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8/9/2019 facilities and processing engineer
1/17
CHEMICAL ENGINEERING
Oil&gas
geoscience
surface
subsurface
manufacture mining Pemerintah
BP MIGAS
PERTAMINA
e.g: ExxonmobileChevron
Total
Vico
,dsb
7/1/2010 1virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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8/9/2019 facilities and processing engineer
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Ruang Lingkup & Job Desk
memastikan produksi minyak dan gas
bekerja secara baik dan optimal membuat program kerja maintenance
tahunan
punya terobosan berpikir untuk efisiensidan efektifitas peralatan produksi
7/1/2010 3virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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Program kerja maintenance tahunan salah
satunya meliputi penjagaan peralatan dari
HULU ke HILIR, yaitu
Pompa minyak
Fasilitas pengumpul (tangki) dan pemisah
(separator) Fasilitas transportasi (kompresor, piping
dengan system instrumentasi sebagaipengaman)
7/1/2010 4virleenda_ui tekim 2008
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Dasar ilmu FE :
Paham proses P&ID (pipingand instrument diagram)
Dapat membuat optimalisasiproduksi Migas
7/1/2010 5virleenda_ui tekim 2008
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Surfaceengineer
(FE)
Project engineer
Operation engineer
Contract engineer
Reliability Construction
Maintanence
Subsurfaceengineer
OIL and GAS
7/1/2010 6virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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Project engineer
Ex/ American Oil & Gas Engineer
1. Management experience
- list off production related project managed
*design and construction waterflood facilities
*design and construction oil and gas
production facilities
7/1/2010 7virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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2. Oil and Gas production facilities engineer
experience:
* waterflood facilities* watertreatment and disposal facilities
* oil and gas treating and separating facilities
* tank batteries, compressor station, storageterminal, pipelines and pump station
7/1/2010 8virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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Our HSE goals are continually monitored and reviewed annually and are
communicated via WG Group HSE Plan.
These are applied across the Group through locally adapted policies, procedures
and management systems. HSE performance is also a key area of focus for our
customers and our improvement initiatives are often implemented in conjunction
with them - many of our principal contracts contain HSE goals as part of
performance and reward mechanisms. Our 2009 HSE Plan is:
Health
Continue to improve the quality of occupational health management by:
Controlling more effectively the health risks arising from our activities
Promoting the benefit of healthy lifestyles for our employees via campaigns and
health fairs
Safety
Reduce the number of injuries occurring across our business by:
Using leading indicators to measure proactive performance
Ensuring our personnel are properly inducted and trained Ensuring proper security and emergency response plans are in place and tested
Combating complacency in routine activities by refresher campaigns on recurring
black spots such as:
manual handling
driving
7/1/2010 9virleenda_ui tekim 2008
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Maintaining a focus on high risk areas such as:
pressure equipment
electrical safety
lifting operations
Improving Asset Integrity and Process Safety to
mitigate the major hazards in each of our
businesses
Environment
Continue to improve environmental management by:
Encouraging the use of management systems
aligned to ISO 14001
Reporting on appropriate environmental indicators
Evaluating work practices and processes that could
adversely affect the environment
Managing waste more efficiently
Piloting carbon footprint measurement and
reduction initiatives7/1/2010 10virleenda_ui tekim 2008
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Production Engineer
Drilling completion and workorvers
Primary and enhance oil recovery
Oil and gas reservoir evaluation
7/1/2010 11virleenda_ui tekim 2008
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7/1/2010 12virleenda_ui tekim 2008
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Process Engineering
implemented at all levels of design conceptual,F
EEDand detailed design, to ensure that oil and gas
equipment and systems are fit for purpose in terms of
design, materials of construction, operability,
availability, layout, etc.
understanding of all process fluid characteristics suchas pressures, temperatures, volumes, pH, velocities,
corrosion rates, acid gas contents, water content etc.,
together with their interaction with plant equipment is
an imperative.
To check the validity of this complex combinationcomprehensive reviews and recommendations of
P&IDs and UFDs, MSGs and MSDs (Process and
Instrument Diagrams, Utility Flow Diagrams, Materials
Selection Guides, Materials Selection Diagrams) are
carried out.
7/1/2010 13virleenda_ui tekim 2008
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COMPETENCE
Base
I.-Sand Face Completion. To select and design the
optimum drainhole and sandface configuration for a
production or injection well by taking into consideration
reservoir characteristics, geology and reservoir fluid
content in order to optimize well performance over its life
cycle to maximize Ultimate Recovery and NPV.
Awareness
1. Having knowledge on the different elements in a well
completion design.
2. Having realisation in which information is required to
design a well completion and which tools to be used.
3. Able to recognize what geological and petrophysical
parameters affect successful completion design.
4. Able to differentiate what are the challenges in
designing for unconsolidated formations, thinly bedded
reservoirs, tight sands, and fractured carbonates.
7/1/2010 14virleenda_ui tekim 2008
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Knowledge
1. Able to stablish the data needed for a well completion design.
2. Able to select suitable techniques to simulate the flow performance of a
production/injection well and define the appropriate wellbore configuration.
3. Able to integrate and relate respective completion component (liners,
packers, seals, production equipment, etc) of the completion system and
justify for selecting a final design configuration.
Skill Level
1. Has conducted sensitivity analysis on well flow model to define optimal
perforation strategies and tubular sizes.
2. Being involved in designing well and sand face completion systems
including tubulars, equipment and accessories (sizes, connections,
specifications, requirements, etc.) using nodal analysis, stress analysis and
rock mechanical properties analysis.
3. Able to make sound recommendations in well design for controlling
borehole instabilities, corrosion problems and sand production.
4. Has been involved in supervising the installation completion equipment
and validating such installations.
Advanced Level
1 Leads and mentors teams in designing completion systems for new fields,
and upgrading those in mature fields using cost-risk-benefit analysis tools.
2. Teach others how to design a suitable completion system matching with
field parameters
3. Provide guidance in developing assessment criteria for selection oftechnology provider.
7/1/2010 15virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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production engineering itu adalah sub surface up to surface.
sub surface reservoir, near well bore, ampe ke
well , harus tau semua..
surface harus bisa menguasai, masalah sand
problem di surface juga, valve, compressor, separator danjuga flowline dan itu semua bisa di gabungkan ke network
modeling and simulation ..kerennya.. network modeling
optimization.
7/1/2010 16virleenda_ui tekim 2008
8/9/2019 facilities and processing engineer
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DAF
TAR PUSTAK
A
http://www.exponent.com/pipelines/#tab_overview
http://www.youtube.com/watch?v=QP2GejkLdwA&feature=fvw
http://www.youtube.com/watch?v=WPOi1WYTf2c&NR=1&feature=fvwphttp://www.kaskus.us/showthread.php?t=899212&page=51
http://www.kaskus.us/showthread.php?t=899212&page=53
7/1/2010 17virleenda_ui tekim 2008