. AOR showing one producing well (solid dot) and one abandoned well ................... 10 2.7. Potential USDW contamination from wells surrounding the class II injection well . 11 3.1. Barnett Shale fracture height growth compared with USDW ................................... 18 4.1. Surface preparation before the start of fracturing ...................................................... 19 4.2. Hydraulic fracturing process ...................................................................................... 21 4.3. Horizontal drilling ...................................................................................................... 22 4.4. State of stress ............................................................................................................. 24 4.5. Transverse and longitudinal fractures ........................................................................ 26 4.6. Nolte Smith interpretation guide ................................................................................ 29 5.1. Resistivity log showing change in resistivity at a certain depth ................................ 32 5.2. Principal of functioning of tiltmeter .......................................................................... 34 5.3. A typical tiltmeter site outfitted with radio telemetry for long term fracture modeling .................................................................................................................... 35 5.4. Downhole tiltmeter installation.................................................................................. 37 5.5. Comparing downhole and surface tiltmeter ............................................................... 38 5.6. Microseismic event and function ............................................................................... 39