NON-LOCAL REMOTE SENSING PROCESS FOR THE DIRECT DETECTION OF HYDROCARBONS IN THE SUBSURFACE.

摘要

The present invention aims to provide a novel method called Remote Local-Nonlocal Perception to differentiate it from the Known Method as a remote perception. The aim of the invention is to locate and directly quantify oilfield (hydrocarbons: bitumen, gas, oil) in the subsurface with the greatest commercial value. With the said method, the net present value of the project defines prior to the exploitation of the deposits in the subsurface. Also, it provides geographical coordinates and depths in the subsurface where hydrocarbons are found, in addition to volumes, API grades, porosity, and average permeability. The person applying the method is referred to as a scanner. Further, it functions based on two technical bases: 1. The universe has a non-local behavior which means that each point in the space contains information from all points in the space and all of the past and future time. In principle, information can be extracted from all of any point in the space, however, an apparatus capable of decoding the information of the nonlocal quantum state is needed. This apparatus can be 2. The amygdala in the brain. This represents the only known link by which it is decoded from the national quantum field to the information on any point of space and time (past, present, and future). Two problems that the scanner faces are associated with the analytical superposition to both define targets and to extract the required information. The analytical superposition is associated with the interference of the quantum state of the scanner, which can skew the results of the search and deliver inaccurate information. The method is divided into five stages: 4. Importing the objective into the scanner, 5. Using functional magnetic resonance imaging equipment or implanting sensors in the scalp to extract information from the amygdala: 6. Exporting the information to a computer in real-time to avoid the analytical superposition; 7. Analyzing and interpreting the information; 8. Deliver ing it with coordinates and depths, permeabilities, porosities, API degrees, hydrocarbon volume, and net present value.