118-120 Pretoria Avenue, Sandawn, Johannesburg, 2196, South Africa
Advanced method
of mineral exploration
GeoZond-Metalin
What are its main advantages
Demand for GeoZond technology
Currently, our team of engineers and developers of the GeoZond-Metalin technology has completed all work on finalizing the equipment sets and a new data processing algorithm, which will allow for online surveying and testing of the method at ore deposits. In parallel, laboratory studies of the dielectric properties of rocks and ores from various deposits are being carried out.
Many our clients have already shown interest in using GeoZond-Metalin: ARMZ uranium holding (polymetals in Novaya Zemlya), JSC "AGD Diamonds" (kimberlites in the Arkhangelsk region), Northern Mines LLC (gold mining objects in the Magadan region), SHER-SGB company (placer and primary gold deposits in Kyrgyzstan), B2B-export company (gold, hydrocarbons and tantalum-niobium ores in Rwanda and Nigeria), PGM and manganese deposits in Zimbabwe and South Africa, Gold and kimberlite pipes in Angola and Namibia and others.
Search, discovery, identification and systematization of historical artifacts
Underwater cultural heritage covers all traces of human existence, having a cultural or historical character, which are or were under water. Recognizing the urgent need to preserve and protect such heritage, we have developed with the help of our technology the latest method of searching for underwater objects with a high degree of accuracy, which allows us to penetrate into the depths of the sea and find sunken ships, which until recently there was no possibility to find.
It can be assumed that more than three million shipwreck remnants are scattered across the bottom of the oceans all over the planet. Despite the fact that these are only estimates and that the safety of the lost ships largely depends on the aquatic environment, the age of some of these wrecks reaches several thousand years. They can provide the most valuable historical information.
The development of underwater research of historical and cultural monuments, made possible thanks to the wide practical application of our geosonde technology, correctly selected methods and techniques allow not only to ensure the quality of the search for sunken ancient ships and other objects of historical value, but also to obtain complete and, most importantly, reliable information about the object during underwater excavations.
From a methodological point of view, underwater excavations are a complex, long-term process consisting of several sequentially carried out operations, which aims to accurately record all objects found underwater using our technology and detailed mapping and photogrammetry, and a step-by-step study of the monument taking into account the geological structure of bottom sediments.
Processing of instrument survey results
GeoZond Technology™ (GZT™) is the revolutionary three-stage technology of Metalin LLC for direct detection and delineation of minerals and hydrocarbon-bearing formations in the subsurface of the earth.
GZT™ is a revolutionary technology for exploring the earth from space using satellite images and from inside aircraft, usually helicopters, or directly on the surface of the earth to identify and precisely locate oil and gas, as well as other earth mineral deposits.
With the initiation of GZT™ surveys, GZT is provided a Customer defined area with specified geographical coordinates, which is defined in a contract indicating cost and timing for the completion of the GZT™Stage One Survey and Final Report.
GZT™ Stage One Surveys are the initial identification of anomalous mineral or hydrocarbon-bearing deposits in the subsurface on a Customer defined area based on data obtained from satellite images.
GZT™ Stage Two Surveys are field expeditions (usually a helicopter or ground based surveys) of the anomalous deposits on the Customer defined area with data processing included in a Final Report. The report will include the presence of hydrocarbon-bearing formations and potential drilling recommendations for hydrocarbon-bearing zones.
With the data obtained from a thoroughly analyzed GZT™ Stage Two Survey, can provide information on the exact location of deposit outlines and bedding depth of productive hydrocarbon horizons. In the Final Report, will inform the Customer of the depths, thicknesses, and perimeters of the most productive hydrocarbon-bearing formations identified by GZT™ points of highest concentration of radiation with suggested points for drilling exploration wells.
Performing the GZT™ Stage Two Survey makes it possible to correct the contours of the anomalies due to intrinsic emissions of hydrocarbons obtained during the GZT™Stage One Survey, rank them in terms of significance, and predict the results of drilling at sites with a probability accuracy of greater than ninety-two percent (92%).
If a Customer determines to continue the exploration effort by drilling a wildcat well, we will offer the Customer a GZT™ Stage Three Survey in which Metalin LLC will send a specialist to walk the area of the selected drilling location with a special set of GZT™ field equipment and will put a stake in the ground for an Metalin LLC will recommended drilling equipment (rig) location.
SCIENCE BEHIND GeoZond™ Technology
Every element in the Earth’s crust exists in an excited state and emits an "intrinsic radiation" spectrum. This spectrum has a unique amplitude, frequency, and phase.
Gold, silver, copper, coal, diamonds, REE, and hydrocarbon sources all generate intrinsic emissions which leave distinctive signatures, or echoes. We can observe these echoes on satellite images processed in our laboratory.
GeoZond™ Technology-based was developed to discover these mineral resources. And it does so by tracking the reflections and echoes of their intrinsic emissions reflected on satellite imagery.