Title :
Air waves effect on sea bed logging for shallow water application
Author :
Daud, Hanita ; Yahya, Noorhana ; Asirvadam, Vijanth ; Talib, Khairul Ihsan
Author_Institution :
Fundamental & Appl. Sci. Dept., Univ. Teknol. Petronas, Tronoh, Malaysia
Abstract :
Sea bed logging (SBL) is a technique for finding resistive layers, which can be hydrocarbon reservoirs in the subsurface using marine controlled source electromagnetic (CSEM) survey. In CSEM, a mobile horizontal electric dipole (HED) source transmits low frequency EM signal which is towed over an array of seafloor receivers measuring the electric and/or magnetic field. This EM signal induces an airwave along the air/sea surface that interferes with the signal that comes from the subsurface and this airwave will start dominating at larger offsets. Airwave is actually the energy that propagates from the source through the atmosphere to the receiver on the seabed. Airwave component is problematic in shallow water because it is less attenuated during its up and down propagation compared to deeper water. This paper will present the air wave amplitude verses water depth relationship. Using the simulator that has been developed using MATLAB software we will set up a forward model that contains air, sea water, sediments and hydrocarbon reservoir with their resistivity values respectively. Sea water depth will be varied starting from 250m and is incremented every 250m until the airwaves signal captured by the receiver becomes insignificant or approaching to zero. From this simulation we shall find the water depth on which airwave has less effect on the desired forward model.
Keywords :
atmospheric waves; geophysical prospecting; geophysics computing; hydrocarbon reservoirs; seafloor phenomena; sediments; well logging; CSEM survey; MATLAB software; air waves effect; air/sea surface; depth 250 m; electric field; forward model; hydrocarbon reservoirs; low frequency EM signal; magnetic field; marine controlled source electromagnetic survey; mobile horizontal electric dipole source; resistive layers; sea bed logging; sea water; seafloor receivers; sediments; shallow water application; Atmospheric modeling; Conductivity; Electric fields; Hydrocarbons; Mathematical model; Receivers; Water resources; Air Wave; Controlled Source Electromagnetic; Resistivity; Sea Bed Logging;
Conference_Titel :
Industrial Electronics & Applications (ISIEA), 2010 IEEE Symposium on
Conference_Location :
Penang
Print_ISBN :
978-1-4244-7645-9
DOI :
10.1109/ISIEA.2010.5679449