Post on 18-Dec-2015
FLOW VELOCITY REQUIRED FOR SOLIDS MOVEMENT IN OIL AND
GAS PIPELINES
JOHN S SMARTJOHN SMART CONSULTING ENGINEERS
HOUSTON TX
BLACK POWDER
IN PIPELINES
JOHN S. SMARTJOHN SMART CONSULTING ENGINEERS
HOUSTON, TX
What is Black Powder?
• A mixture of fine particle corrosion products and other solids found in both liquid and gas pipelines
• Can be all iron sulfide, all iron carbonate, or all iron oxide
• It is called “black powder” because the presence of iron salts makes it black.
What it is N0T !
SEM Photomicrographs of Black Powder
Sulfides
• Pyrrhotite – Fe1-.85xS normal corrosion product from H2S in gas, strongly ferromagnetic, pyrophorric
• Mackinawite – semi-stable form of FeS that forms under low H2S activity (slightly sour)
• Greigite – formed by sulfate reducing bacteria
Industry Amount H2S Allowed, Grains/100SCF
Oxygen Contamination
• Oxygen acts as cathodic depolarizer, accelerates other corrosion reactions
• Air contact converts FeS to Fe304 and elemental sulfur
• Inhibitors lose their effectiveness
Oxygen Allowed, ppm or Vol%
Water Allowed in Natural Gas
• There must be liquid water to have corrosion
• 7 lbs/MMSCF:– Dew point = 12oF at 600 psi – Dew Point = 32oF at 1000 psi – Dew Point = 43oF at 1500 psi
• 3 lbs/MMSCF specified in Europe – higher pressures and colder environments Industry Allowed Water in
Natural Gas, lbs/MMSCF
GLYCOL IN BLACK POWDER• Gas Transmission Lines
carry some glycol as mist for a short distance, most carry as vapor (very small amount) from glycol dehydration
• Concentration of TEG is 97.66% at 7 lbs/MMSCF
• Will make a black sludge instead of a dry powder
• Bacteria can metabolize TEG at lower concentrations
• Can remove with a slug of methanol followed by pig
Ref: Van Bodegom et al, CORR. 1987
SOURCES OF BLACK POWDER
• Producing wells• Corrosion product• Off-specification produced fluids (e.g.salt)• Powder Movement in line• Hydrotesting: sand and clays• Plant turnarounds and upsets water• Construction debris, millscale, rouge
CALCULATION OF MINIMUM VELOCITY FOR SOLIDS MOVEMENT IN WATER, OIL, AND GAS PIPELINES
• Hydraulic Model used to calculate minimum velocity for solids movement in pipe by viscous drag
• Applied to sand and iron compounds in water, oil and gas
• Sets a minimum velocity for possible solids movement
• Erosion by solids occurs at much higher velocity
HYDRAULIC MODEL
• Model of Wicks (Shell, 1969)
• Particles must be “rolled” out of a bed to start movement
• For level flow, must add extra 10-15% for uphill movement
• Shape factor for particles required (1.5-2.0 for PL solids)
• No interaction between particles (dry, non-magnetic)
• Round particles roll• Long thin particles slide• Rough particles bounce along,
called “Saltation flow”• Flake like particles move like
leaves in the wind
FLUID VELOCITY TO MOVE IRON SULFIDE IN 40oAPI OIL
• Velocity to move FeS in 40oAPI Crude Oil much higher than sand in water
• Approximates FeCO3, Fe2O3, Fe3O4 movement velocity
Velocity to Move Iron Sulfide in 20oAPI Oil vs. Pipe Size
• Higher velocity to move solids due to thickness of laminar boundary layer over particle bed used in model
• High viscosity fluids will result in significant time for particle to settle after bouncing
Movement Velocity for FeS in No. 2 Diesel vs. Pipe Size
• Diesel often used for pigging as it can be recovered and sold
• When #2 Diesel used in pigging, FeS will settle out in front of a pig running at 5 ft/sec, possibly accumulating and sticking the pig.
Bed Height of Solids in No. 2 Diesel in a 24 Inch Pipeline
When the pipeline fluid is
moving less than the entrainment velocity, sediment can build up to a steady state level that can be calculated by Wicks Model
Accumulation of Solids in Pipelines
• CASE HISTORY– 20” Crude Oil
Pipeline– 0.5” iron oxide = 22
ft3/mile = 2 tons/mile
– 1.0” iron oxide = 9 tons per mile
– Must be removed for ILI Inspections
Sticking Pigs• CASE HISTORY
– Pipelines can plug with sediment during pigging
– 200 feet of pipe had to be cut out and replaced in this 12 inch line
– Need to use pro-gressive pigging and jetting in front of pig in low velocity lines
Velocity to Move Black Powder in Natural Gas at 1000 psi and 60oF
• Entrainment Velocity from 9-14 ft/sec depending on pipe size at 1000 psi
• Lines cleaned of black powder frequently show black powder again after a short time.
• Pigging upstream can cause black powder to move downstream
• Filter Seps needed ahead of centrifugal compressors
• Lines with “No Black Powder” problem may be just operating at low velocity
Gas Velocity to move Black Powder Constituents in a 24 Inch Pipeline at 1000 psi
0
2
4
6
8
10
12
14
16
salt sand BentoniteClay
IronCarbonate
FeCO3
Iron SulfideFeS
magnetite(mill scale)
Fe3O4
hematite(rouge)Fe2O3
iron metal
Mineral
Ve
loc
ity
, ft
/se
c
0 200 400 600 800 1000 1200 1400 16000
200
400
600
800
1000
1200
1400
1600
Flow Rate (MMSCFD) of Natural Gas at 60oF to Move 1 micron Iron Sulfide Black Powder
vs. Pressure and Nominal Pipe Diameter
8" Pipe
16" Pipe
24" Pipe
36" Pipe
48" Pipe
Pipe Line Pressure, psi
Flo
w R
ate,
MM
SC
FD
48"
36"
24"
8”
16”
IRON SULFIDE FRACTURES INTO FINE POWDER
FINE ROUGE IN NATURAL GAS FUELED DIESEL ENGINE
Movement of Wet Powder
Dry powder
PROBLEMS WITH BLACK POWDER
• Pyrophoric• Inaccurate ILI Inspections from
ferromagnetic iron sulfide in internal pits• Lowers Flow Efficiency• Abrasive
Iron Sulfide is Pyrophoric
Flow Efficiency - I
Flow Efficiency - II
4
6
8
10
12
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
Fu
el c
ost
(th
ou
san
d d
olla
rs/ d
ay)
PIPE LINE ROUGHNESS EFFECT ON FUEL COST STA BBB-1 TO STA BBB-2 (Fuel cost based on $ 3.19/MCF)
<---------------Ratio Out Of Station Limit------------------------------>
Before Pigging
3 months after pigging
5 months after pigging
Abrasiveness
• Black Powder in gas compressor, 24 hours
• Compressor rotated at 28,000 rpm
• Cause was an increase in pipeline velocity resulting in 6 tons per day black powder into station
Abrasiveness
Ceramic Coated Gas Cooled Gas Turbine Blade
• Ceramic coating fluxed by black powder
• Caused by adding a second generator onto gas supply line
Solving Black Powder Problems
• Physical Stuff– Chemical cleaning– control contamination– Internal coating – Cyclone separator– Submicron filters– Analyze pipeline for
black powder– Glycol Injection to
control dew point– Corrosion Inhibitors
• Management Stuff– Operators, engineers and
managers need to cooperate, no-one can do it alone
– Managers need to recognize problem, direct effort, provide budget, and use analysis for forward planning
– Operators, engineers need to learn to speak economics to managers.
END