Gundih Carbon Capture and Storage Pilot Project: Current Status of the CCS Project in South and Southeast Asian Regions
1. 1)
Gundih Carbon Capture and Storage Pilot Project:
Current Status of the First CCS Project in South and
Southeast Asian Regions
Mohammad Rachmat Sule
Center of Excellence - Carbon Capture and Storage
Institut Teknologi Bandung
Sri Widiyantoro*
Faculty of Mining and Petroleum Engineering
Institut Teknologi Bandung
ADB
3. Outline:
➢ Background and Purpose of the Project
➢ Phase I: CCS (Phase II: CCUS)
➢ Timeline of the CCS project (SATREPS 2014 -
2017) and planned CO2 injection activity (ADB
bacth 2 and JICA extension)
4. Background and Purpose of the Project
Due to the rapid growth of the economy, energy consumption in
Indonesia is increasing. Further development of oil and gas fields in
Indonesia is required. However, some of gas fields in Indonesia contain
relatively high CO2 gas and its emission into the atmosphere is not
appropriate for global warming perspectives.
By applying CCS technology to Gundih gas field that has high CO2
proportion, we would like to propose a sophisticated CCS technology
during the gas production. In order to predict CO2 distribution after
the injection, several monitoring technologies should be developed.
5. Humanity’s Top Ten Problems
for Next 50 Years
1. ENERGY
2. WATER
3. FOOD
4. ENVIRONMENT
5. POVERTY
6. TERRORISM & WAR
7. DISEASE
8. EDUCATION
9. DEMOCRACY
10. POPULATION
2003 6.3 Billion people
2050 8-10 Billion people
From R. E. Smalley (1996 Nobel Prize Winner), Rice University
Energy & Nanotechnology Conference; May 3, 2003
9. To stop global warming
• It will take
① increased energy efficiency;
② increased renewable energy; and
③ the decarbonisation of power generation
from fossil fuels.
• The only technology available to mitigate
greenhouse gas (GHG) emissions from large-
scale fossil fuel usage is CO2 capture and
storage (CCS). (Source: CO2 Capture and
Storage, IEA, 2008)
10. INDONESIA’s Commitment on Climate Change
November 30th 2015
CCS and CCUS
29% emissions reduction from BAU by 2030
and 41% with international support scenario
Related to Energy:
Contributions can be given by introducing
CCS and CO2-EOR (CCUS) to the
community and implementing these
approaches in Indonesian HC fields
11. Gundih Carbon Capture and Storage Pilot Project: Current Status of
the First CCS Project in South and Southeast Asian Regions
✓ The Gundih gas field in Central Java has been in operation since the
end of 2013. The produced gas is expected ~60 million standard
cubic feet of gas per day over the next decade. The CO2 content of
the produced gas is ~21%.
14. ✓ After processing at the Central Processing Plant, around 15% of the
CO2 is separated into an almost pure CO2 stream equivalent to ~800
tons per day of CO2. To date, the separated CO2 has been flared into
the atmosphere.
✓ The Gundih Carbon Capture and Storage (CCS) pilot project will
inject around 30 tons of CO2 per day over a two year period (for total
injection of ~20,000 tons).
15. : WORKOVER WELL
: PLAN OF SUBSURFACE
DEVELOPMENT WELL
(CLUSTER SYSTEM)
: INJECTION WELL
: SETTLEMENT
: OPEN AREA
: RICE FIELD
RBT-03
KTB-06
KTB-03TW
Central Processing Plant (CPP) of Gundih gas field
CCS PILOT PLAN
17. Gundih Carbon Capture and Storage Pilot Project: Current Status of
the First CCS Project in South and Southeast Asian Regions
✓ The target formation is the Ngrayong Formation, which is composed
of sandstone and lies at a depth of 830 – 1,100 m below surface.
Geological and other feasibility studies, regulatory framework
development and public engagement activities have been carried out
since 2012.
18. S
Target Area
Bajubang
Keyline (KDN-51) interpretation
JPN-1
Top Ngrayong
Top Tuban
Target Interval
Top Wonocolo
Seismic data re-processing using CRS-Stack method
19. Reservoir Simulation for Evaluating CO2
Storage Capacity and Fault Risk
445m
50md
100md
200md
400md
800md
20. Gundih Carbon Capture and Storage Pilot Project: Current Status of
the First CCS Project in South and Southeast Asian Regions
✓ With funding from the ADB, the project team will also work on
designing and constructing the surface facilities for CO2 injection
targeted to be started by the end of 2019.
21. Timeline of SATREPS project (2014-2017) and injection activity
(ADB bacth 2 and JICA extension)
(SATREPS Year 3)
(SATREPS Year 4)
(SATREPS Year 5)
FY2017
We are here
now
EPC (18 months)
End of JICA
contract(2017/Sep)
FY2018
MoC signed-up:
Beginning of ADB
funding
well work-overFY2014
FY2015
FY2016
Start
injection?
Baseline surveys Monitoring
surveys
ST-JICA mid-
term evaluation
TDEM Seismic/GravityGravity
New JICA support
(2018/Sep)