How is Hydraulic Fracturing Done?
1. placement– помещение, размещение, расположение 2. treatment – обработка 3. sequence ['siːkwəns] – 1. упорядочивать; управлять циклом 2. цикл, последовательность; ряд; очерёдность, порядок 4. particular[pə'tɪkjələ, -kju-] – особый, специфический 5. require[rɪ'kwaɪə]– требовать, нуждаться 6. tailor['teɪlə] – специально приспособить 7. therefore ['ðɛəfɔː] – следовательно 8. essentially [ɪ'senʃəlɪ] – по существу; по существу дела 9. unique [juː'niːk] – уникальный 10. blend – смесь 11. target['tɑːgɪt]formation – целевойпласт 12. several ['sevərəl] – некоторые, несколько 13. dilute [daɪ'luːt] acid – разбавленнаякислота 14. hydrochloric['haɪdrəu 'klɔːrɪk]/muriatic[ˌmjuərɪ'ætɪk]acid – солянаякислота 15. muriatic [ˌmjuərɪ'ætɪk] – хлористоводородный, солянокислый 16. debris ['deɪbriː] – шлам, обломки породы, осыпь 17. conduit['kɔnd(j)uɪt, -dɪt]– канал, кондуит, труба 18. padstage – этап закачки жидкости гидроразрыва в пласт без проппанта 19. carbonate['kɑːbəneɪt]mineral – карбонатные породы 20. gallon ['gælən] – галлон (мера объёма жидкости; в Великобритании 1 Г.= 4,546 л, в США 1 Г.= 3,785л) 21. slickwater – реагент на водной основе для снижения поверхностного натяжения 22. facilitate[fə'sɪlɪteɪt] – ускорять, способствовать 23. proppant – пропант, расклинивающий агент 24. propsequencestage –этап последовательной закачки проппанта; цикл проппанта 25. sequence['siːkwən(t)s] – последовательность; ряд; цикл 26. substage – подэтап 27. finemesh – мелкоячеистый, мелкозернистый 28. sand– песок 29. ceramic[sə'ræmɪk] – керамика 30. enhance[ɪn'hɑːns, en-]– 1) повышать, увеличивать, усиливать, 2) улучшать 31. coarse [kɔːs] – крупнозернистый 32. particle['pɑːtɪkl] – частица; крупица 33. throughout [θru'aut] – навсемпротяжении 34. flushing stage – этап промывки 35. excess[ɪk'ses, ek-] – избыточный 36. employ[ɪm'plɔɪ, em-] – использовать, применять | 37. subsequent ['sʌbsɪkwənt] – последующий, следующи 38. biocide [ˈbaıə,saıd] – бактерицид 39. disinfectant[ˌdɪsɪn'fektənt] – дезинфицирующее средство 40. interfere[ˌɪntə'fɪə]with – мешать, вмешиваться 41. bromine['brəumiːn] – бром 42. glutaraldehyde [,gluːtəˈrældı,haıd] – глютаральдегид 43. scaleinhibitor [ɪn'hɪbɪtə] – ингибитор образования отложений 44. ethylene['ɛθɪliːn, -θ(ə)l-] glycol ['glʌɪkɒl] – этиленгликоль 45. precipitation [prɪˌsɪpɪ'teɪʃən] – осаждение, отложение 46. citric['sɪtrɪk]acid – лимонная кислота 47. iron – железо 48. compound ['kɔmpaund] – соединение 49. soluble ['sɔljəbl] – растворимый 50. friction ['frɪkʃən]– трение 51. reduce [rɪ'djuːs] – ослаблять, понижать, сокращать, уменьшать 52. friction reducing agent['eɪʤənt] – понизительтрения 53. potassium[pə'tæsɪəm]chloride['klɔːraɪd] – хлоридкалия 54. polyacrylamide[ˌpɒlɪə'krɪləmʌɪd] – полиакриламид (материал для полимерного заводнения) 55. tubular['t(j)uːbjələ ], ['ʧuː-] – трубчатый, в форме трубы 56. corrosion[kə'rəuʒən] – коррозия; ржавление; разъедание; окисление 57. dimethyl [daɪ'meθɪl] – этан 58. formamide [fəm'eɪmʌɪd, -'amʌɪd] – формамид, амид муравьиной кислоты 59. dimethyl formamide – диметилформамид 60. oxygenscavenger['skævɪnʤə] – раскислитель, нейтрализатор меркаптана, скавенжер, кислородный очиститель 61. ammonium[ə'məunɪəm] bisulfite [bɪ'sʌlfaɪt] – бисульфат аммония 62. degradation [ˌdegrə'deɪʃən] – старение; ухудшение качества поверхности; деструкция 63. guargum [gwɑː gʌm] – гуаровая смола 64. thicken ['θɪkən] – уплотнять 65. cross-linkingagent – сшивающий агент, вещество, образующее поперечные связи (между макромолекулами) 66. boric['bɔːrɪk]acid – борная кислота 67. breaker – деструктор, деэмульсатор 68. gellingagent – гелеобразующий агент, загуститель |
How is Hydraulic Fracturing Done? (A-B) (3700)
The placement of hydraulic fracturing treatments underground is sequenced to meet the particular needs of the formation. Each oil and gas zone is different and requires a hydraulic fracturing design tailored to the particular conditions of the formation. Therefore, while the process remains essentially the same, the sequence may change depending upon unique local conditions. It is important to note that not all of the additives are used in every hydraulically fractured well; the exact “blend” and proportions of additives will vary based on the site-specific depth, thickness and other characteristics of the target formation.
1. An acid stage, consisting of several thousand gallons of water mixed with a dilute acid such as hydrochloric or muriatic acid: This serves to clear cement debris in the wellbore and provide an open conduit for other frac fluids by dissolving carbonate minerals and opening fractures near the wellbore.
2. A pad stage, consisting of approximately 100,000 gallons of slickwater without proppant material: The slickwater pad stage fills the wellbore with the slickwater solution, opens the formation and helps to facilitate the flow and placement of proppant material.
3. A prop sequence stage, which may consist of several substages of water combined with proppant material (consisting of a fine mesh sand or ceramic material, intended to keep open, or “prop” the fractures created and/or enhanced during the fracturing operation after the pressure is reduced): This stage may collectively use several hundred thousand gallons of water. Proppant material may vary from a finer particle size to a coarser particle size throughout this sequence.
4. A flushing stage, consisting of a volume of fresh water sufficient to flush the excess proppant from the wellbore.
Other additives commonly used in the fracturing solution employed in wells include:
− A dilute acid solution, as described in the first stage, used during the initial fracturing sequence. This cleans out cement and debris around the perforations to facilitate the subsequent slickwater solutions employed in fracturing the formation.
− A biocide or disinfectant, used to prevent the growth of bacteria in the well that may interfere with the fracturing operation: Biocides typically consist of bromine-based solutions or glutaraldehyde.
− A scale inhibitor, such as ethylene glycol, used to control the precipitation of certain carbonate and sulfate minerals.
− Iron control/stabilizing agents such as citric acid or hydrochloric acid, used to inhibit precipitation of iron compounds by keeping them in a soluble form.
− Friction reducing agents, such as potassium chloride or polyacrylamide-based compounds, used to reduce tubular friction and subsequently reduce the pressure needed to pump fluid into the wellbore: The additives may reduce tubular friction by 50 to 60%. These friction-reducing compounds represent the “slickwater” component of the fracking solution.
− Corrosion inhibitors, such as N,n-dimethyl formamide, and oxygen scavengers, such as ammonium bisulfite, are used to prevent degradation of the steel well casing.
− Gelling agents, such as guar gum, may be used in small amounts to thicken the water-based solution to help transport the proppant material.
− Occasionally, a cross-linking agent will be used to enhance the characteristics and ability of the gelling agent to transport the proppant material. These compounds may contain boric acid or ethylene glycol. When cross-linking additives are added, a breaker solution is commonly added later in the frac stage to cause the enhanced gelling agent to break down into a simpler fluid so it can be readily removed from the wellbore without carrying back the sand/ proppant material.