Название
проекта
06.10.2017
Город
Докладчик:__________________
_
00.00.0000
Moscow
03.10.2017
Digital modernization of petroleum
industry: status and prospective trends
ROSNEFT
III CONFERENCE “TECHNOLOGIES
IN OIL EXPLORATION AND
PRODUCTION”
2017
Digital modernization of petroleum industry: status
and prospective trends
Dmitrievskiy A.N., Eremin N.A.
Federal Public Budgetary Institution of Science “Institute of Oil and Gas Problems of Russian Academy of Sciences
(IPNG RAN)
Contacts: http://lib4ipng.ru/node/232; [email protected]; +79166728571
Real time geologic exploration
Digital field
Digital oil and gas complex
Digital oil (gas)
refinery
Integrated control center
On-line marketing
Digital processing Digital pipeline
Digital oil modernization
Russian President’s letter to Federal Assembly for 2017 sets the following task: to
implement systemic program for digital economy development.
Economy digitization would become one of the key trends of economic growth and
will cover all areas of economy, including oil and gas complex of Russia.
It is essential to work out the digitization program, digital platform and “road map”
for digital modernization of oil and gas industry, as soon as possible.
3
Indicators of petroleum industry digitization
Economic value added for the companies through digitization, bln. RUR
Reduced specific capital expenses for 1 t of oil production through digitization, RUR/t.
Reduced specific operating expenses for 1 t of oil production through digitization, RUR/t.
Number of integrated operations centers at digital fields, pcs.
Number of robotized units, including drones and copters, thousand pcs.
Areal fiber-optic antennas for continuous fields monitoring, thousand sq.km.
Downhole fiber-optic, thousand km.
Operating well stock, on-line remotely controlled, pcs.
Digital pipeline, thousand km.
Number of mobile operators, thousand pers.
Number of integrated field models (GOST 56450-2015), pcs.
4 Source: Dmitrievskiy A.N., Eremin N.A. “Digital oil and gas economy” at round table “Brainstorm” in “Digital economy” area in Analytic center of
Russian Government, February 2, 2017
Previous and new paradigms
for fields development
Previous paradigm
Previous paradigm for oil and gas fields
development systems, as dominated over
past centenary, was based upon
maximization of resources recovery and
minimization of costs for their recovery.
New paradigm
New paradigm for oil and gas fields development
represents the up-to-date concept of values, problem
setting models and engineering solutions thereto, as
aimed to on-line 24/7 dynamic development and
growing capitalization (fixed assets value) of a
company and fields.
Dmitrievskiy A.N., Eremin N.A.
9th International Energy Week, December 10-11, 2014
Technologies
Development
concept
Decommissioning
Disposal
Multiple cycle
Commissioning
Operation and
maintenance Construction
Design Design Modernization
Operation
Asset life cycle
Area of operations
5
Evolution of oil and gas industry digitization
6
Sm
art
well (
Vad
ely
psko
e f
ield
, S
PD
)
Well t
racto
r (V
an
ko
r, R
osn
eft
)
Sm
art
fie
ld (
Urn
en
sko
e, T
NK
-BP
)
RT
S (
Kh
ary
ag
insko
e f
ield
, Z
aru
bezh
neft
)
Pri
razlo
mn
oe
fie
ld in
Arc
tic
PD
K (
Kir
insko
e f
ield
, G
azp
rom
)
Bezlju
dn
oe
fie
ld (
N-K
han
ch
eis
ko
e f
ield
,
No
vate
ch
)
RA
S (
LU
KO
IL-P
ER
M)
Dro
nes in
Arc
tic
Mo
bile o
il w
ork
er
Oil w
ell
-pla
nt
3D
nan
o-p
rin
ter
Ro
bo
t – o
il w
ork
er
Inte
llectu
al p
ipelin
e
Gas w
ell
-pla
nt
Gas w
ell-p
lan
t
Ro
bo
t –
dir
ecto
r
1 b
ln.
sen
so
rs
in A
rcti
c
Evolution of oil and gas industry digitization in Russia (SPD – Salym Petroleum Development, RTS – distributed temperature sensor, PDK –
underwater production unit, RAS – distributed acoustic sensor)
Key trends of petroleum industry digitization
Use of “deep analytics” solutions to
seek for answers to the questions
“What and why happened?”, “What
to do?”
Digital oil and gas education.
MOEC – massive open educational
course
Deep analytics Digital oil and gas education Large Geodata volumes
Processing and analysis of large
Geodata volumes
Efficiency management
Assets management on the basis
of historic data, RRV data and
benchmarking
Cross-functional integrated
modeling
Integrated modeling and planning in
End-to-End production cycle
Mobile worker
Use of portable devices to monitor
health status, data access and
coordinates searching
Robotized units
Use of robotized units (unmanned
technologies) to control, monitor and
improve efficiency
Automated
Controlled Robotized
IIoT – Cloud technologies
Use of Yota and cloud technologies
Pipeline
VPU
NPS
Data management
7
Portable devices to on-line monitor health status of oil and gas dispatchers,
Joint Center ITPS-IPNG RAN
September 8, 2017, Perm July 26, 2017, Supervisory Board of ASI
8
Petrorobotics – the unique Russian technology of magnetic
tomography of stressed condition of pipelines
9
https://cloud.mail.ru/public/5jmr/Wto5Xgez1
https://cloud.mail.ru/public/MjdD/XS4tvznMN
Synergy of semimanned oil production
10
Integrated Operations
Centers (IOC)
Digital well
Integrated model
Mobile worker
Fiber grid and Digital field
Robotized units
IIoT – Cloud technologies
Digital education
Digital factories,
Plant wells
Business processes Tools Outcome Effect
Optimized field
development
Well and stratum
control
Outfitting control
Efficient operations
Optimized logistics
Improved efficiency of
production operations
Increased operating factor
of equipment
Operative response and
optimized production
Reduced well downtimes
and losses
Optimized surface
outfitting
Increased recovery
factor
Improved
displacement
Reduced number of
planned wells Reduced capital
expenses
Increased recovery
factor
Increased
production
Reduced operating
expenses
Improved occupational
safety and labor
protection
Digital field (DF) With CM
11
Ca
sh
flo
w
time
Exploration Assessment Development Production
Data management
Drilling
RRV monitoring and management
Drilling planning
Production
Field management and planning
Without CM
Income
Operating expenses Traditional
Reduced
expenses
Increased
production
Digital
Intellectual
Increased
reserves
Years
Surface receiver grid
wells
Cable in a
well/
Subsurface antenna in
special well
Casing string
in a well
Cracks mapping/
Injection/
Deposit parameters
Barrier for fluid flow/
Integrity of covering rock
Depletion of field reserves
Compaction resulting in rock failure/
Changed permeability factor
Water influx into producer/
Fluid flow corridor 11
Prirazlomnoe OF and bionic wells Over three years GAZPROM, PJSC successfully develops the
Prirazlomnoe field at Arctic shelf under the development project
prepared with participation of experts from IPNG RAN. In 2002,
Eremin N.A. and co-authors have presented the report on general
provisions of field development system for Prirazlomnoe offshore
field at 17th Global Petroleum Congress: Eremin N.A., Zheltov
Yu.P., Baishev B.T. WPC-32188 Project of the Effective
Development of the Oil Field Prirazlomnoe in the Conditions of
Moving Ice of Arctic Shelf. // Proc. 17 World Petroleum Congress,
Forum 14, 1-7 Sept.2002, Rio de Janeiro, Brazil, pp. 581-583
12
VI International Forum
“Arctic: present and future”,
December 5, 2016
Bionic well 66/45
or the well named after Grigoryan A.M.,
drilled in 1953 in Bashkiria,
9 boreholes, flow rate 120 m3/day vs 7 m3/day
Digital oil and gas education –
open course
During the period from 2014 to 2017 the advanced training
course for facilities (wells, fields, surface and subsurface
equipment) digitization and intellectualization has hosted
more than 350 medium-level experts from the leading oil
and gas companies – foremen of oil and gas production
shops, well workover and servicing experts.
Simulators
Lukoil, PJSC, Moscow-Perm,
71 students
Tatneft, PJSC, Almetievsk, 89 students
13
14
Summary – advantages of unmanned integrated production technologies
Substantial improvement of managerial decisions – integrated modeling, planning and optimization
involve extra data and apply the algorithm-based approaches to decisions making
Reduction of losses caused by non-optimum planning – improved planning accuracy and detailing
result in more precise assessment of demand for resources and their optimum distribution.
Facilitated resolutions for integrated development tasks – new data tools for control, forecasting and
support to solutions allow efficient resolution of large-scale tasks related to asset development and could
not be previously resolved.
Efficient risk management – proactive technology makes it possible to detect any risks at early stages,
assessment and analysis of their criticality, and elaboration of efficient anti-risk initiatives
Bogatkina Y.G., Ponomareva I.A., Eremin N.A.
Application of information technologies for economic
assessment of investment projects. //Moscow: MAKS
Press, 2016. – 148 pages. ISBN 978-5-317-05187-7
Garichev S.N., Eremin N.A. Technology of management in real time.
Textbook. In 2 parts/ Garichev S.N., Eremin N.A. – Moscow.: MFTI.
2015– P. 1.-196 pages : ISBN 978-5-7417-0563-6 (P.1)
Garichev S.N., Eremin N.A. Technology of management in real
time. Textbook. In 2 parts/ Garichev S.N., Eremin N.A. –
Moscow.: MFTI. 2015– P. 2.-304 pages : ISBN 978-5-7417-
0572-8 (P.2)
Garichev S.N., Eremin N.A. Technology of management
in real time. The Moscow Institute of Physics and
Technology (State University), Part 1, 2013, ISBN 978-
5-7417-0501-8; ISBN 978-5-7417-0503-2, 228 p pages.
Garichev S.N., Eremin N.A. Technology of management
in real time. The Moscow Institute of Physics and
Technology (State University), Part 2, 2013, ISBN 978-5-
7417-0501-8; ISBN 978-5-7417-0505-6, 167 pages.
Ponomareva I.A., Eremin N.A., Bogatkina Y.G. Economic
and methodic modeling of oil and gas fields development //
Moscow.- Nauka, 2010-112 pages. ISBN: 978-5-02-
036975-7
Eremin N.A. Management of intellectual fields development
: Textbook for higher educational institutions: In 2 vol. –
Volume 1. Moscow : Russian State University of Petroleum
and Gas named after I.M.Gubkin, 2011. – 200 pages: ISBN
978-5-91961-019-9
Eremin N.A., Eremin A.N., Eremin A.N. Management of intellectual fields
development: Textbook for higher educational institutions: In 2 vol. –
Volume 2. Moscow: Russian State University of Petroleum and Gas named
after I.M.Gubkin, 2012. – 165 pages: ISBN 978-5-91961-329-7.
A1exander N. Eremin, Anton N. Eremin, Nikolai A.
Eremin Smart Fields and Wells, Publishing Center of
Kazakh-British Technical University (KBTU) JSC, 2013,
320 p., Almaty, ISBN 978-601-269-053-8
Eremin N.A. Modern development of oil and gas fields. Smart well.
Intellectual field. Virtual company: Textbook for higher educational
institutions. //Мoscow: NedraBusinesscenter, LLC, 2008. – 244 pages:
ISBN 978-58365-0311-6
Eremin N.A. Modeling of hydrocarbon fields
using fuzzy logic methods. // Moscow-Nauka,
1994, 462 pages; ISBN 5-02-001846-5
Eremin N.A., Ibatullin R.R., Nazina T.N., Sitnikov
A.A. Biomethods for oil recovery factor
improvement. // Russian State University of
Petroleum and Gas named after I.M.Gubkin, Oil
fields development and operation department. -
Moscow, 2003. – 125 pages: attachment
Eremin N.A., Eremin A.N., Balker N. Matters of
hydrocarbons reserves development in Jordan. //
Moscow, Oil and gas, 2004, 121 pages