Bibliographic citations
Flores, C., (2014). Modelo geológico - estructural de la base del cretácico generado por inversión gravimétrica 3D de datos aerogravimétricos Cuenca Ucayali, Perú [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/9707
Flores, C., Modelo geológico - estructural de la base del cretácico generado por inversión gravimétrica 3D de datos aerogravimétricos Cuenca Ucayali, Perú [Tesis]. : Universidad Nacional de Ingeniería; 2014. http://hdl.handle.net/20.500.14076/9707
@misc{renati/708331,
title = "Modelo geológico - estructural de la base del cretácico generado por inversión gravimétrica 3D de datos aerogravimétricos Cuenca Ucayali, Perú",
author = "Flores Martínez, Carlos Daniel",
publisher = "Universidad Nacional de Ingeniería",
year = "2014"
}
A key in the early stages of oil exploration in new areas is the use of remote sensing not only for versatility and provide information but also by minimum government permissions and no environmental license required for use. The use of gravimetric as remote sensing of indirect geophysical contributes greatly to a better understanding of the subsurface geology of all of this sedimentary cover between the crystalline basement and the ground surface. The variation of this thickness results in small changes in the Earth's gravitational field readings recorded, in this case, with a gravimeter installed in an aircraft which was identified a gravimetric anomaly or Bouguer anomaly. In parallel, using a mathematical model that relates these anomalies with values of depths, timely checking surrounding geological controls to the study area that could be wells, outcrops or seismic will be made. After completing these validations, the model will be used to “reverse“ the surface or grid that has units of milli Gals and take it to depth values in feet or meters and so finally a structural map of the target horizon is obtained.
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