![]() This could be a top defined in the wells, based on lithostratigraphy or biostratigraphy an unconformity reservoir top or base or another event that is visible on seismic. However, after the initial quality control check of the data is made, the polarity noted and the existing wells displayed, the general steps are as follows: There are numerous interpretation techniques that can be used, depending on the data and software available. Seismic horizons can be interpreted in 2D lines or in 3D volumes. ![]() Left without interpretation, right with interpretation. CO 2 in carbon sequestration sites can also be monitored using seismic.Įxample of a cross section (parallel to the coast) of a slope area, showing several sets of channels and an MTD. This is a direct hydrocarbon indicator, or DHI. These contacts generally have limited lateral continuity, are horizontal (known as a flat spot) and have a different impedance to the layers above, below and laterally. The contacts between these fluids within the reservoir will be horizontal and in some cases they are visible in seismic. Gas is at the top, followed by oil and associated water is at the bottom. Hydrocarbons in a reservoir will be arranged according to their density. ![]() Fluid Contacts and Hydrocarbon Reservoirs The salt, because it has high impedance, usually causes a bright positive reflector at the top, but the lateral and base limits of the salt are generally more difficult to identify. Adapted from Virtual Seismic Atlas.ĭiapirs and other bodies of mobile salt are very important in hydrocarbon exploration, in the storage of gas (and more recently hydrogen) and for some mineral resources. Seismic line showing bright reflectors corresponding to the top of isolated reefs. Other examples of bright reflectors are those originating from layers of coal, where very low impedance results in a very low amplitude reflector. carbonate platforms) they can be discontinuous or continuous reflectors. Depending on whether they are reefs or more continuous structures (e.g. In mineral exploration, if the regional geology is not a sedimentary basin, seismic quality is generally worse, but it can be very useful in identifying and characterising mineralisations, along with gravimetry and geomagnetic data.Ĭarbonate sediments, especially when they are compacted and lithified, generally have a higher impedance than other sediments like sandstones and shales, so they often appear as bright reflectors. Mineralisations of various types are also often visible in seismic as bright reflectors because they have different characteristics to those of the surrounding rocks. seismic reflectors), with high reflectivity. The impedance of igneous rocks is much higher than that of most sediments, resulting in very bright contacts (i.e. (Adapted from Virtual Seismic Atlas.) Source: SubSurfWiki.Īnother example of very strong reflectors are igneous bodies (dykes, batholiths, etc.) intruded in sediments. (b) Example of a hard event, in this case the seabed. (a) Variation of impedance, reflectivity and seismic profile according to various types of geological layers. The best example is the seabed, where the low impedance of sea water and the much higher impedance of sediments will originate what is referred to as a ‘very bright’ reflector, with very high amplitudes. This type of reflector is called a hard event or a hard kick or a bright reflector. On a seismic trace this will correspond to a pronounced peak or trough. When there is a large contrast of impedances, the absolute value of the amplitude of the corresponding reflector will be high in other words, it will have a high absolute value of reflectivity. The amplitude of a seismic horizon will depend on the impedance contrast of the geological layers that define that horizon. In this short article we will cover the basics of seismic horizon interpretation and how this is used to obtain stratigraphic information. Other uses include mapping salt structures for their use as natural gas reservoirs (gas caverns), delimiting mineral deposits among other activities involving imaging of the subsurface. Recently, this type of data has also been used in geothermal energy activities, carbon sequestration in geological reservoirs and wind energy, especially offshore. 2D and 3D seismic data are major sources of information in the oil industry for both onshore and offshore activities. Reflection seismic is one of the fundamental ways of imaging the subsurface from a geological perspective.
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