Transcript team “poisk”

TEAM “POISK”
PRESENTATION
V . G O K H - THE MEMBER OF THE RUSSIAN
ACADEMY OF NATURAL SCIENCES, THE
AUTHOR OF THE GEOHOLOGRAPHY METHOD
N . K O V A L Y O V - D R ., PROF. OF
THE SEVASTOPOL NATIONAL UNIVERSITY OF
NUCLEAR ENERGY AND INDUSTRY, THE
AUTHOR OF THE GEOHOLOGRAPHY METHOD
M. ZYKOV
chief manager of project '‘POISK”,
mining engineer-geophysicist
N .
K O V A L Y O V ,
А . K A R P E N K O - D R ., PROF. OF THE KIEV
NATIONAL UNIVERSITY T.SHEVCHENKO, EXPERT IN THE
FIELD OF OIL AND GAS SEARCH
TEAM “POISK”
I.KOTELJANEC
manager of the project;
graduate economist
OUR
PARTNERS
Ministry of ecology and natural resources of Ukraine
http://www.menr.gov.ua/
State Agency of geology and mineral resources of Ukraine
http://dgs.gov.ua/
National Space Agency of Ukraine
http://www.nkau.gov.ua
Sevastopol National University of nuclear energy and industry (Ukraine, Sevastopol)
http://www.sinp.com.ua/
VITAVA D.O.O.
SLOVENIA,
EU
http://www.vitava.si
Institut "Jožef Stefan" (Ljubljana, Slovenija)
http://www.ijs.si/
Ukrainian Institute ecology of man (Ukraine, Kyiv)
http://uiec.org.ua/
OUR
PARTNERS
Geological Faculty of Kyiv national Taras Shevchenko University. T. Shevchenko (Ukraine, Kyiv)
www.geol.univ.kiev.ua
Ivano-Frankivsk National Technical University of oil and gas (Ukraine, Ivano-Frankivsk)
http://ifgtung.univerlife.com/
National Technical University of Ukraine "Kiev Polytechnic Institute" (Ukraine, Kyiv)
http://kpi.ua/
Institute of Physics of the National Academy of Sciences of Ukraine (Ukraine, Kyiv)
http://www.iop.kiev.ua/site/index.php
«Magellan» Aerospace Agency (Ukraine, Kyiv)
http://www.aa-magellan.com.ua/
TESLA, trusted by generations (Češka, Praha)
http://www.tesla.cz/
GEO – HIDRO d.o.o. (Slovenia)
www.geo-hidro.si/
KNOW-HOW
Patent base and the developed procedures

Ukraine:
The patent of the Ukraine №13408А, G.01.V.9/02 16.12.96 “The
method of geo-hydrodiagnostics of underground waters”;

The patent of the Ukraine .
groundwater" №35122, 26.08.2008;

The patent of the Ukraine № 55916 от 27.12.2010 «Way to search for
natural
resources »;

6 temporary procedures.

Russian:
Patent "Method for mineral exploration», RF Patent № 227-2305
20.03.06
1 temporary procedure.



"Method
geo-hydrodiagnostics
International Patent:
A "method of search of natural resources" is the European patent
№2007 А 000 247, 28.05.2008 (Switzerland);
2 Methodologies (The USA).
KNOW-HOW
Inventions and patents
«POISK» (SEARCH)
Remote detection, investigation and research of commercial mineral
recourses
with methods of geo-hydrodiagnostics and geoholography
Exploratory work with equipment for remote complex “POISK" made:
Geography of our works in the Ukraine – Kirovograd region, Mykolaiv region, Donetsk
region, Dnipropetrovsk region, Kiev region, Zhytomyr region, Transcarpathian region, Crimea
(uranium, oil, gas, geothermal and clean water, gold, submerged objects in the Black Sea).
Geography of our works in the countries of the world
USA - state Texas (gas, oil), state of Utah (oil, water)
Canada - oil
Geography of our works in the countries of the world
Russia - Tyumen' reg., Kurgan reg., Kaliningrad reg., Krasnoyarsk reg., Kemerovo reg.,
Arkhangel'sk reg. (oil, gas, coal, copper, diamonds)
UAE - water,
Mongolia - water, oil, copper, uranium
Geography of our works in the countries of the world
AFRICA: Moresque (water, oil); Ethiopia (water, oil); Nigeria (offshore oil); DR Congo
(diamonds).
Geography of our works in the countries of the world
Europe: Greece (water); Cyprus (water); Turkey (gas, oil, geothermal water).
The Underground Sweet Water Exploration Results Using the Remote Complex
“SEARCH”
!
Indicators
Mauritania
Cyprus
(Limassol)
(Sahara Desert,
Atar)
1
The search area using
the remote method
“SEARCH”
2
Recommended coN 20032'
N 34042'00"
0
ordinates of wells after E 13 02'30"
W 33001'20"
exploration
Actual co-ordinates of matched
5 m to the West
wells drilled
Prognostic characteristics of water (before drilling):
3
4.1
Area
2500 km2
A Prognostic chemical
characteristics:· ! " 7,0÷8,0
· PH
· Drinking water
· Level
of
corresponds to
mineralization
the National
Primary
· Chlorides
Drinking Water
· Sulfates
Regulations
· Other minerals
(USA)
Area
100 km2
·
·
Ethiopia
Mongolia
(Gobi Desert)
(Danakil Desert)
Area
1000 km2
Area
800 km2
N 114009'00"
E 40018'05"
N 44001'40"
E 108029'00"
2 m to the South
matched
! " 6,5÷7,0
· ! " 6,5÷7,5
Drinking water
· Drinking water
corresponds to
corresponds to
the National
the National
Primary Drinking
Primary Drinking
Water Regulations
Water
(USA)
Regulations
(USA)
·
·
! " 7,0÷8,0
Drinking
water
corresponds
to the
National
Primary
Drinking
Water
Regulations
Ukraine
(more than 120
working wells)
1) Area in Sevastopol
(Crimea), 1000 km2
2) Area in Simferopol
(Crimea), 100 km2
1) more than 100
wells
2) more than 20 wells
matched
·
·
! " 6,0÷7,5
Drinking water
corresponds to
the National
Primary
Drinking Water
Regulations
(USA)
B Prognostic physical
characteristics of
water-bearing horizon
(before drilling):
· Depth of
occurrence
·
·
4.2
Well production
Reservoir
pressure
·
130÷150 m
·
180÷200 m
·
145÷190 m
·
270÷320 m
·
800 t/day
·
300 t/day
·
80 l/s or
7 000 t/day
·
360 t/day
·
Well spring
·
Well spring
·
Well spring
·
! =25 atm
·
Different from
50 m to 150
m
· from 5 to 10
l/s or from 400
to 800 t/day
· Well spring
Actual characteristics of water (after drilling)
- all the parameters were accepted by the ordering parties and were corresponded to the National Primary Drinking Water Regulations
(USA)
A Actual chemical
· ! " =7,5
· ! " =6,8
· ! " =7,5
· ! " =7,3
·
! " 7,2
characteristics
· Drinking water
· High quality
· Drinking water
· High quality
·
Drinking
(analysis of water
corresponds to
sweet water
corresponds
sweet water
water
samples after drilling)
the National
to the National
corresponds
· Cl-=20 mg/l
· Cl-=12 mg/l
++
++
Primary Drinking
Primary
to the
· C# =10
· C# =6,4
Water
Drinking
National
mg/l
mg/l
Regulations
Water
Primary
· Mg=45 mg/l
· Mg=35 mg/l
(USA)
Regulations
Drinking
(USA)
Water
Regulations
(USA)
B Actual physical
characteristics of
water bearing horizon
(after drilling):
· Depth of
occurrence
· Well production
·
·
125÷150 m
980 t/day
·
·
195÷205 m
450 t/day
·
·
150÷190 m
·
275÷320 m
·
·
6 wells with
production
level
~ 450 t/day
50-150 m,
difference ±
5÷8 m
·
550÷800 t/day
each well (120
wells in total)
8 000 t/day
· 1 well
doesn’t have
commercial flow
because of
collector
(fissured chalk)
·
Reservoir
pressure
·
Well spring
·
Well spring
Note: The overall efficiency of drilling is 98,4 %.
·
Well spring
·
Well spring
·
2 wells don’t
have commercial
flow because of
collector (slurry)
·
Well spring
The Results of Comparative Tests of Data Received by Remote Complex
“SEARCH” with the Data after Drilling of Wells
№
Countries and the quantity of test wells
Ukraine
·
·
·
Indicators
·
·
·
1
2
Identification of type
of hydrocarbons near
the acting production
wells
Error in determining
of depths of
occurrence of pay
horizons ≤1%
Match
USA
Other countries
- Tat’yaninskoe deposit (2G+2GC
– acting production wells)
- Vladislavskoe deposit (4O –.
acting production wells)
- Moshkarevskoe deposit (1G+1O
– acting production wells)
- Uranium
Novokonstantinovskaya mine
(1G+1GC – wells were drilled by
results of work of SEARCH team)
- coal mine by Zasyad’ko (1G+1O
– wells were drilled by results of
work of SEARCH team)
- JSC Crymneftegas (2O – wells
were drilled by results of work of
SEARCH team, one in Black
Sea)
·
·
·
State Utah –
(14O+6G acting
production wells)
Delta, Utah – (1Owell was drilled by
results of work of
SEARCH team)
State Texas –
(1O+4G - acting
production wells;
1G – the well was
drilled by results of
work of SEARCH
team
Match
From 5 m to 28 m, depending from
From 5 m to 18 m
the depths of occurrence (well depths
were from 1 000 m to 4 200 m)
·
·
·
·
·
·
Nigeria - (2O – acting
production wells in sea);
Indonesia, block Brantas,
area №2 - (2G+2O – acting
production wells);
Russia, Tyumen (2O+1G –
acting production wells) ;
Kazakhstan – (2O – acting
production wells);
Mongolia (1O – acting
production wells);
Turkey (1G – acting
production wells)
Match
From 5 m to 20 m
3
4
5
6
7
8
9
Delineation of
boundaries of
hydrocarbon
deposits (100%
convergence)
Pressure
measurement in gas
horizons or in oil cap
horizons (error " 4%)
Estimation of
hydrocarbon
recoverable reserves
Determination of
lithology of oil and
gas reservoir rocks
(error " 3%)
Number of test acting
production wells
Number of wells
drilled by results of
work of SEARCH
team
Efficiency of complex
SEARCH by the total
number of test wells
Match with the results of electric
prospecting and drilling
Coincide with the
boundaries determined
by traditional methods
Coincide with the boundaries
determined by traditional methods
Errors in pressure measurements were
from 20 to 25 atm.
Errors in pressure
measurements were
from 20 to 25 atm.
Errors in pressure measurements
were from 20 to 25 atm.
Done at three studied production sites (2
oil deposits and 1 gas). Errors of
estimation were from 25 to 28 % (in
comparison with traditional methods)
Errors of estimation
were from 25 to 28 % (in
comparison with
No data
traditional methods)
Coincide with the results of drilling – 97 %
of all test wells
Coincide with the results No data
of drilling – 97 % of all
test wells
10
25
13
5
2
none
15 from 15
26 from 27
13 from 13
Notes:
· The total confirmability of results (acting production wells and new wells) – 96%.
·
·
·
O -oil well
G -gas well
GC -gas condensate well
During the 2006-2014 year were the following search operations using remote
complex «Search":

In 2006 SNUNEY commissioned by the "VostGOK" was carried out experimental work to assess the

In October 2006, commissioned by a commercial company (Kyiv) has successfully completed
experimental work on remote delineation and confirmation of options condensate field (Tatyanensk) in the
Crimea.

In late 2006, completed research on the topic: "Analysis of samples of ores of complex mineral composition
and evaluation of their metal content by means of remote complex" Search "" (code "Mineral") (approved
"method of searching ... ....") .

In December 2006, has successfully completed work for the Ministry of Environment of Ukraine "Remote
detection by geoholografic complex" search "of large submerged objects (ships, warships, barges, etc.) in
Feodosia bay," approved "method of finding the remains of sunken objects with fuel and ammunition. "

In 2007, the Energy Ministry of Ukraine commissioned a number of works by searching for uranium deposits

- "Study of industrial site Novokonstantinovsk mine on the surface horizon of 0-300 m in order to determine
the contours of uranium-bearing ore bodies" found 2 unknown uranium ore bodies;

-"Identification of possible deposits of uranium ore on the route of underground communications fields "
Novokonstantinovsk - Dokuchaevsk" and " Novokonstantinovsk - Lesnoe", revealed three unknown uranium
ore bodies (confirmed by drilling);
efficiency of the complex "Search" to locate uranium deposits and remote uranium ore delineation of
bodies with different concentrations of uranium (approved "method of searching ...").
(by tender)
 "Geo-forecasted study of three localized areas of copper-molybdenum ores in Mongolia ...", commissioned by
the company "Erdenet" (Mongolia), 2007 results are confirmed by drilling, approved the "Search Method ... .."
In 2008 it successfully completed the planned work under the "Programs-6" Fuel and Energy
Ministry of Ukraine:
"Distance study of natural gas accumulations within Novokonstantinovsk deposits of uranium ore" (code "Gas”).
Drilling confirmed the presence of gas at a depth of 2.5 km.
«Investigation of the characteristics of industrial waste tailings fraction lanthanum in the building № 602 "(Customer,
Inc." Barrier "). The calculation of the concentration and volume of waste contaminated with cesium 137.
- "The detailed search of land to identify the local uranium deposits by nuclear magnetic resonance within the
mining lease Smolinsk mine" (code "Uranus,”), proved by drilling new ore bodies.
In 2009-2010, the work performed:
"Geophysical research fields of grey granite on the sites №1, 2, 3 with the use of remote geoHOlographic complex
"Search " (code "Granit", the Customer - LLC "Seth Development"), produced calculation of the grey granite in the 3
divisions.
"Remote defining the contours of development of underground waters in Shine-Usna-Gobi desert
on the territory of the Teams Of Dornogobisk aimag of Mongolia", (Cipher "Flow", the Customer company "Myung-Winters-International" and MAC, Ulaanbaatar). Received commercial inflows of
water in 6 drilled wells, the depth of the water 270-320 m. Thickness-50 m.
• Confirmed by drilling four gas-bearing reservoir opened with a gas pressure of 18-160 atm.
"Remote determination of concentrations of natural gas for coal seams in the mines of the coal
company SUEK (Novokuznetsk, Leninsk, Russia).
•"Remote determination of gas by coal layers “Zarechnaya" (the Kemerovo region., Russia)
•Definition and contouring of the oil-bearing areas near oil fields in the South-Torgay oil-and-gas
field (Kazakhstan). The order of a commercial company ( Kiev).
•The search for oil and gas bearing areas on the territory of Turkey.
•"Determination of groundwater in Cyprus ", obtained by flow in the borehole drilled -180 tons /
hour.
•Test work on the discovery of oil and gas in Utah, USA. Approval Procedures Search….
• Search and delineation of areas of uranium ore in the area (~ 20,000 km2) in the north-eastern
Mongolia. Cipher “Nasturan" (drilling is not conducted).
•Search and evaluation of oil and gas in shale formations, Texas (USA). The first well gave an
industrial gas volume (P = 620 atm).
•Remote determination of concentrations of groundwater in the northern part of Ethiopia (Cipher
“Thread-2"). " Inflow of water in the well of 100 l / sec.
IN 2011.
•Searches, contouring, a detailed exploration of diamond deposits in the DRC commissioned
KADI INTERNATIONAL sprl. The world's first remote confirmability geophysical methods in
prospecting for diamonds amounted to more than 60%.
•Remote sensing and field work on the detection of drinking water in Ras al-Khaimah, UAE.
•Field works in Mongolia - Cipher “Nasturan"
IN 2012
•Prospecting works for hydrocarbons in Indonesia, block Brantas, field works at sea
•Demonstration and test works in Nigeria (2 existing production wells)
•Prospecting works for JSC “Krymneftegas” (Ukraine)
IN 2013.
•Field exploration works in Mongolia (molybdenum, gold, copper)
•Archeological works in Caribbean (private order)
•Prospecting works in DR Congo (diamonds, cassiterite, oil)
IN 2014.
•Prospecting works in Slovenia, Croatia (hydrocarbons)
•Field works in Mongolia – copper, coal
Three stages
of remote
search
and
estimation
recourses
Three stages
of remote
search
and
estimationof
ofthe
the mineral
mineral resourses
or or
underground
underground (underwater)
objects(underwater) objects
STAGE 1
Location determination and outlining of
underground objects or deposits.
Research area aerial photography and
mapping.
Chemical and holographic photograph
processing, creating identification test
matrices by means of radiation and
chemical technologies at IR-100 reactor.
Visualization, remote deposit or object type
identification,
horizon
depth
determination.
1. Detecting deposit (contaminations) area
boundaries.
2. Determining areas, deposit types and
their depths.
STAGE 2
Instrumental area investigation
STAGE 3
Scientific search support
Research area probing with special UHF
equipment mounted on a motor vehicle.
Determining of the deposit boundaries at
the search area, 3D specifications of the
deposit horizon.
Determining of geophysical characteristics
of the deposit (object), calculation of field
production rate.
1. Map with deposit and object boundaries,
volumes, and depths.
2. Defining sites for technological and
productive well location.
RESULTS
Underground diagnosis of resource output,
monitoring of equipment maintenance at
the site.
Providing optional data on issues regarding
remote geo-environmental monitoring in
the work area.
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.
Islamic Republic of Mauritania
‫الجمهورية اإلسالمية الموريتانية‬
Project „Drinking water“
N. Kovalev, V. Gokh
V. Gokh
At the end of the March 2003 our specialists at
the instance of Mauritanian Government made investigations
for search underground water resources at the territory of this
country. The search was crowned with success, and
Mauritanian geologists seized the opportunity of work of the
scientists from the Center with thanks. In July during drilling in
the place pointed by Gokh’s group, at the depth of about 30
meters a water stream was found.
V. Gokh, I. Kotelyanets
However
our scientists offered to their
Mauritanian colleagues to continue drilling jobs, because
according to their forecasts there is a much more powerful
water stream under the cover of solid eruptive rock, at depth
of about 250 meters. Our group persuade the management of
the project to do not stop the job and continue drilling down
to the 400 meters. And it was made in spite of many difficulties
(3 diamond boring head were broken during drilling of the
solid rocks).
Bottom line of the drilling make Mauritanians spellbound. Under the layer of solid eruptive rock there
was an underwater stream of a great power. Flush production rate was equal to 32 thousands liters per hour. In
other words, 600 liters per minute were received from under the ground. The value of these resources was
enough to provide all necessaries in water of the Atar city, that is situated near the borehole (by the way, this
city is the homeland of the President of Mauritania). More than that, these resources have a grate strategic
importance for whole the republic of Mauritania. One of the participant of this project said: "This fountain in
Sahara - is a really wonder". Whereabouts of water under the solid eruptive rock could probably be explained
by the fact that in prehistoric time the disgorging lava crushed down on the river channel and due to it its
stream fell down under the ground.
RESULTS
The official acknowledgemen was given to the GeoCenter by the Management of the engineering
of the General staff of the National Ministry of Defense of Islam republic of Mauritania.
United Arab Emirates (U.A.E.)
‫اإلمارات العربية المتحدة‬
Project „Drinking water“
In May 2011 VITAVA doo surveyed about 1,000 square kilometers in the emirate of Ras alKhaimah, United Arab Emirates in order to detect drinking water on an industrial scale.
(M. Zykov, V. Gokh, N. Kovalyov)
Works were carried out on request: : GOLD POINT HOLDINGS LIMITED (1905,
Nam Wo Hong Bldg, 148 Wing Lok Str., Sheung Wan, Hong Kong)
Drinking water was found. Selected point by drilling. Identified probable reserves (358
million cubic meters). Approved the project of drilling.
Mongolia
Монгол Улс
At the end of May 2010 our specialists carried out search and investigation of underground
reserves of fresh water under contract with the Mongolian company "Mon-Zim-International" on
the territory of Manda Samonah Dornogobiysky aimag of Mongolia in the Shine-Usny-Gobi
Enger-Suhaytyn tal (the central part of the Gobi Desert), the total area of 345 km2. Works were
carried out using remote search tools and a portable field equipment of ultra-high frequency.
Search was successful, our experts discovered industrial reserves of fresh water in the Gobi desert
for the first time.
In June, when drilling in the reference points at depths ranging from 270 to 315 meters
discovered two underground flow of fresh water. Drilled exploratory wells number 1 and number
2 gave the influx of fresh water. Calculations and testing of exploration wells have shown that
the use of 25 industrial wells will provide 1.5 million tons of fresh water per year for the needs of
industry and national economy.
N. Kovaljov, V. Gokh
More
precise
boundaries
of
groundwater
in the
inspected
region.
The practical results of prospecting and drilling are fixed by Act of stakeholders. In the
future, the project participants will be enhanced cooperation in the search for mineral deposits in
Mongolia
In the enhanced board of Mongolian Academy of Sciences, scientists and industrialist
have been able to get acquainted with new advanced technology of searching for minerals and
results of work done.
N. Kovaljov, V. Gokh
Fragments of the results of exploration for
uranium in Mongolia
Fragments of the results of search
andexploration for copper in Mongolia
Democratic Republic of Congo
République Démocratique du Congo
Meeting with the President of the deligation D.R.
Congo and Director of the Prime Minister Cabinet
D.R. Congo I.C. Mashini
Meeting with the President of the D.R. Congo J.
Kabila, Prime Minister of the D.R. Congo A. Muzito
and Director of the Prime Minister Cabinet D.R.
Congo I.C. Mashini
REFERENCES
RESULTS
THANK YOU
FOR YOUR ATTENTION