Hydraulic Proppant Fracturing and Gravel Packing
Hydraulic Proppant Fracturing and Gravel Packing

Author: D. Mader

Publisher: Elsevier

Published: 1989-03-01

Total Pages: 1277

ISBN-13: 0080868843

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Many aspects of hydraulic proppant fracturing have changed since its innovation in 1947. The main significance of this book is its combination of technical and economical aspects to provide an integrated overview of the various applications of proppants in hydraulic fracturing, and gravel in sand control. The monitoring of fractures and gravel packs by well-logging and seismic techniques is also included.The book's extensive coverage of the subject should be of special interest to reservoir geologists and engineers, production engineers and technologists, and well log analysts.

Interpretation of Interference Data from the Klamath Falls, Oregon Geothermal Resource
Interpretation of Interference Data from the Klamath Falls, Oregon Geothermal Resource

Author:

Publisher:

Published: 1983

Total Pages:

ISBN-13:

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Data from a seven week pressure interference test in the Klamath Falls, Oregon geothermal resource have been analyzed. The data indicate that productive wells are fed by a highly permeable fracture network and that the less permeable matrix blocks contribute significantly to the reservoir storage capacity. Detailed analysis of data from two wells is presented. Data from both of the wells yield a reservoir permeability-thickness (kh) of approximately 1.3x106 md-ft and a storativity of 6.8x10−3 ft/psi. The parameters ({lamda} and [omega]), which are determined by the distribution of permeability and storativity between the matrix and fractures, vary by more than an order of magnitude. A sensitivity study shows that for these wells, the pressure transients are not very sensitive to the distribution of permeability and storativity between the fractures and matrix blocks. No hydrologic boundaries were detected during the test. This indicates that the fault which supplies hot water to the shallow hydrothermal system does not behave according to the cassical model of either a barrier or constant potential boundary.