SCANNING THROUGH THE
SEISMIC ANOMALIES IN SEARCH OF OIL TRAPS–A CASE STUDY FROM UPPER ASSAM OIL
FIELDS
S.N.Singh and V.K.Sibal
VALIDATION
OF ANOMALY FROM THE SEISMIC DATA: A CASE STUDY FROM SAURASTRA OFFSHORE AREA
B.N.Singh, S.N.Singh
GEOPHYSICAL
SURVEY FOR DELINEATION OF SEEPAGE ZONES AT DYKE NO.1 OF DHAROI PROJECT, GUJARAT
R.S. Ramteke
ENVIRONMENTAL
GEOPHYSICAL STUDY FOR GROUND WATER IN COASTAL BELT OF DIGHA, WEST BENGAL
D.K Saha, P.Chakraborty, K. Choudhury and B.S.R Murthy
Dewashish Kumar
CRUSTAL
STRUCTURE ALONG THREE GEOPHYSICAL TRANSECTS IN THE CENTRAL PART OF THE BAY OF
BENGAL
M. Subrahmanyam, N. Vasudeva Rao and T.K.S Prakasa Rao
SCANNING THROUGH THE
SEISMIC ANOMALIES IN SEARCH OF OIL TRAPS
–A CASE STUDY FROM
Abstract
Detection of seismic anomalies and the
subsequent exploitation of these anomalies have always provided front end leads
in oil exploration. The fact that the seismic signatures are a form of
analytical signal, the seismic characteristics depicted by subsurface features
allows the dissection of overall responses into constituent contributors. This
has pursued the geophysicist to unravel the embedded information from the
seismic signals through a wide variety of attribute studies. The attribute
analysis has been quite revealing when used systematically and with caution.
VALIDATION OF ANOMALY
FROM THE SEISMIC DATA: A CASE STUDY FROM SAURASTRA OFFSHORE AREA
Abstract
Non uniqueness of geophysical anomalies
have always been a stumbling block in geophysical interpretations. The observed
seismic responses often lead to different explanations where as the real
expected solution is unique. In the context of oil exploration, it has been
difficult, at times, in distinguishing the seismic anomalies caused by major
structural features e.g salt domes, shale diapir, igneous intrusions, basement
horst etc., owing to the similarities of the response manifestation on seismic
section. This has led to pitfalls in seismic data interpretation and have
necessitated studies in convincingly inferring the nature of causative bodies,
as well as have made the integrated studies imperative in the industry.
During the exploration venture pursed
by Oil India Limited (OIL) in saurashtra Offshore area, a few similar cases
were encountered where the uniqueness in interpretation and thus an unanimous
conclusion on the nature of the causative body could not be ascertained. In an
attempt to explain the anomalies, a study was carried out by the authors with
preclusion that these seismic anomalies are worth investigating from
hydrocardon exploration point of the view. Special and advanced processing such
as Wavelet processing, PSDM (Pre Stack Depth Migration)etc. have been carried
out to enact the anomalies and the environment better. The result of gravity
and magnetic observation have been interpreted and integrated to validate the
different possibilities.
GEOPHYSICAL SURVEY FOR
DELINEATION OF SEEPAGE ZONES AT DYKE NO.1
OF DHAROI PROJECT,
Abstract
The Dyke No.1 of Dharoi Project,
ENVIRONMENTAL
GEOPHYSICAL STUDY FOR GROUND WATER IN COASTAL BELT OF DIGHA,
D.K Saha, P.Chakraborty, K. Choudhury and B.S.R Murthy
Geological Survey of
Abstract
Integrated geophysical surveys
comprising Electrical resistivity and Seismic refraction methods have been
employed in the coastal belt of Digha for investigating the nature and status
of sub-surface saline water contamination, if any, and suggest the remedial
measures to arrest possible saline water intrusion into the aquifer.
Geophysical survays have delineated the different sub-surface geological
formations like dune sand, top sandy soil, saline sand and saline clay. It is
also inferred from geophysical interpretation that the thickness of near
surface saline zone decreases away from the shore. Fortunately for Digha, clay
layers present at different shallow sub-surface levels, which have probable
extensions under the sea, have acted as barriers against any large scale saline
water intrusion in the deep aquifer. Clay formations are predominant upto a
depth of about 60m in the area below which aquifer zone has been demarcated.
Ground water can be effectively exploited from a depth of 90m - 120m in the area.
CHARACTERIZATION OF
GROUNDWATER FLOW REGIME IN A CRYSTALLINE ROCK THROUGH FRACTURE NETWORK PROGRAM
Abstract
Characterization of groundwater flow
regime was carried out in typical crystalline rocks of Dhanbad in the
Saraidhela area of northern
Out of three sets, Set I and Set III
are the major conduits for groundwater flow. The cardinal aquifer parameter
like porosity, permeability, velocity and flow rate are obtained. The velocity
calculated for Set I and Set III are 1.5207 * 10-09 m/s and 1.5193 * 10-09 m/s
respectively for a head difference of 0.001 m. The porosity is less than 1% in
both the sets and the permeability for the two sets are 1.4 * 1004 m/day and
1.0 * 1004 m/day respectively.
CRUSTAL STRUCTURE
ALONG THREE GEOPHYSICAL TRANSECTS IN THE CENTRAL PART OF THE
Abstract
The Bay of Bengal lithosphere is known
to have been experiencing compressive stresses in a N-S direction while
subduction forces along the