On what well-known oil deposits was tested the method?
The first investigations by the LFS technology were conducted on the Romashkinskoye oil field (Republic of Tatarstan, Russia) in 2003. There were a series of experimental works to test the physical background of the method. From 2003 to 2011 we continue investigations on this oil field, also we collect data from another oil fields on the South-Tatar arch and from the western side of Melekess depression (Novo-Elhovskoe, Sarapalinskoe, Uratminskoe, North Zyuzeevskoe, Glazovskoe, Zarechnoye deposits, etc.) The researches were also conducted outside the Republic of Tatarstan - in the Republic of Udmurtia, Republic of Kalmykia, Republic of Komi, Samara and Orenburg regions, Yamalo-Nenets, Khanty-Mansi autonomous Okrug of Tyumen Region, and Bulgaria.
Which oil deposits were discovered due to application of the LFS method?
Basically, the technology was applied to the already discovered oil deposits to refine the contour of oil-bearing zones and determine suitable site for drilling. There are some cases when we identify large oil deposits in the sediments of the Middle and Lower Carboniferous within the eastern side of Mellekess depression.
When the LFS method was developed?
Physical theory of the LFS method was developed in 2002-2005. Currently, we improve our field equipment, processing and interpretation techniques.
What is the main aim of the LFS method?
The main aim of the LFS method is the identification of oil and gas accumulation zones and determination the suitable drilling site by the analysis of microseismic background at the observation point. See details in Low-Frequency Seismic Sounding Method.
On what physical phenomenon the LFS method is based on?
The method is based on the effect of seismic wave’s resonance in low-frequency range between the daylight surface and the oil-gas deposit. See details in Physical theory of the method.
What is the success rate of the method?
The Success rate is more than 86,3%.
What equipment is used for measurements?
We have the following equipment at our disposal:
Any geophysical method has its limitations ... What are the limitations for the LFS method?
limitations are due to three factors:
1. Diffraction effects that determine the smearing of the anomalous zone at the edges of the reservoir, depending on the depth;
2. Effective thickness, porosity coefficient and oil-saturation coefficient of the reservoir, that defines a contrast of wave reflections in low-frequency range;
3. The character of natural and anthropogenic sources of seismic waves that determine the possibility to get a clear signal from background noise.
What is the discrepancy of oil bearing zones recommended by LFS method and exploratory drilling?
Such statistics are not performed yet. Our customers provide information only about wells that have been recommended by LFS and do not provide the information by the subsequent drilling results. The discrepancy may be due to insufficient intervals between pickets and the limitations of the method described above.
What physical parameters of the oil deposit cause the effect of the anomalous wave reflection in low-frequency range?
In general, we believe that the anomalous reflection of seismic waves in low-frequency range correlates with an effective thickness of oil-saturated reservoir, porosity coefficient and oil-saturation coefficient. This correlation is proportional but nonlinear. Correlation function tends to the horizontal asymptote so that subsequent increasing of physical parameters will not make significant changes in the spectrum.
You specify the oil production rates of wells from 22,5 bbl/day to 47,5 bbl/day, which investors do not consider profitable for depths more than 1 km and indicate as a lack of industrial deposits. Do you recommend drilling in these zones?
Such debits are profitable for the Republic of Tatarstan. Oil production rates in some wells, drilled by our recommendations in the Yamalo-Nenets Okrug were 730 bbl/day and above.
Is it possible to get the correlation between the parameters of the spectrum and the parameters of oil deposit?
Anomalous reflection of seismic waves in low-frequency range changes the shape of the spectrum and increases the amplitude at defined frequencies. We can get the correlation between the intensity of spectral peaks and physical parameters of oil reservoir (porosity coefficient, oil-saturation coefficient, an effective thickness of oil-saturated reservoir), but we need a huge statistics obtained by the drilling in the same geological conditions.