By M. J. Economides
This workbook is a realistic significant other to the second one version of the textbook Reservoir Stimulation. the 2 books are meant for use jointly. This new quantity can be rather worthy for the educational of recent engineers and petroleum engineering scholars, because it comprises nearly a hundred difficulties and their recommendations, plus a long bankruptcy giving information precious for designing a stimulation remedy. Chapters are integrated containing functional difficulties on reservoir and good concerns, rock mechanics, fracturing fluids and proppants, fracture calibration remedies, layout and modeling of propped fractures, assessment of fracture remedies, layout of matrix remedies, diversion and remedy review, layout and function of acid fractures and stimulation of horizontal wells. those chapters are classified with letters from A to J to tell apart them from their spouse chapters in Reservoir Stimulation. Equations, figures and tables from the textbook are stated within the workbook yet aren't reproduced.
Read Online or Download A Practical Companion to Reservoir Stimulation PDF
Similar petroleum books
Sleek reservoir administration perform wishes integration of geoscience and engineering related to humans, expertise, instruments, and knowledge. this article provides the basics of built-in reservoir administration perform together with the technical and administration views. a number of genuine examples and case reviews are incorporated for representation reasons.
I'm certainly happy to organize this short foreword for this publication, written by means of a number of of my neighbors and associates within the Soviet Union. The publication was once first released within the Russian language in Moscow in 1975. The phenomenon of superconductivity used to be came upon in 1911 and promised to be very important to the creation of electromagnets given that superconductors wouldn't deplete Joule warmth.
This guide is essential for figuring out the beginning of deep-water sandstones, emphasizing sandy-mass delivery deposits (SMTDs) and bottom-current transformed sands (BCRSs) in petroleum reservoirs. This state of the art point of view, a realistic replacement to the traditional turbidite innovations, is important as the turbidite paradigm is outfitted on a doubtful origin with no empirical facts on sandy turbidity currents in sleek oceans.
- Petroleum Economics and Engineering
- Plant Design and Operations, Second Edition
- Atlas of Microbial Mat Features Preserved within the Siliciclastic Rock Record, Volume 2 (Atlases in Geoscience)
- Petroleum Related Rock Mechanics - Second edition
Additional info for A Practical Companion to Reservoir Stimulation
C, Since no information was given on reservoir pressure, then c, = 10-5psi +3x (B-9) Table B-1-Formation data for Example B-2. B-3 PRACTICAL COMPANION T O RESERVOIR STIMULATION EXAMPLE B-3 EXAMPLE B-4 Calculation of Horizontal Stresses Critical Depth for Horizontal vs. Vertical Hydraulic Fractures Calculate the minimum horizontal stress at 10,000 ft depth for a formation with the properties used in Example B-2. 25. Will the absolute minimum stress increase or decrease during reservoir depletion?
3. 75, then from Fig. 7- 18, At, = 7, and therefore At = (7) (30) = 2 10 min. From Eq. 426. (D-27) Since the injection rate is 30 BPM, then 500,000 1 4 2 f, = 30 = 397min. 426 from Fig. 2) (397) 476 min (8 hr). 4 (from a calibration treatment) Table Dd-Treatment variables for Example D-8. D-8 1 FRACTURE CALIBRATION TREATMENTS EXAMPLE D-9 The leakoff coefficient can then be found from Eq. 1 but use h, = 140 ft (instead of 70 ft). Use the same well and pressure data as in Tables 7-4 and 7-5. Solution (Ref.
D-27) Since the injection rate is 30 BPM, then 500,000 1 4 2 f, = 30 = 397min. 426 from Fig. 2) (397) 476 min (8 hr). 4 (from a calibration treatment) Table Dd-Treatment variables for Example D-8. D-8 1 FRACTURE CALIBRATION TREATMENTS EXAMPLE D-9 The leakoff coefficient can then be found from Eq. 1 but use h, = 140 ft (instead of 70 ft). Use the same well and pressure data as in Tables 7-4 and 7-5. Solution (Ref. 1) The fracture compliance can be calculated from Eq. 1. 8 x IO-’ft/psi. 1. The fracture half-length can then be calculated from Eq.