UID:
almahu_9948601136002882
Format:
XIII, 203 p.
,
online resource.
Edition:
1st ed. 1985.
ISBN:
9789401736411
Series Statement:
Modern Approaches in Geophysics, 3
Content:
Although considera bIe efforts are now being made to find new sources of energy, alI the experts are agreed that hydrocarbons will have to provide the greater part of our energy needs for a generation ahead. Exploration for and production of hydrocarbons therefore pose a serious problem for our future, as much for the quantitative satisfaction of our requirements as for our search for self-sufficiency in energy. As a direct result of improvements in technology throughout the world, geophysics has progressively enlarged its field of influence in the realms of exploration and production. But amongst the various geophysical methods available, seismic reflection has gradually become accepted as the basic tool of the oiI prospector. Reflection seismology has reached and consolidated this position because it has shown itself to be capable of adapting to the increasing complexity of the requirements of exploration. Initially directed towards geometric mapping of the sub-surface, it became the means of detection of structural traps in geotectonically quiescent regions, and thereafter in increasingly complex surroundings. It has enabled us to clothe the structural framework with a lithology, initially approximate, but becoming more and more precise, assisting the explorer to locate stratigraphic traps. Further developments enable us under favourable circumstances to estimate the quality of the deposits and to detect the presence of fluids and of their interfaces; it then becomes an unrivalled tool for the producer, both in the development of deposits and in the application of enhanced recovery methods.
Note:
1: Basic Ideas on the Propagation of Seismic Waves -- 2: General Considerations on the Recording of Seismic Waves in Prospecting for Oil -- 3: Velocity of Seismic Waves. Relationships with the Theory of Elasticity. Variation Factors -- 4: Calculation of Travel Times of Seismic Signals, Definition of ?t -- 5: Measurement of Velocities in Boreholes. Sonic Logs. Seismic Surveys of Boreholes. Pseudo Velocity Logs. Transformation of Resistivity Logs to Velocity logs -- 6: Velocities in Seismic Reflection. Definitions. Principles of Velocity Analysis -- 7: Relationships Between Stacking Velocities and Root Mean Square Velocities -- 8: Relationships Between Root Mean Square Velocities, Average Velocities, and Coefficients of Heterogeneity -- 9: Investigation of the Influence of Dip on Velocity Analyses -- 10: Calculation of Interval Velocities -- 11: Velocity Analysis, Principles, Examples -- 12: Choice of Parameters in Velocity Analysis -- 13: Other Presentations of Velocity Analyses. Analyses along Horizons. Constant Velocity Stacks. Rapid Determination of Interval Velocities: G.S.I. (Geophysical Service Inc.) Graphical Method -- 14: Interpretation and Utilisation of Velocity Analyses. Accuracy Required and Causes of Inaccuracy. Advice on Positioning and Interpretation of Velocity Analyses -- 15: Influence of the "Velocity" Parameter on the Process of Migration of Seismic Sections -- 16: Studies of Velocities in Sand-Shale Series -- References.
In:
Springer Nature eBook
Additional Edition:
Printed edition: ISBN 9789048184163
Additional Edition:
Printed edition: ISBN 9789401736428
Additional Edition:
Printed edition: ISBN 9789027720245
Language:
English
DOI:
10.1007/978-94-017-3641-1
URL:
https://doi.org/10.1007/978-94-017-3641-1