transitions in natural gas systems, including transportation · transitions in natural gas systems,...
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Transitions in Natural Gas Systems,
including Transportation
FAPESP-NERC Workshop on Sustainable Gas Future
Celso Morooka
Faculty of Mechanical Eng. & Center for Petroleum Studies
(FEM & Cepetro)
University of Campinas - UNICAMP
Offshore Petroleum Systems
FAPESP February 25th 2015
Chain of the Petroleum Industry
Petroleum Field
Exploitation
Oil and Gas
Offshore Processing
Relief Shuttle Tanker
and Transport
Refining
Petroleum Product
Distribution and
Petrochemistry
Deepwater Offshore Petroleum SystemsUnderwater Problems
P-36P-47
Sea Surface
Wellbore
Sea Bottom
Petroleum Reservoir
Subsea Equipment
Offloading System
Riser and Pipelines
BOP
Drill Vessel
TandemSide-By-Side (SBS)
Subsea Pipelines
Moving BOP by the Drillship
Pipeline with Free Span
Floaters
Rigid
Riser
Stress Joint
Current
Flexible
Jumper
Free Hanging
Catenary Riser
Rigid Riser Free Hanging
Vertical Riser
Subsurface
Buoy
Wellhead
WaveLNG
Carrier
LNG Transfer
Cryogenic Hose
SLWR
Riser Tower
LNG Transfer
RESEARCH TOPICS
- Riser and pipeline hydrodynamics (current
and waves);
- Riser system and subsea pipeline & floating
system motion behavior and design (SCR,
SLWR, Tower, and so on);
- Drilling riser and drillship behavior in waves
and current.
Riser System Dynamic Behavior
Flow
Riser Pipe
Bubble Annular
SlugChurn
Influence of the Riser Internal Flow
2800 m
FPU
Sea
bottom
Current
Wave
SCR - Steel
Catenary Riser
19°
Riser - Sea bed
Interaction
Flow
Current
Wave
Z
X
YTensioner
BOP
Riser
Offset
x
Riser
In-line
Tra
ns
vers
e
VIV
Well
Vertical Riser Dynamic Behavior
FlowIn-line
Cro
ss-f
low
Pipelinez
y Vr
FlowIn-line
Cro
ss-f
low
Pipelinez
y Vr
Dynamic Behavior of
Subsea Pipelines with Free Span
Numerical Simulation Tools and Visualization
RISERPROD
Dynamic behavior in currents and
waves, and motions of the floating
unit
VIV due to currents and waves
Frequency Domain & Time Domain
APPROACH
Local Curvature
of the Riser
Current (U)
Riser-Soil Touch
Down Dynamics
U
Un
Ua
VIV
Catenary Shaped Riser
FPSO
Platform Motions & Riser DynamicsNumerical Methods and Experiment
Drill Bit
BOP
Drilling
Riser
Wellhead
BOP
Motions
Subsea BOP Re-entry and Suspended BOP Moving
by Drillship
Experiment with Horizontal Pipe
Experiment conducted at the Towing Tank (IPT)
Length - 260m Width - 6,6m Depth - 4m
Experimental Assembly
Universal
Joint
Backlash Accelerometer
Electrical
Cables
Strain
Gauges
Rail
Flexible Tube
Carriage wheelsCarriage
Side Wall of the
Water Tank
“End Plate”
Model Set Up
Aluminum
Pipe
End
Plate
CATENARY Riser Shape Experiment
Experiment Assembly
Auxiliarly Carriage
3,60 m
3,30 m
Main Carriage
Ls= 5,20 m
RubberSilicon
D=8 mm≈ 20°
Z
XY
CurrentAccelerometer
A
B
C
D
Forced Oscillation
Load Cell
Fixed
Rail
Bottom of the Water Tank
TDP
Fonte: Morooka et al. (2009)
CatVIV
0 10 20 30 401
2
1
2
1
2
1
2
Tempo (s)
Fre
qu
ên
cia
(H
z)
1
2STFT da aceleração transversal (Teste Re = 560)
TTopo
yA
::
yB
:
yC
:
yD
A
B
C
D
AY
,B/D
1,0
-1,0-0,2
0
0,20An,B/D
AY
,A/D
1,0
-1,0-0,2
0
0,20An,A/D
AY
,C/D
1,0
-1,0-0,2
0
0,20An,C/D
AY
,D/D
1,0
-1,0-0,2
0
0,20An,D/D
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
1,0
-1,0-0,2
0
0,20
An,A/D An,A/D
An,B/D An,B/D
An,C/D An,C/D
An,D/D An,D/D
3s < t < 5s 17s < t < 21s 35s < t < 38s
CATENARY Riser Shape
Experiment
Currents
Waves
Platform Motion
Sea Bed
Wa
ter
De
pth
Internal Flow
Catenary
Riser
Well Head
RISERWHIPInternal Flow Momentum and
Catenary Risers Whipping
Two-phase Mixer
Experiment in Water
Minitank
Water input
Air input
Horizontal
Extension
2 m
Riser
Catenary
Internal Flow Momentum and Catenary Risers Whipping
• Ultra deepwater drilling
operations
longer period of continuous
operation for a subsea
equipment installation
• Critical loads on drilling riser
ABB Vetco
Gray
TOP DRIVE
RISER
TENSIONER
MOON
POOL
BOP
Drill Ship
Moving a Drillship with the BOP Suspended
by the Drilling Riser System
OPERATIONAL MAPS – BOP Suspended
Contour Lines
σvm /σy
Zero Crossing Period [s]
WAVE
Zero Crossing Period [s]
HEAVE
Wav
e Si
gnif
ican
t H
eigh
t [m
]
Hea
ve S
ign
ific
ant
Do
ub
le
Am
plit
ud
e [m
]
Allowable operational conditions
for different riser lengths
Allowable operational condition
2000 m riser length
Zero Crossing Period [s]
WAVE
Zero Crossing Period [s]
HEAVE
Hose Length (L) = 135 m
Span (S) = 100 m
Inner Pressure (Pw) = 8 Bar
Inner Flow Velocity (VF) = 0 m/s
Hose + LNG mass = 49 kg/m
Z
A = 1.0 m
BA
• T = 4.5 sec (f = 0.22 Hz)
• T = 8.5 sec (f = 0.12 Hz)
• T = 12.5 sec (f = 0.08 Hz)
Study Cases:
Focus on the region of contact of the hose at sea surface
Cryogenic Transfer Hose Dynamic Behavior
for LNG
Petroleum Geology and Reservoir Eng.• Reservoir Characterization
• Geophysics and Seismic Analysis
• Fluid Flow in Porous Media
• Reservoir Simulation
• Well Test and Oil Recovery Methods
Offshore Systems and Engineering
• Offshore Drilling and Completion
• Floating Production Systems
• Subsea Systems
• Risers
Oil & Gas Field Development• Project Development
• Petroleum Economics
• Management of Petroleum Resources
Oil and Gas Production • Multiphase Flow in Pipes
• Artificial Lift
• Artificial Intelligence Applications
TOPICS of THE GRADUATE PROGRAM
PETROLEUM SCIENCE AND ENGINEERING
UNICAMP
Well Engineering and Completion• Well Control
• Rheology
• Completion Methods
Research Group
LabRiserOffshore Petroleum Systems
and Risers
Catenary Riser
Oscillator
Deep Water Tank
- Current -
Celso Morooka
Sergio Bordalo
Renato Pavanello
Petroleum Sciences and EngineeringGraduate Program
2800 m
FPU
Sea
bottom
Current
Wave
SCR - Steel
Catenary Riser
19°
– Doctoral, master and undergraduate projects
– Industry and agency funded projects
• Wellbore Engineering
• Production Engineering
• Reservoir Engineering
• Offshore Petroleum Systems
• Geological and Geophysical Modeling
• Fluid Properties
• Rock Properties
• Stimulation
• Flow in porous media
• Multiphase flow
Computer and Experimental Labs
FEM
• Main Lab (DEP)
• LabRiser – Offshore Petroleum Systems and Risers (DEP)
• UNISIM – Reservoir Simulation (DEP)
• LAGE – Geoeconomical Analysis of Mineral Resources (IG)
• LIG – Geological Information (IG)
• LGC – Computational Geophysics (IMECC)
Computer
Experimental (DEP)
Petroleum Sciences and EngineeringGraduate Program