referencia de trabajos hechos en el mundo tanto en petróleo y gas, que aguas, mineral, gemas y otros problemas
1.2. ¿Cómo funciona la tecnología RSS-NMR?
1. El transmisor envía una señal estrechamente direccional típica solo de la sustancia que se busca (petróleo, gas), es decir, se incluye información sobre el petróleo o el gas en la señal.
2. Una vez que la señal llega al petróleo o al gas, la señal informativa penetra en el interior de la sustancia buscada y de inmediato revela este depósito (petróleo, gas, minerales, etc.) vuelve a emerger y percibimos la información sobre el petróleo o el gas y con confianza en la superficie sabemos que hemos alcanzado al objetivo.
A esto se le llama resonancia del material que se busca, por lo tanto, no necesitamos interpretación, este es el descubrimiento directo de un depósito. La precisión es del 90-95%, por este motivo la exploración con esta tecnología es realiza en un tiempo muy corto de 15 a 30 días.
1.2.1. Alcance del Proyecto RSS-NMR
Se tienen dos etapas:
• ETAPA 1: Es el método RSS, que es remoto; recibimos datos de resonancia de imágenes espaciales en un reactor nuclear en Ucrania. La precisión es del 85-90%, que es tres veces mayor en comparación con la sísmica.
• Todo se hace a Kiev, Ucrania, por eso y de forma remota, no se gasta tiempo y energía en la parte administrativa y para la captura de los datos en el bloque a explorar. Se hace de una forma discreta sin crear alborotes en la zona y protestas cualquiera
• ETAPA 2: Es un estudio de campo de NMR que se realiza con un equipo reducido. La precisión del trabajo es del 95%. ver el siguiente video https://youtu.be/EsITieoHDSQ etapa dos de campos y conclusiones.
Con este trabajo se tiene reducción de costos además de una precisión que supera los 90 %.
2. 2
Institute
of Geophysics
and Problems
of the Earth
Ltd
Институт
Геофизики
и проблем
Земли
ООО
Content Содержание
About the Institute
About the Innovative Technology
Services of the Institute
Equipment
Completed works
Contact us
Об Институте
Об Инновационной Технологии
Сервисы Института
Оборудование
Выполненные работы
Контакты
…….
Institute of Geophysics and Problems of the Earth
…….
…….
3. 3
About the Institute
of Geophysics and Problems
of the Earth
Об Институте
геофизики и проблем
Земли
History
The “Institute” was founded in
February 2007 with the aim of work
coordination and management of a group of
private research and innovative enterprises
in Ukraine and abroad.
Mission
Company's mission is the increase of
efficiency of use of non-restorable natural
resources and development of alternative
energy.
The main goal
of the company is the creation
and implementation of high-end technologies
that increase the efficiency of use of non-
restorable natural resources of the Earth.
.
Main achievement
История
«Институт» была основана в феврале
2007 года с целью координации работы и
управления группой частных
исследований и инновационных
предприятий в Украине и за рубежом.
Миссия
компании состоит в повышении
эффективности использования
невосстанавливаемых природных
ресурсов и в развитии альтернативной
энергетики.
Основными целями
компании является создание и
внедрение наукоемких инновационных
технологий, повышающих
эффективность использования
невосстанавливаемых природных
ресурсов Земли.
Главное достижение
The development and practical application of
the Innovative Тechnology of direct sounding
of the Earth
Разработка и практическое внедрение
Инновационной Технологии прямого
зондирования земли
Institute of Geophysics and Problems of the Earth
…….
4. 4
About the
Innovative Technology
Об Инновационной
Технологии
The given technology belongs
to direct geophysical methods
and is classified as nuclear-magnetic
resonance technology.
Unlike traditional geophysical methods,
we carry out deep resonant sounding of the
Earth which reveals
type of a mineral and quantitative characteristics
of a deposit.
Сapabilities of the Тechnology:
Territory of action
is any region on land or shelf (offshore)
in the territory of the Earth;
Minimum and maximum areas
under investigation are virtually unlimited;
Sounding depth
onshore and offshore is from 0 to 5 km;
Detectable minerals –
water resources, oil, gas,
different metals in ore beddings;
Method’s sensitivity –
1 gram of substance
per ton of ore body;
Detection success of deposits: not less
than 95 % for water resources
and hydrocarbons, for all other
minerals – not less than 90 %.
Данная технология относится к прямым
геофизическим методам
и классифицируется как ядерно-
магнитная резонансная технология.
В отличие от традиционных геофизических
методов, нами осуществляется глубинное
резонансное зондирование земли,
выявляющее вид полезного ископаемого и
количественные характеристики залежи.
Возможности технологии:
Территория обследования –
любой участок суши или шельфа
на территории Земли;
Минимальная и максимальная
площади обследуемой территории -
практически не ограничены.
Глубины зондирования на суше и на
шельфе – от 0 до 5 км;
Обнаруживаемые полезные
ископаемые – водные ресурсы, нефть,
газ, различные минералы и металлы в
рудных залеганиях;
Чувствительность метода –
1 грамм вещества на тонну рудного
тела;
Успешность обнаружения залежей: не
мене 95 % для водных ресурсов и
углеводородов, для всех других видов
полезных ископаемых - не менее 90 %.
Institute of Geophysics and Problems of the Earth
…….
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5. 5
Institute of Geophysics and Problems of the Earth
Classification Классификация
S
e
i
s
m
o
g
r
a
p
h
y
“Direct” method of remote sounding of mineral deposits
Resonance Spectral Nuclear magnetic
Sounding resonance
Use of analog aerospace
photograph
Work on site
Diagnostics
of large territory
2 – 3 months
Expedition
to location
2 months
Search and
survey of deposits
2 months
The combination of different stages of the technology allows us to solve
various problems – from survey of control points for drilling to exploration of
inaccessible areas on land and offshore for all climatic conditions
Сочетание различных этапов технологии позволяет решать
разнообразные задачи - от исследования точек бурения до
обследования труднодоступных районов на суше и на
шельфе для любых климатических условий
Up to 10 000 sq. km and more 1 – 1000 sq. km In the deposit area
Patented processing of satellite images Patented Point sounding
6. 6
Comparative analysis of terrestrial technologies
Institute of Geophysics and Problems of the Earth
Survey of the Earth's crust based
on the study of artificially aroused
elastic waves
Studies of mineral deposits based on
the arousal of the desired material
with the help of nuclear magnetic
resonance
…….
To arouse vibrations applied
explosions, vibration or shock effect
on the rocks is used
Effectiveness - about 30%
There are restrictions on the type of
terrain,
The relatively high cost of work,
The long duration of work and data
processing,
Unfavorable to the environment.
To arouse resonance applies the
signal spectrum corresponding to
the desired substances
Effectiveness - 90%
There are no restrictions on the type
of terrain,
The relatively low cost of work,
The short duration of work and data
processing,
It has no effect on humans and the
environment .
Seismography Innovative Technology
7. 7
Patents, certificates Патенты, сертификаты
Patent № 35122 “Search method of mineral deposits”, Ukraine, 2004,
Patent № 86168 “A method of search of natural gas deposits”, Ukraine, 2013,
Patent № 86169 “A method of search of natural gas deposits”, Ukraine,2013,
Patent № 86496 “Search method of mineral deposits using analogue pictures of the
Earth's surface”, Ukraine, 2013;
8. 8
Ukraine
CERTIFICATE
OF ATTESTATION
RI-038/13 5
th
July, 2013
This certificate certifies that
the Group of analytic surveys
of the research laboratory of
nuclear, chemical and radiation
technologies and technical
control
COMPLIES WITH CRITERIA
OF ATTESTATION, CERTIFIED
TO THE RIGHT OF DEPTH
MEASUREMENTS
OF MINERALS
Patent № 86497 “A method of search of oil deposits”, Ukraine, 2013
Patent № 21 2013 000 274 “The remote exploration of mineral deposits”, Germany, 2015
The positive decision to the International application
РСТ/UA2011/000033 "The system of remote exploration of mineral resources" 2011;
РСТ/UA2013/000036 "System for remote exploration of mineral deposits " 2013.
9. 9
The stationary equipment
Atomic absorption spectrophotometer Complex of spectral identifying substances
Атомно-абсорбционный спектрофотометр Комплекс спектральной идентификации веществ
Microscope with a video attachment X-ray spectrograph
Микроскоп с видеоприставкой Рентгеновский спектрограф
Scanning tunnel microscope Complex of spectral equipment
Сканирующий туннельный микроскоп Комплекс спектральной аппаратуры
Institute of Geophysics and Problems of the Earth
…….
10. 10
Complex of mobile equipment
Spectral reprinter Set of portable equipment
Спектральный репринтер Комплект переносной аппаратуры
Placement of the transmitting part of the complex on terrain
Размещение передающей части комплекса на местности
View of receiving-transmitting part of the complex on terrain
Вид приемо-передающей части комплекса на местности
Institute of Geophysics and Problems of the Earth
11. 11
Main Works of Our Company
The technology trials and main works of our company that were conducted
by orders, as well as works in partnership format with investor are shown below.
1. Oil Deposits
№ Country Year Customer and results of the operations
1.1 Ukraine 2007 Own project. ―Vladislavskoe‖ deposit. Equipment
testing during depth measurement of oil occurrence at
wells № 18, 21, 22, 24. Measurement errors not more
than 5%
1.2 Ukraine 2007 Own project. ―Moshkarevskaya‖ site. Equipment
testing during depth measurement of oil occurrence at
wells № 1 and 119. Measurement errors not more
than 5%
1.3 USA,
Utah
2009 Own project. Technology testing in Utah, USA with
complex geological conditions. Very high efficiency
characteristics are shown.
1.4 USA,
Utah
2009 Sevier Exploration, LLC Lehi, UT. Oil deposit was
detected and surveyed in the region of Oak City.
Drilling was not conducted
1.5
1.6
Ukraine 2010 ―The State Enterprise "Chernomorneftegaz"
Simferopol, Republic of Crimea.
1. Тhe deposit «Vladislavovskoe». The study results
are confirmed by drilling on terrain. The outlook on
the depth and horizons coincided.
2. The deposit "Subbotinskoe". The study results are
confirmed by drilling on shelf.
Chief Geologist Pavlov Stanislav D.
Tel / fax+7 978 077 6888
E mail: PavlovSD@l.ua Site: www.gas.crimea.ru.
1.7 Indonesia 2011 ―Russ Techno Indonesia‖, Brantas block. Testing and
order were conducted simultaneously. 14 prospective
oil and gas deposits were detected on terrain and
shelf.
Ruko Permata Boulevard Blok B A, № 1. JI Raya
Jakarta Barat 11550. tel.: +62 8170 228877,
Responsible Executive Y. Rakintsev
+7926 872 3788 (Moscow).
1.8 Guinea Gulf 2011 Own project. Remote testing of two sea platforms
with utilization of the patented technology of
processing of analogue aerospace photographs.
12. 12
1.9 Nigeria 2011 ―Resonance Exploration Limited‖, UK. Two oil
deposits on terrain and shelf were detected and
remotely surveyed. Drilling was not conducted. The
customer did not allow the publication
1.10 Ethiopia 2012 Partnership project. Two large oil basins were
detected and contoured. Work in progress
1.11 Russia 2012 Partnership project. Two large oil deposits were
detected and contoured. Work in progress
TRANSCOMPLEX CO.UK
Adress: Room 4.08, Fleet House 8-12, New Bridge
Street, London, United Kindom, EC4V 6AL
tel.: +44 20 704 869 75, fax: +44 20 704 869 82
Russian Federation: tel.: +7 9 295 224 033,
Ukraine: tel.: +38 098 3111 442.
e-mail: info@transcomplex.uk.com
1.12 Libya 2014 Company Wahha. The pilot project. Remote testing
well before drilling. The data completely coincided
with drilling. Work in progress
1.13 Lithuania 2014 Lotus Geonafta. Testing of two wells. The data
coincided
1.14 Russia 2015 Remote testing 2 wells before drilling. The data
completely coincided with drilling.
Production Company "Geosystems" Ltd.
Director Yuri Petrov.
Tel / fax +8452 260 373
e-mail: ppk_geosistems@mail.ru
1.15 Russia 2015 Partnership project. Studied in detail section site
Tarumovsky, Saratov region., Russia.
According to our data obtained a license for the
operation. Production Company "Geosystems" Ltd.
Director Yuri Petrov. Tel / fax +8452 260 373
e-mail: ppk_geosistems@mail.ru
1.16 Greece.
Crete
8350 km sq.
2016 Partnership project. The whole territory of Crete was
surveyed. Prospective oil deposits have been
identified.
1.17 Mongolia. 2016 The licensed area of 17,000 sq km was surveyed. Four
large oil deposits were discovered.
Company «UGT Ltd», Dubai, UAE.
1.17 Italy,
Sardinia
2017 Partner project. On an area of 5000 km square, three
oil deposits were identified.
13. 13
1.18 USA,
Iowa
2017 "Chocolate Flats Petroleum, Inc.", TX.
Investigation of 2 points intended for drilling.
1.19 Kazakhstan 2018 On an area of 500 km square, oil, gas, and gas
condensate deposits were identified.
2. Deposits of Natural Gas, Shale Gas, Gas Condensate and Gas Hydrates
№ Country Year Customer and results of the operations
2.1 Ukraine
Natural gas
2006 Own project. Equipment testing during depth
measurement of gas occurrence on two wells and gas
condensate on two wells. Data match is good
2.2 Ukraine
Natural gas
2007 ―Center of management and marketing in the field of
Earth sciences of the Institute of Geological Sciences
of the National Academy of Sciences of Ukraine‖.
Novokonstantinovskaya well. Work results coincided
with prospecting data and are confirmed by drilling
2.3 Ukraine
Natural gas
2008 Own project. Survey of 30 km Chernobyl area. Two
gas deposits were detected and surveyed. Drilling
was not conducted
2.4 USA,
Texas.
Shale gas
2010 Customer: Furie Petroleum Company, Texas limited
liability company. Authorized Representative
Edward Page Oliver
The deposit was proved from the first drilling.
2.5 Ukraine
Natural gas
2010 ―Zasyad’ko Mine‖. Search and survey of natural gas
deposits under coal horizons. The deposit was proved
from the first drilling.
Zasyad’ko Coal Mine, Ukraine, 2010
CEO PE Filimonov.
Address: 83054, Donetsk, pr Zasyad'ko
Phone: +3 8 (062) 201-63-89
Fax: +3 8 (062) 306-30-50, 3 8 (062) 201-66-14
2.6 Nigeria
Natural gas
2011 ―Resonance Exploration Limited‖, UK. Three gas
deposits on terrain (block OPL-452) were detected
and surveyed. Drilling was not conducted. The
customer did not allow the publication
2.7 Ukraine
Antarctica,
gas hydrates
2012 Ukrainian Antarctic expedition of the National
Antarctic Center of Ukraine. Gas hydrate deposits
were detected and surveyed.
2.8 Ukraine
Natural gas
2013 ―Intermay Management Limited‖, UK. Six gas
deposits were detected and surveyed.
14. 14
2.9 Russia 2015 Partnership project. Studied in detail site Petrovskiy,
Saratov region, Russia.
According to our data obtained a license for the
operation. Production Company "Geosystems" Ltd.
Director Yuri Petrov.
Tel / fax +8452 260 373
e-mail: ppk_geosistems@mail.ru
3. Ore Deposits
№ Country Year Customer and results of the operations
3.1 Ukraine 2006-
2007
R&D on detection of uranium ore sites at
Ingul’skaya, Smolinskaya and Lesnaya wells jointly
with ―UkrNIPIpri-technologiya‖. Results were
proved by drilling of 8 wells
3.2 Ukraine 2006-
2007
―VostGOK‖ State Enterprise. Survey of mine
allotment of Smolinskaya well. Three new uranium
ore body at depth of 250-300 m. Proved by drilling
on site № 3
3.3 Russia 2008 Russian Academy of Sciences. Survey of four
deposits of metallurgical coal. 12 horizons were
detected and surveyed
3.4 Mongolia 2010 ―ERDENET‖ enterprise. Forecast surveys of three
sites of copper molybdene ores. Results proved by
drilling
3.5 Madagascar 2014 Remotely identified and further confirmed 3 gold
deposits in the territory of 12.5 square kilometers.
Geophysical Service & Advanced Technologies,
LTD.CO. President Hakan Chavach,
+90 312 4440, www.js.com.tr
e-mail: info@js.com.tr
3.6 Kyrgyzstan 2016 Quartz veins containing gold were remotely located
on an area of 1 km square. The data of bedding were
obtained. Partner project.
3.7 Ecuador 2017 Gold in ore and alluvial deposits were remotely
located on an area of 1 km square.
15. 15
Iran 2017 Company Azurit FZC, Kazakhstan.
Copper, gold, pyrite, magnetite were identified and
successfully remotely examined on an area of 50 km
square.
4. 5. Fresh Water
№ Country Year Customer and results of the operations
5.1 Mauritania.
Sahara Desert
2007 Detected and then opened the flow of fresh water in
the Sahara Desert of MAURITANIA.. 2,500 sq. km
in the region of Atar city at the depth of 150 m fresh
water deposit was detected and successfully drilled.
The work was commissioned by the Department of
Geology of the Ministry of Energy of Mauritania
(Chief Geologist Lamine Ibrahim).
5.2 Mongolia.
Gobi Desert
2008 The work was commissioned by the
Mongolian-Ukrainian company "Mon-
Zim-International". Mongolia, tel. 976 1148 5172,
Mob. 976 9989 1812. 1,000 sq. km. Search and
prospecting of underground sources of fresh water in
the Gobi Desert. 6 drilling points were pointed out.
All wells were drilled with debit of 4-5.5 l/sec.
5.3 Mongolia.
Gobi Desert
2008 ―Kaidy‖ company. 800 sq.km. 4 sites of underground
water at depth of 300 m were detected remotely.
Work results were proved by drilling
5.4 Ethiopia.
Danakil Desert
2011 Partnership project. 800 sq.km. Search for
underground reserves of fresh water. 4 drilling points
were pointed out at depth of 150 m. Water flowed
from first drilling.
5.5 UAE. Ras al-
Khaimah
emirate
2011 ―Resonance Exploration Limited‖, UK. Remote
detection and survey of underground fresh water
areas. Drilling was not conducted.
5.6 Crimea,
Sevastopol
2014 The city administration. At a depth of 950 meters
found the fresh water. Drilling in this point fully
confirmed our data. The flow rate of 10 liters / sec.
16. 16
Advisor to Senator Crimea Lely Igor V.
Tel. +7 978 733 9393
5.7 Saudi Arabia 2015 Remote sounding of the Nadrzhan region and
Jeddah with a total area of 4,000 sq km.
Large sources of fresh groundwater identified.
5.8 Oman 2017 Testing Technology. At license area 3 identified
horizon fresh water occurring to 240m. The data of
bedding were obtained on 0,96 km square.
5.9 United States,
California
2018 Affiliate project. Regional survey of the territory
10000 km square.
Map Drawing of Mineral Resources of a Region
№ Country Year Customer and results of the operations
4.1 UAЕ.
Fujairah
emirate
(3,600 sq.km)
2006 ―Global Development Group‖, Ltd. Chairman Hamad
Al Darwish. Map of minerals of the region was
drawn: fresh water, nickel, platinoids, kimberlite
tubes. Industrial deposits of the mentioned minerals
were detected and surveyed.
17. 17
Technology testing in the USA
Testing and practical demonstration of the innovative geophysical technology “Deep
Vision” of search and survey of minerals was conducted from 23rd
to 27th
February, 2009 on
territory of the state of Utah, USA,.
5 beforehand unknown for us underground objects were surveyed directly on locality
by experts of the Institute with drillholes and oil-extracting settings. Control objects were
located in territory with total area of more than 3,000 sq. km.
As a result of inspection the followings control indexes were certain by us: a
presence of deposits of oil and gas, amount of horizons in them, occurrence depths of
horizons and thickness of each of them. Information obtained by us during survey was
recorded and given to the members of commission and officially confronted with information
of Arbiter.
Comparison of information showed 100% match of results of survey conducted with
the help of the “Deep Vision” technology and the drilling results.
An exception was made by information on 2nd
oil horizon of fifth object, where
divergence of information was only 1.5% on occurrence depth at more than 9,500 feet.
19. 19
Project on shale gas in Texas, USA, 2010
The figure shows land contours of 25 detected deposits of shale gas,
drilling points on the largest sites, migration routes of gas in cracks and
contours of two earlier detected oil deposits. Data obtained on number of
horizons (6), thickness and their occurrence depths as well as gas pressure
in horizons.
Customer successfully drilled the well only on our data.
Institute of Geophysics and Problems of the Earth
…….
20. 20
Certificate of Work Completion on shale gas in Texas
Institute of Geophysics and Problems of the Earth
…….
22. 22
Protocol of Work Results at Zasyad’ko Coal Mine, Ukraine, 2010
History
A number of large accidents took place at this mine that were the worst ones
on mines in Ukraine:
24th
May, 1999 — 50 miners died.
19th
August, 2001 —55 miners died.
31st
July, 2002 —20 miners died.
20th
September, 2006 — 13 miners died.
Large gas burst in new longwall took place during commissioning. Gas protection
automatics turned on and there was no explosion, but miners were poisoned by gas.
On 18th
November, 2007 the most large-scale catastrophe on Ukrainian coal mines
happened after obtainment of independence in 1991 — 101 miners died.
Results of Conducted Works
In 2010 we conducted work on remote detection of methane sources under
mine longwalls.
Drilling results in the point shown by us confirmed presence of assumed
sources of natural gas and showed high match of our data and gas horizons
detected by drilling (occurrence depths, horizon thickness, gas pressure in
horizons).
Data of our survey and drilling data:
Horizon,
m
Occurrence depth, m
data: our/drilling
Gas pressure, atmospheres,
data: our/drilling
h1 544 – 584/ 535 - 595 10 – 20 / 16
h2 974 - 1043/ 906 - 1020 15 – 20 / 92
h3 1272 - 1317/ 1266 - 1324 18 – 20 / -
h4 1753 - 1857/ 1794 - 1808 150 – 160 / 164
It is important to point out that after drilling and degasifying the accidents on
the mine ceased.
Results protocol is shown below.
26. 26
CV RussTechno Indonesia
Ruko Permata Boulevard Blok В. A. No.l
JI Pos Pengumben Raya Jakarta Barat I1550 - INDONISIA
Date 01 June 2012
SUMMARY
The results of prospecting works carried out by specialists of the "Institute of
Geophysics and the problems of the Earth" in Indonesia (Brantas block onshore and
offshore)
The specialists of the "Institute of Geophysics and problems of the Earth" and
SNUYaEiP carried out remote search, contouring and definition of hydrocarbons (oil,
natural gas) in 5 sections (2 - onshore, 3 - offshore) with a total area of Brantas block -
3050 km2
, according to the Contract № 01 dated 11/28/2011 for the company Russ
Techno Indonesia.
Previously these areas have been studied by conventional methods of exploration and drilling
(30 wells of which 17 were successful).
Using remote Deep Vision technology of nuclear magnetic resonance in these areas 31
border hydrocarbon anomalies have been established including 8 oil and 6 gas prospective
anomalies.
The boundaries of identified prospective oil and gas anomalies virtually fully coincided with
the boundaries of the previously uncovered drilling anomalies or with promising geological
structures, including marine ones.
Yours sincerely,
Thanigasalam
Director
Responsible Executive:
Y.P. RAKINTSEV
+ 7926 872 3788 (Moscow)
Signed and sealed
27. 27
Gold Project in Madagascar, 2014
The results of the work found 12 deposits were detected according to results of
executed works, 9 of which are gold ore zones Au1-Au9 and 3 ore zones, in which the
gold content is insignificant, but there is show of silver. These are deposits Ag-1, Ag-2,
Ag-3.
Occurrence contours of these ore areas were defined. Research of approximate
occurrence depths of useful horizons in one or several points were conducted.
Geophysical and geological work carried out by an independent company on the
ground have confirmed our results.
Institute of Geophysics and Problems of the Earth
…….
34. 34
Director of "Institute of Geophysics
and Problems of the Earth"
A PhD in Technical Sciences,
Associate Professor
Pavel Ivashchenko
Ukraine, Kiev
Tel. +38 068 100 5153
E-mail: igpe@ukr.net
Skype: pavelpavel3966
Директор «Института геофизики и
проблем Земли»
Кандидат технических наук,
доцент
Иващенко Павел Николаевич
Украина, Киев
Тел. +38 068 100 5153
E-mail: igpe@ukr.net
Skype: pavelpavel3966
Institute of Geophysics and Problems of the Earth
«We believe that application
of the Technology will have
a significant economic impact
which can be achieved
within very short time!»