Geoinformatika 2016; 3(59) : 5-13  (in Ukrainian)

TIME PARAMETERS OF WATER-GAS-BEARING SEDIMENTARY ROCKSBASED ON THE RESULTS OF CREATION AND APPLICATION OF DATUM GEOCHRONOGRAPH. PART II

A.V. Khtema¹, V.M. Khtema

¹Limited Liability Company “Prom-energy product”, 5 Dimitrova Str., Kyiv 03150, Ukraine, e-mail: anna.khtema@gmail.com

The purpose of the paper is to give a detailed study of a deposit-type anomaly and hydrodynamic trap of the recycling type using a geo-information robot; to formalize, mathematize and automatize the stratigraphic data generation process; to create a calculation module which acts as a geochronograph; to get digital data and a graphic display of geoinformation about time, required to satisfy demand for petroleum exploration practice.
Design/methodology/approach. The method used is physical and geological well log interpretation, structural and numerical modeling, and creation of geoinformation digital technology based on it. This technology is based on exponential model of the Earth formation process applying time arrow. We also employed automatized measurement of time applying a datum geochronograph.
Findings. Based on the theoretical physics and astronomical observation data, we created a cosmophysical model of the evolutionary growth process of objects in the planetary system. By applying this cosmophysical model, a datum geochronograph was designed. Using this datum geochronograph within the examined area, the increase of the planet radius during the time and speed of its growth were detected, and the kinematic parameters of the process of the sedimentary cover formation were defined. Also the activity and intensity of exogenous-endogenous processes was analyzed. The time of formation and continuance of the existence of water oil and gas sedimentary rocks, the hydrodynamic trap of the recycling type, was identified as a non-stationary physics and geological process.
Practical value/implications. Evidence on unobservable and non-measurable time characteristics of the Earth’s interior unknown before was obtained in an automated way. This information can extend the theoretical and practical possibilities of stratigraphy by quantitative measurement of time. The generated system of spatiotemporal data should be used to find the existing relationships between the distribution and variability of the physical properties of water and oil and gas bearing sedimentary rocks, to determine the beginning of the formation of potential and well-known hydrocarbon accumulations, and the evolution of the saturation nature and value of reserves. It is expected that the obtained geoinformation will help to raise the level of general geological understanding and the efficiency of hydrocarbon exploration.

Keywords: geochronology (time determination), geochronograph, gravitation, stratigraphy, time, oil-and-gas-bearing capacity.

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