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Company VITAVA marketing in trgovina d.o.o. (Slovenia, EU) and Sevastopol National University of Nuclear Energy and Industry (SNUNEI) (Ukraine) P R E S.

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Presentation on theme: "Company VITAVA marketing in trgovina d.o.o. (Slovenia, EU) and Sevastopol National University of Nuclear Energy and Industry (SNUNEI) (Ukraine) P R E S."— Presentation transcript:

1 Company VITAVA marketing in trgovina d.o.o. (Slovenia, EU) and Sevastopol National University of Nuclear Energy and Industry (SNUNEI) (Ukraine) P R E S E N T : Company VITAVA marketing in trgovina d.o.o. (Slovenia, EU) and Sevastopol National University of Nuclear Energy and Industry (SNUNEI) (Ukraine) P R E S E N T :

2 COMPLEX OF REMOTE INVESTIGATION AND OPERATIONAL RESEARCH OF COMMERCIAL MINERALS DEPOSITS BY GEOHOLOGRAPHIC METHOD: «POISK» COMPLEX OF REMOTE INVESTIGATION AND OPERATIONAL RESEARCH OF COMMERCIAL MINERALS DEPOSITS BY GEOHOLOGRAPHIC METHOD: «POISK»

3 SUMMARY Dear Sirs, We are glad to offer to your consideration our method of remote investigation and research of commercial mineral recourses with geoholographic complex of deep probing POISK. The work of complex POISK is based on technological know- how (geohydrodiagnostics, resonance geoholography) of patented stationary and mobile equipment of nuclear magnetic resonance (NMR). This method is applicable for search of any targeted commercial recourses at the vast territory, determining deposit outlines, providing deposit estimation and recommendations regarding their use. Dear Sirs, We are glad to offer to your consideration our method of remote investigation and research of commercial mineral recourses with geoholographic complex of deep probing POISK. The work of complex POISK is based on technological know- how (geohydrodiagnostics, resonance geoholography) of patented stationary and mobile equipment of nuclear magnetic resonance (NMR). This method is applicable for search of any targeted commercial recourses at the vast territory, determining deposit outlines, providing deposit estimation and recommendations regarding their use.

4 STAGE 1 Location determination and outlining of underground objects or deposits. STAGE 1 Location determination and outlining of underground objects or deposits. 1. Detecting deposit (contaminations) area boundaries. 2. Determining areas, deposit types and their depths. 1. Detecting deposit (contaminations) area boundaries. 2. Determining areas, deposit types and their depths. STAGE 3 Scientific search support STAGE 3 Scientific search support STAGE 2 Instrumental area investigation STAGE 2 Instrumental area investigation Visualization, remote deposit or object type identification, horizon depth determination. Chemical and holographic photograph processing, creating identification test matrices by means of radiation and chemical technologies at IR-100 reactor. Research area aerial photography and mapping. 1. Map with deposit and object boundaries, volumes, and depths. 2. Defining sites for technological and productive well location. 1. Map with deposit and object boundaries, volumes, and depths. 2. Defining sites for technological and productive well location. Determining of geophysical characteristics of the deposit (object), calculation of field production rate. Determining of the deposit boundaries at the search area, 3D specifications of the deposit horizon. Research area probing with special UHF equipment mounted on a motor vehicle. Three stages of remote search and estimation of the mineral recourses or underground (underwater) objects Three stages of remote search and estimation of the mineral recourses or underground (underwater) objects 1. Data specification of volumes, physical and chemical characteristics of the underground substances. 2. Determination of underground movement of contaminating admixtures. 3. Remote monitoring of technical conditions of the underground (underwater) oil and gas pipes, water pipes and reservoirs. 1. Data specification of volumes, physical and chemical characteristics of the underground substances. 2. Determination of underground movement of contaminating admixtures. 3. Remote monitoring of technical conditions of the underground (underwater) oil and gas pipes, water pipes and reservoirs. Providing optional data on issues regarding remote geo-environmental monitoring in the work area. Underground diagnosis of resource output, monitoring of equipment maintenance at the site. RESULTS Next

5 Principle of equipment operation Remote Earth probing is performed with narrow beam of SHF (10-60 ТHz). Specific signal of targeted substances (minerals) are formed above the deposit surface and registered by equipment of high sensitivity. Detailed aerial and satellite photography detects electromagnetic anomalies at the investigated area and maintains the efficiency of search works at vast territories. Remote Earth probing is performed with narrow beam of SHF (10-60 ТHz). Specific signal of targeted substances (minerals) are formed above the deposit surface and registered by equipment of high sensitivity. Detailed aerial and satellite photography detects electromagnetic anomalies at the investigated area and maintains the efficiency of search works at vast territories.

6 Principle of equipment operation OUTLINING THE MINERAL RESOURCES DEPOSITS (FIELD WORK) 1, 2 distance from the SHF generator to the nearest ant farthest line of receivers; a, b size (area) of the deposit; h 1, h 2 depth of the lowest and highest horizons of the deposit; P h =h 2 - h 1 formation thickness of the deposit; α 1, α 2 SHF beam tilt angle to the lowest and highest level of the deposit. OUTLINING THE MINERAL RESOURCES DEPOSITS (FIELD WORK) 1, 2 distance from the SHF generator to the nearest ant farthest line of receivers; a, b size (area) of the deposit; h 1, h 2 depth of the lowest and highest horizons of the deposit; P h =h 2 - h 1 formation thickness of the deposit; α 1, α 2 SHF beam tilt angle to the lowest and highest level of the deposit. Next

7 GPS survey of the Earth for deposit search and investigation DEPOSIT Search area ~ 4000 km 2 H=5000 m P h =h 2 -h 1 h1h1 h2h2 Satellite – 280 kmAirplane

8 Principle of equipment operation Processing the photographs with chemical solutions is followed by reading characteristic information and the energy spectrum signals of the targeted substance (mineral). Test processing of the acquired spectra is performed to identify the view and to outline the mineral deposit at the search area. Portable (mobile) nuclear-magnetic resonance (NMR) equipment allows to specify the boundaries of the deposit in the field, their outlining and transferring to the regional topographic map. Profiles, lens and ore body dimensions, layers depths and other physical parameters of the substances (temperature, density, fluidity, pressure, concentration > 0.5 mg/kg ) are measured. The acquired data is used for producing 3D image of the oil and gas deposit, ore body, water reservoirs, underground (underwater) objects and also for their boundaries detection. Processing the photographs with chemical solutions is followed by reading characteristic information and the energy spectrum signals of the targeted substance (mineral). Test processing of the acquired spectra is performed to identify the view and to outline the mineral deposit at the search area. Portable (mobile) nuclear-magnetic resonance (NMR) equipment allows to specify the boundaries of the deposit in the field, their outlining and transferring to the regional topographic map. Profiles, lens and ore body dimensions, layers depths and other physical parameters of the substances (temperature, density, fluidity, pressure, concentration > 0.5 mg/kg ) are measured. The acquired data is used for producing 3D image of the oil and gas deposit, ore body, water reservoirs, underground (underwater) objects and also for their boundaries detection. Next

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10 Equipment The research complex includes the following units: aerial photo device MAGELLAN for making images of the research areas; mobile SHF devices, laser generators and distance measuring devices, GPS devices; chemical processing technology complex for photo processing and applying the lactose gels; devices for electronic scanning of searches substance information energy spectra and for visualization of the ore bodies outlines on the photographs; equipment for transfer of visualized outlines of the ore bodies from the photograph to the geographical map of the region; nuclear magnetic and electro paramagnetic resonance units; special PC complex for location determination of the ore bodies, transfer to the maps, generating depth profiles of the deposits, estimation of the mineral resources deposits. The research complex includes the following units: aerial photo device MAGELLAN for making images of the research areas; mobile SHF devices, laser generators and distance measuring devices, GPS devices; chemical processing technology complex for photo processing and applying the lactose gels; devices for electronic scanning of searches substance information energy spectra and for visualization of the ore bodies outlines on the photographs; equipment for transfer of visualized outlines of the ore bodies from the photograph to the geographical map of the region; nuclear magnetic and electro paramagnetic resonance units; special PC complex for location determination of the ore bodies, transfer to the maps, generating depth profiles of the deposits, estimation of the mineral resources deposits. Next

11 Recording the spectra of the targeted substances at the nuclear-adsorption spectrometer. Stationary part of the complex «POISK» (technology fragments)

12 Recording of the information energy spectra of the ore samples applying the method of laser fluorescence. Stationary part of the complex «POISK» (technology fragments)

13 Recording of the information energy spectra of the uranium ore samples and associated robbing Stationary part of the complex «POISK» (technology fragments)

14 Recording the holographic sample tests at the database. Identification of the commercial mineral resources by means of comparing samples with the database (complex «Spectrum»). Decoding of the photography materials at the stationary part of complex «Poisk» (КС-100). Quality testing of the holographic gels samples. Recording the holographic sample tests at the database. Identification of the commercial mineral resources by means of comparing samples with the database (complex «Spectrum»). Decoding of the photography materials at the stationary part of complex «Poisk» (КС-100). Quality testing of the holographic gels samples. Stationary part of the complex «POISK» (technology fragments)

15 Research reactor of fast neutrons IR-100 (used for radiation chemical processing of the photo images). Stationary part of the complex «POISK» (technology fragments)

16 Program complex of deposit outlines visualization, mapping, identification of the depth profiles, mineral resources estimation.

17 Stationary part of the complex «POISK» (technology fragments) Plot 2 Plot 1 Plot 3 Boundary of the minefield Satellite photo of the discovered uranium ore plots 1, 2 in 3 Research manager: Kovalyov N.

18 Mobile part of the complex «POISK» (field work fragments) Depth and outline defining for the ore deposit (field work) Depth and outline defining for the ore deposit (field work)

19 Mobile part of the complex «POISK» (field work fragments) Defining the horizon points of the uranium ore deposit.

20 Complex «POISK» (technology fragments) Refining the boundaries of the uranium ore plot 2.

21 Complex «POISK» (technology fragments) Depth profile cuts of the uranium ore plot

22 Technical specifications of the complex Probability of remote identification of some types of mineral resources at the depth up to m (underground and underwater) Oil – more than 95% Gas – 95% Gas condensate – more than 90% Polymetal ores – 85% Metals – 98% Validity of remote detection of the resources in the deposit 75-85% Permissible variation of the deposit s coordinates determination ± 0,5-1,0 m Permissible variation of the object s coordinates determination (underground) 2000 m: do ± 0,4% of depth 5000 m: do ±0,25-0,3% of depth Weight of the mobile part of complexUp to 80 kg Weight of the stationary part of complexMore than 1200 kg Sensitivity of the complex1 ÷ 1,5 g/t Next

23 Our business partner - Aero-Space Agency "MAGELAN" (Ukraine) implement the full range of aero-cosmic pictures, surveying and topographic works, including the production of high quality graphic data products and offer other information and analytical materials. The company owns a unique thermal-imaging equipment, aero-photo recording and navigation. This software is installed on specific aircraft AN-30 and L-410 and helicopter Ka-26. Our business partner - Aero-Space Agency "MAGELAN" (Ukraine) implement the full range of aero-cosmic pictures, surveying and topographic works, including the production of high quality graphic data products and offer other information and analytical materials. The company owns a unique thermal-imaging equipment, aero-photo recording and navigation. This software is installed on specific aircraft AN-30 and L-410 and helicopter Ka-26.

24 Aerospace agency «MAGELLAN» Airplane An-30 Helicopter Ka-26

25 Method acknowledgements As a result of investigation of seven major deposits in Russia VITAVA company obtained the data (deposit boundaries, volume, depths, quality characteristics), that confirmed the results of previous researches carried out by conventional methods. There were discovered new deposits of drinking water, platinum, diamonds, oil in the United Arab Emirates, oil, gas and potable water in Greece and Mauritania; oil, gas, a gas condensate (three deposits), copper, silver, diamonds, uranium, chrome, magnesium in Russia; gas, a gas condensate, platinum, gold, uranium in Ukraine. Results have been confirmed by drilling. As a result of investigation of seven major deposits in Russia VITAVA company obtained the data (deposit boundaries, volume, depths, quality characteristics), that confirmed the results of previous researches carried out by conventional methods. There were discovered new deposits of drinking water, platinum, diamonds, oil in the United Arab Emirates, oil, gas and potable water in Greece and Mauritania; oil, gas, a gas condensate (three deposits), copper, silver, diamonds, uranium, chrome, magnesium in Russia; gas, a gas condensate, platinum, gold, uranium in Ukraine. Results have been confirmed by drilling. Next

26 Method acknowledgements Search of mineral resources in the United Arab Emirates

27 Profiles of productive oil deposits

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29 Method acknowledgements Since December 2007, VITAVA company has been closely cooperating with the Ministry of Oil and Gas of the Democratic Republic of Congo. Due to the interest to our method, negotiations with the Congolese delegation resulted in signing the Preliminary Agreement on data acquisition and estimation of methane gas resources near the Lake Kivu. The delegation visited Kyiv (Ukraine) for the purpose of detailed acquaintance with the method "Poisk" as well as with potential and possibilities of VITAVA company and its experts. Since December 2007, VITAVA company has been closely cooperating with the Ministry of Oil and Gas of the Democratic Republic of Congo. Due to the interest to our method, negotiations with the Congolese delegation resulted in signing the Preliminary Agreement on data acquisition and estimation of methane gas resources near the Lake Kivu. The delegation visited Kyiv (Ukraine) for the purpose of detailed acquaintance with the method "Poisk" as well as with potential and possibilities of VITAVA company and its experts. Next

30 Method acknowledgements As a result of the search works executed according to the Preliminary Agreement, the unique methane gas deposit was discovered in the area of the Lake Kivu. According to preliminary data, the forecast for the original gas in the place (OGIP) supposed to make m ³. At the recoverability factor of 0.3, the industrial developing of the deposit will allow to receive m ³ of natural gas. As a result of the search works executed according to the Preliminary Agreement, the unique methane gas deposit was discovered in the area of the Lake Kivu. According to preliminary data, the forecast for the original gas in the place (OGIP) supposed to make m ³. At the recoverability factor of 0.3, the industrial developing of the deposit will allow to receive m ³ of natural gas. Next

31 Method acknowledgements Method Poisk passed a series of probations which had positive results in Ukraine. For several years this method has been successfully applied to implementation of national programs of uranium and hydrocarbons search. In this letter the Ministry of Fuel and Energy of Ukraine confirms reliability of this technology, underlining the economic profitability of its use in the industry. Method Poisk passed a series of probations which had positive results in Ukraine. For several years this method has been successfully applied to implementation of national programs of uranium and hydrocarbons search. In this letter the Ministry of Fuel and Energy of Ukraine confirms reliability of this technology, underlining the economic profitability of its use in the industry. Next

32 Method acknowledgements In February 2009 method Poisk passed probations at 5 control oil fields in Utah (the USA). Our specialists were informed only about the geographical coordinates of this objects. Object size is 100 km ² each. Deposits have been studied for the last ten years by the local oil companies and their probe drilling gave results of oil presence, geometrical parameters of petroliferous horizons, oil formation pressure, physical and chemical fluid characteristics. Results of our investigation work were handed over to the group of independent experts. Comparing of the data received by the method Poisk with the available geological data of these deposits, there was registered 100 % coincidence of results obtained with both methods at four objects and 98 % - at the last object. The high percentage of data acknowledgement proves the high efficiency of the method Poisk" which does not have analogues in the world. In February 2009 method Poisk passed probations at 5 control oil fields in Utah (the USA). Our specialists were informed only about the geographical coordinates of this objects. Object size is 100 km ² each. Deposits have been studied for the last ten years by the local oil companies and their probe drilling gave results of oil presence, geometrical parameters of petroliferous horizons, oil formation pressure, physical and chemical fluid characteristics. Results of our investigation work were handed over to the group of independent experts. Comparing of the data received by the method Poisk with the available geological data of these deposits, there was registered 100 % coincidence of results obtained with both methods at four objects and 98 % - at the last object. The high percentage of data acknowledgement proves the high efficiency of the method Poisk" which does not have analogues in the world. Next

33 Method acknowledgements For the purpose of the method efficiency acknowledgement our company has carried out works on detection of diamondiferous deposits in the territory of the Democratic Republic of Congo. We have received the following results: Seven kimberlitic pipes were discovered with the top formation layer located at the depth of 20 – 60 m, and the bottom layer – at 285 – 400 m. Diamondiferous type-rocks were found at the depth of m. It proves that diamondiferous type-rocks have been washed out by underground water circulation for thousands of years. Underground water zones can be found in the most parts of the territory of the DRC and underground water moves in the direction from the East to the West at depth of 7.5 – 8 m. This method allowed to trace its movement. In the direction of underground water streams we detected large amount of diamondiferous alluvial placers which were formed in the result of water degrading of some kimberlitic deposits discovered by our specialists. For the purpose of the method efficiency acknowledgement our company has carried out works on detection of diamondiferous deposits in the territory of the Democratic Republic of Congo. We have received the following results: Seven kimberlitic pipes were discovered with the top formation layer located at the depth of 20 – 60 m, and the bottom layer – at 285 – 400 m. Diamondiferous type-rocks were found at the depth of m. It proves that diamondiferous type-rocks have been washed out by underground water circulation for thousands of years. Underground water zones can be found in the most parts of the territory of the DRC and underground water moves in the direction from the East to the West at depth of 7.5 – 8 m. This method allowed to trace its movement. In the direction of underground water streams we detected large amount of diamondiferous alluvial placers which were formed in the result of water degrading of some kimberlitic deposits discovered by our specialists. Next

34 Method acknowledgements

35

36 For work performance, we were not provided with all existing kimberlitic and colored diamonds samples of the investigation region. Therefore we found the deposits (kimberlitic pipes) which contain only the type-rocks and alluvial colorless diamonds indicated and available for us as samples for investigation. While research work we investigated in details a large kimberlitic placer with the zone of spreading of 7 km ². Kimberlitic placers are situated at the depth of 50 – 350 m, diamondiferous – at the depth of 70 m. It can be explained by the powerful underground water stream located at m depth, which carried out the kimberlits. Crater diameter and geometrical model of the deposit will be defined the second stage of work performance. To the West from the kimberlitic placer zone, on the depth of 10 – 10.5 m we discovered the chain of alluvial diamonds with the diamondiferous layer of 0.45 m. For work performance, we were not provided with all existing kimberlitic and colored diamonds samples of the investigation region. Therefore we found the deposits (kimberlitic pipes) which contain only the type-rocks and alluvial colorless diamonds indicated and available for us as samples for investigation. While research work we investigated in details a large kimberlitic placer with the zone of spreading of 7 km ². Kimberlitic placers are situated at the depth of 50 – 350 m, diamondiferous – at the depth of 70 m. It can be explained by the powerful underground water stream located at m depth, which carried out the kimberlits. Crater diameter and geometrical model of the deposit will be defined the second stage of work performance. To the West from the kimberlitic placer zone, on the depth of 10 – 10.5 m we discovered the chain of alluvial diamonds with the diamondiferous layer of 0.45 m. Next

37 Technology advantages: Universality 1. Universality of carrying out search of any kinds of minerals (oil, gas, a gas condensate, gold, uranium ores, polymetals, water etc.). High reliability 2. High reliability of investigation, outlining, deposit depths detection and estimation of mineral resources (from 85 % to 95 %). Short terms 3. Short terms of mineral deposits estimation (from 3 till 6 months). Low cost 4. Low cost works (there is no "blind" drilling on the vast areas). The new method defines type and a deposit profile instead of its geophysical signs. Therefore there are no expenses for traditional geophysical, geochemical and geological survey. Quantity characteristics 5. Quantity characteristics of minerals (volume, density, impurity, occurrence, pressure in horizons, concentration of polymetals in ore bodies) are the subject of remote detection, that allows to estimate deposits quality and their industrial feasibility without drilling. Universality 1. Universality of carrying out search of any kinds of minerals (oil, gas, a gas condensate, gold, uranium ores, polymetals, water etc.). High reliability 2. High reliability of investigation, outlining, deposit depths detection and estimation of mineral resources (from 85 % to 95 %). Short terms 3. Short terms of mineral deposits estimation (from 3 till 6 months). Low cost 4. Low cost works (there is no "blind" drilling on the vast areas). The new method defines type and a deposit profile instead of its geophysical signs. Therefore there are no expenses for traditional geophysical, geochemical and geological survey. Quantity characteristics 5. Quantity characteristics of minerals (volume, density, impurity, occurrence, pressure in horizons, concentration of polymetals in ore bodies) are the subject of remote detection, that allows to estimate deposits quality and their industrial feasibility without drilling. Naprej

38 Approbation During 2003 – 2007 experts of «SNUNEI» and «VITAVA d.o.o.» have carried out a considerable number of organizational, marketing, research, geological, ecological and diagnostic works confirming the practical efficiency of this method. We cooperated with enterprises dealing with geological survey in Ukraine (OJSC "Chernomor-neftegaz" Simferopol), Russia (Russian Academy of Natural Sciences, Moscow; "INKOTEK-REGION", Moscow; Tyumen Institute of Oil and Gas, International Institute of Geoinformation Analysis of the Earth, Geneva, branch in Moscow; JSC Kurganneftegaz", Kurgan; CJSC "Geomir", Moscow; JSC Kraton", Arkhangelsk), Mongolia, Greece and the Republic of Mauritania (Global Scan Technologies, the UAE, Dubai). Effectiveness control of results, acquired as approbation of detection, outlining and estimations of oil, gas and gas condensate deposits, proved their complete coincidence with the results of known (already investigated) deposits. The results received by this method are confirmed by test drilling. No errors were registered in definition of a mineral type, boundaries, profiles and physical parameters on the depths up to 4500 meters. The detection probability is more than 95 %, while conventional technologies effectiveness is not more than 35 %. During 2003 – 2007 experts of «SNUNEI» and «VITAVA d.o.o.» have carried out a considerable number of organizational, marketing, research, geological, ecological and diagnostic works confirming the practical efficiency of this method. We cooperated with enterprises dealing with geological survey in Ukraine (OJSC "Chernomor-neftegaz" Simferopol), Russia (Russian Academy of Natural Sciences, Moscow; "INKOTEK-REGION", Moscow; Tyumen Institute of Oil and Gas, International Institute of Geoinformation Analysis of the Earth, Geneva, branch in Moscow; JSC Kurganneftegaz", Kurgan; CJSC "Geomir", Moscow; JSC Kraton", Arkhangelsk), Mongolia, Greece and the Republic of Mauritania (Global Scan Technologies, the UAE, Dubai). Effectiveness control of results, acquired as approbation of detection, outlining and estimations of oil, gas and gas condensate deposits, proved their complete coincidence with the results of known (already investigated) deposits. The results received by this method are confirmed by test drilling. No errors were registered in definition of a mineral type, boundaries, profiles and physical parameters on the depths up to 4500 meters. The detection probability is more than 95 %, while conventional technologies effectiveness is not more than 35 %. Next

39 Research: This method was applied for investigation of new oil, gas and gas condensate deposits, underground water and various ores in the following countries: The United Arab Emirates (drink water, platinum, diamonds, oil); Greece (oil, gas, drink water); Mauritania (drink water, oil); Russia (gas, oil, gas condensate, copper, silver, diamonds, uranium, chrome); Ukraine (gas, gas condensate, platinum, gold, uranium); Mongolia (nickel, copper, uranium, gold, oil). As a result of cooperation with state authorities of Ukraine regarding the ecological and technogenic accidents prevention, we revealed the following threats in the territory of Autonomous Republic Crimea (Ukraine): Numerous gas leakages from the underwater gas pipeline (depth 30 m) and aviation fuel from storehouses, migration ways of contamination caused by these substances in underground water horizons (depths m); Underground stock of explosives of the Second World War (depth 6 m), chemical warfare agents under water and silt layer (depth m). This method was applied for investigation of new oil, gas and gas condensate deposits, underground water and various ores in the following countries: The United Arab Emirates (drink water, platinum, diamonds, oil); Greece (oil, gas, drink water); Mauritania (drink water, oil); Russia (gas, oil, gas condensate, copper, silver, diamonds, uranium, chrome); Ukraine (gas, gas condensate, platinum, gold, uranium); Mongolia (nickel, copper, uranium, gold, oil). As a result of cooperation with state authorities of Ukraine regarding the ecological and technogenic accidents prevention, we revealed the following threats in the territory of Autonomous Republic Crimea (Ukraine): Numerous gas leakages from the underwater gas pipeline (depth 30 m) and aviation fuel from storehouses, migration ways of contamination caused by these substances in underground water horizons (depths m); Underground stock of explosives of the Second World War (depth 6 m), chemical warfare agents under water and silt layer (depth m). Next

40 Conclusions Practical results confirmed the effectiveness of complex «POISK» in investigation of commercial mineral resources in depth up to 5000 m without conventional high cost probe drilling. This equipment provides opportunities for remote ecological monitoring and technical diagnosis of variable underground and underwater objects. Laboratory results proved the expediency use of the complex in search and rescue works (searching for trapped people and valuable objects under the obstructions, black boxes of the air crash accidents, etc.) Practical results confirmed the effectiveness of complex «POISK» in investigation of commercial mineral resources in depth up to 5000 m without conventional high cost probe drilling. This equipment provides opportunities for remote ecological monitoring and technical diagnosis of variable underground and underwater objects. Laboratory results proved the expediency use of the complex in search and rescue works (searching for trapped people and valuable objects under the obstructions, black boxes of the air crash accidents, etc.) Next

41 Naši partnerji Main scientific sources and R&D operations of our company are located in the territory of Ukraine and Russia. Most of our know-how technologies are related to national security of the former USSR and were the subject to non-disclosure. Among VITAVAs partners there are scientific and research establishments like: - Institut JOŽEF STEFAN" Ljubljana - Sevastopol National University of Nuclear Energy and Industry Ivano-Frankivsk National Technical University of Oil and Gas - Institute of Physics of National Academy of Sciences in Ukraine - National Technical University of Ukraine «Kiev Polytechnic Institute» - Institute of Applied Physics and Biophysics NAS of Ukraine - State Geological Survey of Ukraine - Institute of Space Researches of Russian Academy of Sciences, etc. Our folowing partners are involved in introduction and promotion of scientific research results in various industries: EGI d.o.o. (Ljubljana, Slovenia), LEVANT d.o.o. (Ljubljana, Slovenia), VALTER d.o.o. (Ljubljana, Slovenia), Ladranska pomorska straza (Umag, Croatia), Institute of Ecology Monitoring (Tivat, Montenegro), IBE TRADE CORP. (New York, the USA), ATLANTIC EXPRESS BUSINESS LTD (London, UK), MAGELLAN (Kyiv, Ukraine), TASКО-export (Kyiv, Ukraine), PROGRES (Kyiv, Ukraine), EKOTOR (Russia). LEGITIMUS Law Company (Kyiv, Ukraine) is our legal partner in Ukraine and countries of the former Soviet Union, providing legal support of our business affairs worldwide. VITAVA company participates in initiatives of the following international charitable foundations: IRF (Ljubljana, Slovenia) –fund of compensation for victims of the World War II and other military conflicts «Future of Ukraine» (Kyiv, Ukraine) – charity fund for children, elderly people and deprived population. All mentioned above are the grounds of partnership development and achievements in successful collaboration. Main scientific sources and R&D operations of our company are located in the territory of Ukraine and Russia. Most of our know-how technologies are related to national security of the former USSR and were the subject to non-disclosure. Among VITAVAs partners there are scientific and research establishments like: - Institut JOŽEF STEFAN" Ljubljana - Sevastopol National University of Nuclear Energy and Industry Ivano-Frankivsk National Technical University of Oil and Gas - Institute of Physics of National Academy of Sciences in Ukraine - National Technical University of Ukraine «Kiev Polytechnic Institute» - Institute of Applied Physics and Biophysics NAS of Ukraine - State Geological Survey of Ukraine - Institute of Space Researches of Russian Academy of Sciences, etc. Our folowing partners are involved in introduction and promotion of scientific research results in various industries: EGI d.o.o. (Ljubljana, Slovenia), LEVANT d.o.o. (Ljubljana, Slovenia), VALTER d.o.o. (Ljubljana, Slovenia), Ladranska pomorska straza (Umag, Croatia), Institute of Ecology Monitoring (Tivat, Montenegro), IBE TRADE CORP. (New York, the USA), ATLANTIC EXPRESS BUSINESS LTD (London, UK), MAGELLAN (Kyiv, Ukraine), TASКО-export (Kyiv, Ukraine), PROGRES (Kyiv, Ukraine), EKOTOR (Russia). LEGITIMUS Law Company (Kyiv, Ukraine) is our legal partner in Ukraine and countries of the former Soviet Union, providing legal support of our business affairs worldwide. VITAVA company participates in initiatives of the following international charitable foundations: IRF (Ljubljana, Slovenia) –fund of compensation for victims of the World War II and other military conflicts «Future of Ukraine» (Kyiv, Ukraine) – charity fund for children, elderly people and deprived population. All mentioned above are the grounds of partnership development and achievements in successful collaboration. Conclusions Exit


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