subsurface prong and plug assemblies
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Subsurface Flow C
ontrol SystemsSubsurface Flow Control SystemsHalliburton subsurface flow control systems are designed to simplify completion programs and help maintain production control for the life of the well. Before a well is completed, well maintenance requirements should be anticipated as accurately as possible, and proper flow control equipment should be installed for efficient well maintenance operations.
Halliburton is dedicated to providing top quality equipment and maintains strict standards to help ensure excellence and dependability in our subsurface flow control systems.
All subsurface flow control products manufactured in accordance with ISO 9000-series quality standards
More than 50 years of success in design and material selection Strict tolerances to meet our latest design criteria Use of the API monogram Total traceability of each assembly by serial number and/or
component job number Functional testing of every lock mandrel by installing it into a
nipple profile API class of service for API equipment; operating manual and
shipping report furnished with each lock mandrel indicating serial number, design specification, repairs, repair limitations, assembly, and disassembly procedures with precautions included
Full documentation available for landing nipples and lock mandrels, including dimensional and visual inspection results and job history file
Subsurface flow control equipment includes both tubular flow control equipment and production tool equipment. Tubular flow control equipment is made up as part of the production tubing string and includes landing nipples, circulation/production sleeves, blast joints, and flow couplings.
Production tool equipment includes lock mandrels, plugs, equalizing devices, chokes, tubing stops, packoffs, pressure and temperature gauge hangers, and other associated equipment.
Equipment is normally installed with conventional slickline methods. Circulating equipment, gas lift mandrels, selective landing nipples, and safety valve nipples can be serviced by slickline methods as required.
HA
L397
54Subsurface Flow Control Systems 8-1
Typical Equipment Installation
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API Certification 14L-00018-2 Subsurface Flow Control Systems
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Landing Nipple/Lock Mandrel Selection Guide
Nipple Profile
Landing Nipple Features and Applications
Profile Available in Noted Tools Part Number Prefix for Applicable Tools
Sel
ectiv
e B
y R
unni
ng T
ool
Top
No-
Go
Bot
tom
No-
Go
Ser
ies
of N
ippl
es C
an B
e U
sed
in S
ingl
e Tu
bing
Stri
ng
Wel
lhea
d Pl
ug A
pplic
atio
ns
Hea
vy-W
eigh
t Tu
bing
App
licat
ions
SAF
ETY
SE
T C
ompa
tible
Land
ing
Nip
ple
Saf
ety
Valv
e La
ndin
g N
ippl
e
Slid
ing
Sid
e-D
oor
Circ
ulat
ing
Dev
ice
Tubi
ng-R
etrie
vabl
e S
afet
y Va
lve
Tubi
ng S
eal D
ivid
er
AP
I Mon
ogra
mm
ed*
Land
ing
Nip
ple
Lock
Man
drel
Run
ning
Too
l
Pulli
ng T
ool
Equ
aliz
ing
Sub
Equa
lizin
g P
rong
/Plu
g A
ssem
bly
X 11X 10XO
41XO 40GR 20XO 24PXX 711X 710XO
XN 11XN 10XN
41XO 40GR 20XO 24PXX 711XN 710XN
R 11R 10RO
41RO 40GR 20RO 24PRR 711R 710RO
RN 11RN 10RN
41RO 40GR 20RO 24PRR 711RN 710RN
RQ
SVLN or TRSV
710RQ 41RXN 40GR
710SS 41SS/41UP40GR w/144SS
FBN 11FBN 10FBN
41FBN 40GR 20FBN 24FBN 711FBN 710FBN
RPT
11RPT 10RPT
41RXN 40GR 20RPT24RPT
711RPT 710RPT
SVLN or TRSV
710RPV
710SSA 41SS/41UP40GR w/144SS 20RO
SRH 711SRH 710SRH/21SRH 41SRH 40GR
SRP Wellhead 710SRP21SRP 41SRP 40GR
= Standard Feature = Non-Standard Capability*Part Number Prefix 710 or 711 indicates API monogrammed assembly; items with a prefix 10 or 11 are not API monogrammed.Subsurface Flow Control Systems 8-3
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Landing Nipples and Lock Mandrels
This section describes Halliburton landing nipples and lock mandrels as well as lock mandrels for wells without landing nipples.
Selective by Running Tool
Halliburton selective by running tool landing nipples and lock mandrels consist of Otis X and R series landing nipples and lock mandrels. Otis XN and RN no-go landing nipples and no-go lock mandrels are also available.
Otis X and R Landing Nipples and Lock Mandrels
Halliburton Otis X and R landing nipples are run into the well on the completion tubing to provide a specific landing location for subsurface flow control equipment. These landing nipples feature common internal profiles making them universal. The Otis X landing nipple is used in standard weight tubing. The Otis R landing nipple is typically used with heavyweight tubing.
The completion can include as many selective nipples with the same ID in any sequence as desired on the tubing string. This versatility results in an unlimited number of positions for setting and locking subsurface flow controls. The flow control, which is attached to the required Otis X or R lock mandrel, is run in the well via the selective running tool on slickline.
The slickline operator using the selective running tool can set the flow control in any one of the landing nipples at the desired depth. If this location is unsatisfactory or if well conditions change, the flow control may be moved up or down the tubing string to another nipple location. These operations can be done by slickline under pressure without killing the well.
Otis XN and RN No-Go Landing Nipples and Lock Mandrels
This equipment is designed for use in single nipple installations or as the bottom nipple in a series of Otis X or R landing nipples. These landing nipples have the same packing bore ID for a particular tubing size and weight. Otis X and XN landing nipples are designed for use with standard weight tubing. Otis R and RN landing nipples are designed for use with heavyweight tubing. (The N designates no-go nipples.)
Otis X Landing Nipple and Lock Mandrel
HA
L397
53H
AL39
7528-4 Subsurface Flow Control Systems
Otis R Landing Nipple and Lock Mandrel
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Applications Gauge hangers for bottomhole pressure/temperature
surveys Positive locator for straddle systems Plugging under pressure Almost unlimited locations for setting and locking
subsurface flow controls
Features Landing Nipples
Large bore for minimum restriction Universal nipple with one internal profile
Lock Mandrels Retractable locking keys Locks designed to hold pressure from above or
below or from sudden reversals Extra large ID for higher flow volumes
Optional Holddown* Interference holddown for smaller locks Shear pin holddown for larger locks
*The optional holddown feature is recommended for subsurface safety valve installations. Both features provide additional locking integrity to withstand rigorous well conditions.
Otis X and XN Landing Nipples and Lock Mandrels
TubingFor Standard Tubing Weights
Lock Mandrel IDX
Profile XNProfileSize Weight ID Drift Packing Bore Packing Bore No-Go ID
in. mm lb/ft kg/m in. mm in. mm in. mm in. mm in. mm in. mm
1.660 42.162.3 3.42
1.380 35.05 1.286 32.66 1.250 31.75 1.250 31.75 1.135 28.83 0.62 15.752.4 3.57
1.900 48.26
2.4 3.57 1.660 42.16
1.516 38.51 1.500 38.10 1.500 38.10 1.448 36.78 0.75 19.052.76 4.111.610 40.89
2.9 4.32
2.063 52.40 3.25 4.84 1.751 44.48 1.657 42.09 1.625 41.28 1.625 41.28 1.536 39.01 0.75 19.05
2 3/8 60.334.6 6.85
1.995 50.67 1.901 48.29 1.875 47.63 1.875 47.63 1.791 45.49 1.00 25.404.7 6.99
2 7/8 73.036.4 9.52
2.441 62.00 2.347 59.61 2.313 58.75 2.313 58.75 2.205 56.01 1.38 35.056.5 9.67
3 1/2 88.909.3 13.84 2.992 76.00 2.867 72.82 2.813 71.45 2.813 71.45 2.666 67.72
1.75 44.4510.2 15.18 2.922 74.22 2.797 71.04 2.750 69.85 2.750 69.85 2.635 66.93
4 101.60 11 16.37 3.476 88.29 3.351 85.10 3.313 84.15 3.313 84.15 3.135 79.63 2.12 53.85
4 1/2 114.30 12.75 18.97 3.958 100.53 3.833 97.36 3.813 96.85 3.813 96.85 3.725 94.62 2.62 66.55
5 127.00 13 19.35 4.494 114.14 4.369 110.97 4.313 109.55 4.313 109.55 3.987 101.27 2.62 66.55
5 1/2 139.70 17 25.30 4.892 124.26 4.767 121.08 4.562 115.87 4.562 115.87 4.455 113.16 3.12 79.25Subsurface Flow Control Systems 8-5
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Benefits Landing Nipples
Versatility helps reduce completion and production maintenance costs
Simple operation Multiple options when running, setting, or
retrieving subsurface flow controls
Lock Mandrels Faster slickline service because of the retractable keys Operator control of locating, landing, and locking
in the selected nipple Inside fishing neck provides large ID to maximize
production Optional holddown feature for high flow rates and
safety valve installations
Fishing Neck
Expander Mandrel
Double-Acting Spring
Locking Keys
Packing
No-Go Equalizing Sub
Otis RN No-Go Landing
HAL
3975
7
Otis XN Landing Nipple and Lock Mandrel
Fishing Neck
Expander Mandrel
Double-Acting Spring
Locking Keys
Packing
No-Go Equalizing Sub
HA
L397
568-6 Subsurface Flow Control Systems
Nipple and Lock Mandrel
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Otis R and RN Landing Nipples and Lock Mandrels
TubingFor Heavy Tubing Weights
Lock MandrelIDR
ProfileBore
RN Profile
Size Weight ID Drift Packing Bore No-Go ID
in. mm lb/ft kg/m in. mm in. mm in. mm in. mm in. mm in. mm
1.900 48.26 3.64 5.42 1.500 38.10 1.406 35.71 1.375 34.93 1.375 34.93 1.250 31.75 0.62 15.75
2 3/8 60.33
5.3 7.89 1.939 49.25 1.845 46.86 1.781 45.24 1.781 45.24 1.640 41.66 0.88 22.35
5.95 8.85 1.867 47.42 1.773 45.031.710 43.43 1.710 43.43 1.560 39.62 0.75 19.05
6.2 9.23 1.853 47.07 1.759 44.68
7.7 11.46 1.703 43.26 1.609 40.87 1.500 38.10 1.500 38.10 1.345 34.16 0.62 15.75
2 7/8 73.03
7.9 11.76 2.323 59.00 2.229 56.62 2.188 55.58 2.188 55.58 2.010 51.05 1.12 28.45
8.7 12.95 2.259 57.38 2.165 54.992.125 53.98 2.125 53.98 1.937 49.20 0.88 22.35
8.9 13.24 2.243 56.97 2.149 54.58
9.5 14.14 2.195 55.75 2.101 53.372.000 50.80 2.000 50.80 1.881 47.78 0.88 22.35
10.4 15.48 2.151 54.64 2.057 52.25
11 16.37 2.065 52.45 1.971 50.061.875 47.03 1.875 47.03 1.716 43.59 0.88 22.35
11.65 17.34 1.995 50.67 1.901 48.29
3 1/2 88.90
12.95 19.27 2.750 69.85 2.625 66.68 2.562 65.07 2.562 65.07 2.329 59.16 1.38 35.05
15.8 23.51 2.548 64.72 2.423 61.542.313 58.75 2.313 58.75 2.131 54.13 1.12 28.45
16.7 24.85 2.480 62.99 2.355 59.82
17.05 25.37 2.440 61.98 2.315 58.80 2.188 55.58 2.188 55.58 2.010 51.05 1.12 28.45
4 101.6011.6 17.26 3.428 87.08 3.303 83.90 3.250 82.55 3.250 82.55 3.088 78.44 1.94 49.28
13.4 19.94 3.340 84.84 3.215 81.66 3.125 79.38 3.125 79.38 2.907 73.84 1.94 49.28
4 1/2 114.30
12.6 18.75 3.958 100.53 3.833 97.36 3.813 96.85 3.813 96.85 3.725 94.62 2.12 53.85
13.5 20.09 3.920 99.57 3.795 96.393.688 93.68 3.688 93.68 3.456 87.78 2.38 60.45
3.750 95.25 3.750 95.25 N/A 2.12 53.85
15.5 23.07 3.826 97.18 3.701 94.01 3.688 93.68 3.688 93.68 3.456 87.78 2.38 60.45
16.9 25.50 3.754 95.35 3.629 92.18 3.437 87.30 3.437 87.30 3.260 82.80 1.94 49.28
17 25.30 3.740 95.00 3.615 91.82 3.63 92.20 3.63 92.20 N/A 1.94 49.28
19.2 28.57 3.640 92.46 3.515 89.28 3.437 87.30 3.437 87.30 3.260 82.80 1.94 49.28
5 127.0015 22.32 4.408 111.96 4.283 108.79 4.125 104.78 4.125 104.78 3.912 99.39 2.75 69.85
18 26.79 4.276 108.61 4.151 105.44 4.000 101.60 4.000 101.60 3.748 95.20 2.38 60.45
5 1/2 139.70
17 25.30 4.892 124.26 4.767 121.084.562 115.87 4.562 115.87 4.445 113.16 2.85 72.39
20 29.76 4.778 121.36 4.653 118.19
23 34.23 4.670 118.62 4.545 115.44 4.313 109.55 4.313 109.55 3.987 101.27 2.62 66.55
6 152.4015 22.32 5.524 140.31 5.399 137.13
5.250 133.35 5.250 133.35 5.018 127.51 3.50 88.9018 26.79 5.424 137.77 5.299 134.59
6 5/8 168.2824 35.72 5.921 150.39 5.795 147.22
5.625 142.88 5.625 142.88 5.500 139.70 3.50 88.9028 41.67 5.791 147.09 5.666 143.92
7 177.80
17 25.30 6.538 166.07 6.431 163.35
5.963 151.46 5.963 151.46 5.770 146.553.75 95.25
20 29.76 6.456 163.98 6.331 160.81
23 34.23 6.366 161.70 6.241 158.52
26 38.69 6.276 159.41 6.151 156.24
29 43.16 6.184 157.07 6.059 153.90
32 47.62 6.094 154.79 5.969 151.61
35 52.09 6.004 152.50 5.879 149.33 5.875 149.23 5.875 149.23 5.750 146.05
Ordering InformationSpecify: X or XN; R or RN; packing bore; tubing size, weight, grade, and thread; service environment (standard,%H2S, %CO2, amines/other chemicals, chloride content, temperatures, pressures, etc.); API monogramming or other certification requirements; special holddown (interference or shear pin on lock Subsurface Flow Control Systems 8-7
mandrel); special material and elastomer requirements, if applicable.Part Number Prefixes: 11X, XNlanding nipple; 711X, XNAPI/monogrammed landing nipple; 10XO, XNlock mandrel; 710XO, XNAPI/monogrammed lock mandrel; 11R, RNlanding nipple; 711R, RNAPI/monogrammed landing nipple; 10RO, RNlock mandrel; 710RO, RNAPI/monogrammed lock mandrel
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FBN Full Bore Landing Nipple and Lock Mandrel System
The FBN full bore landing nipple and lock mandrel system allows an indefinite number of identical landing nipples to be installed in a tubing string. The FBN lock mandrel can be selectively set in any one of its associated landing nipples and when locked in place will withstand a differential pressure of up to 10,000 psi (690 bar) from either direction.
The lock mandrels expanding seal element and the landing nipples full-opening bore allow the lock to be run through any number of profiles before reaching the intended depth without the tendency to hang up in the higher profiles. This feature is particularly significant for large tubing and highly deviated well applications in which conventional selective locks will preset in higher profiles because of the interference fit packing.
Applications Monobore well completions Wells/fields/conditions in which problems exist for
interference-type seals High-angle/horizontal wells
Features Pressure ratings up to 10,000 psi (690 bar) Seals protected during installation and retrieval of
the lock Can be run and retrieved on slickline or coiled tubing Selective lock location Element above keys
Fishing Neck
Full Bore Nipple
Expandable Element
Double-Acting Spring
No-Go Locking Keys
Equalizing Sub
Plug Cap
HA
L823
8
FBN Full Bore Landing Nipple and 8-8 Subsurface Flow Control Systems
Lock Mandrel System
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Benefits Field-proven Any number of the identical nipples can be run Smooth installation Reduces time in the well with slickline Seals on the locking mandrel protected from damage Running/pulling with no interference
No need for restrictive sealbore landing nipples incompatible with some completion designs
Expandable element creates a seal downhole Keys provide positive location in nipple
FBN Full Bore Landing Nipple and Lock Mandrel System
Tubing/Casing Size
Casing Weight Nominal ID Drift
Standard Nipple ID
Minimum FBN Nipple ID
FBN Nipple Hone Bore
Lock Mandrel OD
Pressure from
Above
Pressure from
Below
Max. Temp
in. mm lb/ft kg/m in. mm in. mm in. mm in. mm in. mm in. mm psi psi F
3 1/2 88.909.30 13.84 2.992 76.00 2.867 72.82 2.813 71.45 2.880 73.15 2.900 73.66 2.78 70.61 6,730 6,730 300
10.2 15.18 2.922 74.22 2.797 71.04 2.750 69.85 2.810 71.37 2.830 71.88 2.73 69.34 10,000 10,000 300
4 1/2 114.30
12.60 18.75 3.958 100.53 3.833 97.36 3.813 96.85 3.840 97.54 3.920 99.57 3.79 96.27 6,400 6,400 300
13.5 20.09 3.922 99.62 3.795 96.39 3.750 95.25 3.810 96.77 3.830 97.28 3.73 94.74 10,000 10,000 300
16.90 25.15 3.740 95.00 3.615 91.82 3.688 93.688 3.630 92.20 3.710 94.23 3.60 91.44 10,000 6,400 300
5 1/2 139.7020.00 29.76 4.788 121.36 4.653 118.19 4.562 115.87 4.665 118.49 4.685 119.00 4.54 115.32 9,290 9,190 300
23.00 34.23 4.670 118.62 4.545 115.44 4.437 112.70 4.562 115.87 4.582 116.38 4.42 112.27 6,400 8,360 300
7 177.8029.00 43.16 6.184 157.01 6.059 153.90 5.963 151.46 6.070 154.18 6.120 155.45 5.94 150.88 9,780 7,500 300
32.00 47.62 6.094 154.79 5.969 151.61 5.963 151.46 5.980 151.89 6.000 152.40 5.86 148.84 8,529 7,526 300
Ordering InformationSpecify: tubing size, weight, grade, and thread connections; service environment (standard, %H2S, %CO2); temperature; pressure rating.Part Number Prefixes: 10FBNlock mandrels, 710FBNlock mandrels, 11FBNlanding nipples, 711FBNlanding nipples, 20FBNequalizing valves, 24FBNequalizing prong/plug assemblySubsurface Flow Control Systems 8-9
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No-Go Locks and Nipples
Otis RPT No-Go Landing Nipple and Lock Mandrel SystemsThe Halliburton Otis RPT no-go landing nipple system provides a means of running a series of positive location landing nipples in a tubing string with minimum restriction. Otis RPT no-go landing nipples are designed to accept Otis RPT and RPTS lock mandrels with a rated working pressure of 10,000 psi (690 bar) differential and greater from above and below.
The Otis RPT and RPTS no-go lock mandrels locate on top of the nipples polished bore; therefore, there are no secondary restrictions normally associated with bottom no-go profiles. This feature makes Otis RPT systems well suited for high-pressure, high-volume large bore completions. Otis RPT and RPTS lock mandrels in any given size range are designed to use the same running tool and pulling tool.
Some of the original RPT series lock mandrels were designed with large no-go profiles that were not compatible with the 1/16-in. sealbore ID reductions between nipples that are currently available. For these sizes, the RPTS series of locks was developed. All RPTS lock mandrels incorporate no-go profiles that allow a 1/16-in. sealbore stagger in the completion design. The reduction in no-go OD on theRPTS lock mandrel does not have any affect on theirpressure rating.
Applications High-pressure, high-temperature large bore completions Running a series of no-go nipples in a tubing string when
positive location and minimal ID reduction are required
Features Large bore All RPTS locks and most RPT locks will allow a 1/16-in.
stagger in nipple bore sizes Lock mandrel locates on top of the nipples polished bore Landing nipples can accept Otis RPT and RPTS lock
mandrels with a rated working pressure of 10,000 psi (690 bar) differential from above and below
A series of profile IDs are established for common tubing strings by size and weight
The reduction in no-go OD on the RPTS lock mandrel does not have any effect on their pressure rating
Benefits No secondary restrictions normally associated with
bottom no-go profiles Lock mandrels in a particular size range use the same
running tool and pulling tool
Fishing Neck
Otis RPTLanding Nipple
High-PressureLocking Keys
No-Go
High-PressurePacking Stack
Equalizing Valve
Plug Cap
HA
L121
81
Otis RPT No-Go Landing Nipple With RPT Plug8-10 Subsurface Flow Control Systems
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Otis RPT Profile and Lock Dimensions
Tubing SizeNipple Profile Lock Mandrel
Sealbore (Minimum ID) ID OD
in. mm in. mm in. mm in. mm
2 3/8 60.33
1.500 38.10
0.75 19.05
1.560 39.621.625 41.28 1.685 42.801.781 45.24 1.841 46.761.875 47.63 1.935 49.152.000 50.80 2.060 52.322.125 53.98 2.185 55.5
2 7/8 73.03
2.000 50.80
1.12 28.45
2.060 52.322.125 53.98 2.185 55.52.188 55.58 2.248 57.102.313 58.75 2.373 60.272.482 63.04 2.542 64.57
3 1/2 88.90
2.562 65.07
1.50 38.10
2.622 66.62.650 67.31 2.710 68.832.750 69.85 2.810 71.372.810 71.45 2.860 72.642.875 73.03 2.935 74.55
4 - 4 1/2 101.6-114.3
3.000 76.201.75 44.45
3.060 77.723.125 79.38 3.210 81.533.125 79.38
1.94 49.283.210 81.53
3.313 84.15 3.395 86.23
4 1/2 - 5 114.3-127
3.437 87.30
1.94 49.28
3.520 89.413.562 90.47 3.650 92.713.688 93.68 3.770* 95.763.750 95.25 3.807 96.703.813 96.85 3.895 98.934.000 101.60 4.090 103.89
5 1/2 139.70
4.188 106.38
2.75 69.85
4.270* 108.464.250 107.95 4.332* 110.034.313 109.55 4.395 111.634.437 112.70 4.520* 114.814.500 114.30 4.550 115.574.562 115.87 4.650 118.114.688 119.08 4.760* 120.904.688 119.08
3.12 79.254.760* 120.90
4.750 120.65 4.825 122.564.813 122.25 4.890 124.21
7 177.80
5.250 133.35
3.68 93.47
5.334 135.485.500 139.70 5.585 141.865.625 142.88 5.710 145.035.750 146.05 5.840* 148.345.813 147.65 5.890* 149.615.875 149.23 5.940 150.885.963 151.46 6.025 153.046.125 155.58 6.180 156.976.250 158.75 6.330 160.78
*No-go OD for these RPT lock sizes may not be compatible with next larger size nipple. Special OD tools are available. These use part number prefix 10RPTS and 710RPTS.Ordering InformationSpecify: tubing size, weight, grade, and thread connections; device environment (standard,%H2S, %CO2, amines/other chemicals, chloride content, temperatures, pressures, etc.); number of landing nipples in tubing string.Part Number Prefixes: 11RPTlanding nipple, 711RPTAPI monogrammed landing nipple, 10RPTlock mandrel, 710RPTAPI monogrammed lock mandrel. 10RPTS-lock mandrel, 710RPTS-API monogrammed lock mandrelSubsurface Flow Control Systems 8-11
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No-Go Locks for Safety Valves
The no-go nipple system allows positive placement of wireline safety valves, retrievable in predetermined nipples used in the completion. This section outlines the Halliburton Otis RQ, Otis RPV, and Otis SAFETYSET no-go lock mandrel/nipple system.
Otis RQ No-Go Lock Mandrels
RQ lock mandrels are top no-go lock mandrels designed to land and lock in Otis RQ profiles in safety valve landing nipples and tubing retrievable safety valves.
Otis RPV No-Go Lock MandrelRPV lock mandrels are top no-go lock mandrels designed to land and lock in Otis RPT landing nipple profiles.
Applications Designed for subsurface safety valve (SSSV) applications RQ mandrels are only used with Otis RQ landing nipple
profiles in SSSV equipment RPV mandrels are only used with Otis RPT landing
nipple profiles
Features Matching nonhelical teeth inside the keys and on OD of
expander sleeve provide primary holddown. Shear pin or interference fit secondary holddown assures
the lock will remain in place under extreme flowing conditions.
RQ mandrel features removable no-go ring RPV mandrel no-go takes all the load
Benefits Positive no-go location prevents wireline misruns Installed and retrieved by standard slickline methods Redundant holddown features Teeth engage and become primary holddown when lock
has pressure differential from below
Options Anti-vibration feature available
Fishing Neck
Double-ActingSpring
Locking Keys
Removable No-GoShoulder
Packing
Otis RQ No-Go Lock Mandrel
HAL
8490
Otis RPV No-Go Lock Mandrel
HAL
3926
68-12 Subsurface Flow Control Systems
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ngOtis SAFETYSET Lock Mandrel SystemThe Halliburton Otis SAFETYSET lock mandrel system is a drive-down, jar-up-to-set, no-go-type system designed specifically for surface-controlled subsurface safety valve (SCSSV) applications. This system consists of an Otis SAFETYSET lock mandrel, running tool, and unlocking tool. The SAFETYSET lock mandrel system is designed to help ensure valve-set integrity and hydraulic control communication to the safety valve.
The design features a locking sleeve that moves upward in the direction of flow to establish a locked safety valve. This locking allows unlimited drive-down action without the possibility of presetting the lock while it travels downhole. A no-go shoulder on the lock mandrel provides positive locating within the landing nipple. This system is designed to minimize operator guesswork at surface by requiring two independent conditions to exist before the running tool will release. The SCSSV must be pressured open for lock keys to expand. Only when the locking sleeve is locked in place will the running tool release. A running tool retrieved to surface without the lock and valve indicates a functional valve securely locked into the landing nipple.
Applications Specifically designed for slickline-
retrievable, SCSSV applications High flow rates
Features No shear pins in the running tool Running tool can be released only
after lock mandrel locks (locking keys fully extended into the profile) and SCSSV is operable
Large ID Locking sleeve locks in the direction
Optimum pressure rating design on lock mandrel
Anti-vibration ring in lock mandrel
Benefits Helps eliminate the possibility of
subsurface safety valves being left downhole when improperly installed without control-line pressure integrity
No shear pin damage to safety equipment, seals, and sealing bores
No presetting and false set indications from premature pin shearing
Helps avoid possible flow-out of the subsurface safety valves to surface
Minimal metal-to-metal abrasion from vibration
Lock system protected from unintentional unlocking by slickline tools passing through the ID
Options Designs available for all Otis RQ
and Otis RPT landing nipple profiles.
Models designed to land and lock in any safety valve landing nipple if there is a no-go
UP running tool allows setting staggered and non-staggered sealbore safety valves
Ordering InformationSpecify: type nipple profile or part number of nipple, if known; packing bore of nipple; special material requirements, if applicable; service environment (standard, %H2S, %CO2, amines); necessity of API monogramming or other certification requirements; pressure rating.Part Number Prefixes: 710SSAPI monogrammed lock mandrel to fit RQ profile, 710SSAto fit RPT profile
Fishing Neck
Anti-Vibration Ri
Locking KeysLocking Sleeve
No-Go Shoulder
Packing
Otis SAFETYSETNo-Go Lock Mandrel
HA
L220
98Subsurface Flow Control Systems 8-13
of flow
-
SRH PlugHalliburton SRH high-pressure plugs are designed for use in extreme temperature and pressure environments. The SRH plug uses the top no-go location and is designed such that pressure from above and below is held by key/nipple engagement. Special non-elastomer V-packing stacks are gas-tight qualified up to 25,000 psi at 450F.
Features Robust and simple uni-body style plug with one moving
part (key expander) HP/HT non-elastomer seal stack V0 qualified 3 45 loading surfaces on key above and below,
maximizing key bearing area Up to 25,000 psi pressure rating at 450F Metal-to-metal (MTM) shear plug for equalizing in
pump-through type Holddown feature locks plug in the set position
Benefits Uni-body design eliminates internal leak paths Bubble-tight seal performance at ultra-high pressures
and temperatures Key/nipple profile configuration provides ultra-high
pressure capability while minimizing component stress levels
All seals are inert to all known well fluids and are unaffected by rapid gas decompression
Pump-through plug type allows for well kill while installed in the nipple profile
Pre-install capabilities of the positive type plug in the completion helps eliminate the need to run wireline to set the plug body
Running tool does not release until lock is correctly and fully set
Pulling tool will not engage unless pressure equalizes across plug
SRH plugs are available in pump-through and positive type. The pump-through type incorporates a poppet which has a metal-to-metal seal backed up by a HP/HT non-elastomer V-packing stack. A MTM knockout plug is provided for equalization. A test prong can be run to convert the pump-through plug into a positive plug for testing from above.
The two-trip prong-type plug is a positive plug with no pump-through feature. The packing on the prong uses the
The prong is pressure balanced for easy removal under high-pressure differential to allow for equalizing prior to retrieving the plug.
HA
L365
60
SRHPositive Plug
SRH Pump-Through Plugwith Positive Prong Installed
HAL
3782
48-14 Subsurface Flow Control Systems
same type HP/HT V-packing stacks as used on the plug body.
-
Wellhead Plugs and Backpressure Valves
SRP Wellhead PlugsHalliburtons SRP plug system is designed primarily for use in horizontal subsea trees. Its compact size allows the tree to be shorter, allowing smaller, less costly wellhead equipment. The top no-go design provides a positive locating means to simplify running procedures and eliminate misruns. Because the SRP plug is a dedicated wellhead plug, it can be used for any tree or tubing hanger plugging application.
SRP Wellhead Backpressure ValvesThe SRP wellhead backpressure valve provides pump-in well kill capability while providing complete well control. It features the same compact design and multiple seal backup available in the SRP wellhead plug. A test prong is also available to allow testing of the hanger and tree from above. The SRP backpressure valve incorporates two equalizing methods and cannot be released prior to full equalization of pressure. Both the SRP wellhead backpressure valve and the SRP wellhead plug utilize the same service tools for running and retrieving.
SSP Wellhead PlugsHalliburton SSP wellhead plugs feature a primary metal-to-metal seal and a composite packing stack. These plugs are typically rated for 10,000 psi (15,000 psi test) pressures from above and below. The wellhead plug features demonstrate the benefits of Halliburton design expertise and field experience.
Applications Conventional tubing hangers Platform horizontal trees Subsea horizontal trees
Features Dedicated wellhead design Internal fish neck Top no-go locator Single or multiple seal stacks Equalizing option High-pressure seal stack
Benefits Helps reduce cost of tubing hanger, tree housing,
and services Minimizes service riser dimension/cost Helps save time and money using slickline to install Field-proven technology Compatible with other Halliburton downhole
landing nipples
Ordering InformationSpecify: packing bore, pressure rating, special material requirements, service
SRP WellheadPlug
SRP WellheadBackpressure Valve (with Test Prong)
SSP Wellhead Plug
Subsea Horizontal Tree
HA
L143
00
HA
L831
0
HAL
8308
HA
L140
32Subsurface Flow Control Systems 8-15
environment. Part Number Prefixes: 10 and 710SRP for Wellhead Plugs; 21SRP for Backpressure Valve; 14 SRP for test prongs for BPV; 710SSP for MTM seal
-
Through-Tubing Plugging Equipment
Plugs Set in Nipples
Otis One-Trip Plug AssembliesNote: Not recommended for use where debris can build up in or above the plug system. Please refer to the prong-type plug systems for a debris-tolerant solution.
Otis one-trip plug assemblies consist of a lock mandrel, an equalizing sub-assembly, and a plug cap. These plugs are run and pulled on slickline to plug the tubing for various operations.
Otis one-trip plugs are available for all Otis key-type locks. This style plug is also available for FBN locks.
One-trip plug assemblies are designed to hold differential pressure from above or below for normal plugging operations. The equalizing sub provides an equalization path across the plug. Only one slickline trip is required to run or pull the plug.
Applications Normal plugging operations Setting and testing packers Removing the wellhead Testing tubing Separating zones during production tests or data
gathering Assemblies for X, XN, R, RX, RPT, and FBN locks
and nipples
Features Balanced equalizing system Fluid bypass during running or retrieving operations
Benefits Requires only one slickline trip to run or pull Holds pressure from below or above
Note: One-trip plug requires lock mandrel, equalizing valve, and valve cap, each ordered separately.
Ordering InformationSpecify: lock type and size or part number, if known; plug type (one-trip, two-trip, pump through); service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; special material requirements, if applicable.Part Number Prefix: 20XO, RO, RPT, FBN-equalizing valve for one-time plug.
Fishing Neck
Lock Mandrel
Equalizing Sub
Valve Cap
Otis XX Plug Assembly
HA
L849
18-16 Subsurface Flow Control Systems
20X, R-valve cap for one-trip plug.
-
Otis Prong-Type Plug Assemblies
Otis prong-type plug assemblies consist of a lock mandrel and a prong equalizing housing. Plugs are run and pulled on slickline and used to plug the tubing for various operations, including setting and testing packers and testing tubing.
Otis prong-type plugs are made available for all Otis key-type lock mandrels.
Otis plug assemblies with equalizing prongs are used to plug the wellbore in either direction. They are designed for use where sediment might collect on the plug. Before the plug is retrieved from the wellbore on slickline, the prong is removed from the plug housing, providing an equalization path across the plug. Two slickline trips are required to run or pull the plug.
Applications Setting and testing packers High-pressure conditions Removing the wellhead Separating zones during production tests or data-
gathering For use where sediment might collect on the plug Available for X, XN, RN, RPT, and FBN locks
and nipples
Features Balanced equalizing prongs with seals for either standard
or H2S service Fluid bypass during running or retrieving operations Extended-length prongs for use in completions with
side-pocket mandrels or when a large amount of sediment is expected
V-packing seals on equalizing prong
Benefits Set and retrieved on slickline Holds pressure from below or above Dependable sealing in extreme environments Compatible with other Halliburton downhole
landing nipples
Ordering InformationSpecify: lock type and size or part number, if known; plug type (one-trip, two-trip, pump through); service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; special material requirements, if applicable.Part Number Prefix: 24PXX, PRR, RPT, FBN
Otis PRR Plug Assembly
HA
L392
60Subsurface Flow Control Systems 8-17
-
Otis XR Pump-Through Plug Assemblies
Halliburton Otis XR pump-through plug assemblies are designed to hold pressure differential only from below. They can be pumped through by applying tubing pressure above the plug until it overcomes the well pressure, allowing fluids to be pumped through the plug, to equalize across the plug, or to kill the well. One slickline trip is required to run or pull the plug. These plug chokes are run and pulled on slickline to plug the tubing for various operations. Otis XR pump-through plugs can be made up on Otis X, XN, R, RN, RPT or FBN lock mandrels and installed in Otis X, XN, R, RN, RPT, or FBN landing nipples.
Applications Killing the well Removing the wellhead Isolating high-pressure zones from lower pressure zones
Features Holds pressure differential from below only Uses a ball-and-seat assembly
Benefits Requires only one slickline trip to run or pull the plug Allows kill fluids to be pumped through the plug
Ordering InformationSpecify: lock type and size or part number, if known; plug type (one-trip, two-trip, pump through); service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; special material requirements,
Fishing Neck
Lock Mandrel
Expander Mandrel
Equalizing Sub
Ball and Seat
Spring
Valve Housing
Otis XR Pump-Through Plug
Assembly
HA
L849
28-18 Subsurface Flow Control Systems
if applicable.Part Number Prefix: 21XRpump-through plug
-
Pump-Open Plugs
The pump-open plug is a positive plug that holds pressure from either direction but can be pumped open by applying excess surface pressure.
Pump-open plugs serve as temporary tubing plugs that can be pumped open and used for production without retrieving by slickline.
These plugs consist of a plug body, plug cap, and pump open valve. They are designed to be run with equalizing valves and are available for all Otis key-type lock mandrels.
Applications As a temporary tubing plug that can be pumped open
and used for production without running slickline For conventional plugging applications in sandy
conditions where equalizing through small bore equalizing devices might be difficult
To isolate perforations when run below packer completion assembly
Features Only one moving part Nontortuous flow path Balanced flow areas
Benefits Provides reliable, economical performance Can be used with virtually any lock mandrel Ordering Information
Specify: lock/equalizing valve size and type or part number, if known; service environment (standard, %H2S, %CO2, amines, etc.); temperature rating; special material requirements, if applicable.Part Number Prefix: 21XPO, RPOpump open plug
O-ring Seal
Flow Ports
Release Pins
Pump-Open Valve
Plug Body
Plug Cap
Pump-OpenPlug
HA
L117
45Subsurface Flow Control Systems 8-19
-
Equalizing Subs
Halliburton features many different equalizing subs to accompany the various lock mandrel models available. The various sub-models differ in ID size, pressure-holding capabilities, equalizing valve design, lock mandrel compatibility, tubing weight, and service environment.
Otis XH Equalizing Subs
Halliburton Otis XH equalizing subs feature button-type valves with a no-go OD that holds pressure from below only. They are designed to be used with Otis X lock mandrels to allow ambient and pressure-differential safety valves to be reopened against differential pressures without being pulled.
The Otis XH equalizing valve has a flow bore compatible with the subsurface flow control bore.
Applications Used with Otis X lock mandrels Allow ambient and pressure-
differential safety valves to be reopened against differential pressures without being pulled
Suitable for H2S and standard service
Features Button valve No-go OD Holds pressure from below only
Benefits Ambient and pressure-differential
safety valves can be reopened without being pulled
Otis X and R RPT and FBN Equalizing Subs
These Otis equalizing subs are used in one-trip plugs where pressure differentials are anticipated. They are designed to hold pressure from above or below.
These subs are run in the open position, and the running prong shifts the sleeve to the closed position during the setting procedure.
The pulling prong shifts the sleeve downward to the open position for equalization before pulling.
Applications When pressure differentials are
anticipated across a flow control device
Available for all Otis key-type lock mandrels
Features Holds pressure from above or below Valve is closed when running tool is
released and is opened when pulling tool is engaged
Pressure balanced
Benefits Ports opened during installation for
fluid bypass Can be adapted to numerous flow
control devices and Storm Choke safety valves
Ordering InformationSpecify: lock type and size or part number, if known; service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; special material requirements, if applicable.Part Number Prefix: 20XO, XH, RO, RPT, FBNequalizing subs
ValveHousing
Valve
Spring
Valve HousingSeal
Valve
SealOtis X and R Equalizing Sub
Otis XH Equalizing Sub
HAL
8494
HA
L849
58-20 Subsurface Flow Control Systems
-
Otis Bottomhole Choke BeansHalliburton Otis bottomhole choke beans are designed to reduce the possibility of freezing surface controls by moving the point of pressure and temperature reduction to the lower portion of the wellbore. They can be run on any Halliburton Otis lock mandrel.
Otis choke beans are designed to prolong the flowing life of wells by liberating gas from solution at the bottom of the hole. This liberation lightens the oil column and increases flow velocity. These choke beans also help prevent water encroachment by maintaining a consistent bottomhole pressure. Reducing water encroachment helps to stabilize and keep the formation oil/water contact constant.
Applications To help reduce the possibility of freezing surface controls
Features Can be connected to all Otis lock mandrels Are available in various sizes
Benefits Minimize water encroachment Lighten the oil column Increase flow velocity Prolong the life of the well
Ordering InformationSpecify: lock type and size or part number, if known; service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; bean size for X bottomhole choke.
Note: Beanholder supplied with blank bean for custom sizing. Alternate beans available under prefix 21X.
Part Number Prefix: 21XObeanholder with choke
BeanHolder
O-ring
ChokeBeanHA
L849
3
Otis X Bottomhole Choke BeanSubsurface Flow Control Systems 8-21
-
HE3/HX4 Retrievable Bridge Plug
The HE3 and HX4 retrievable bridge plugs (RBP) provide a means of isolating the upper wellbore from production or the lower wellbore from a treatment in the upper wellbore.
They can be set at a predetermined depth anywhere in the tubing or casing and can be run and retrieved using conventional well intervention methods. The slip system on the tools outer body anchors the plug to the wellbore while a packing element provides the pressure seal.
The HE3 RBP incorporates a mid-mounted pressure equalization feature that offers single-trip run and retrieve. With an extensive run history, the HE3 RBP is available in sizes ranging from2 7/8-in. through 13 3/8-in.
The HX4 RBP is a two-trip run and retrieve version of the HE3 RBP facilitated by a prong and equalizing housing.
ApplicationsThe HE3 RBP is designed for deployment in any type of well, whether horizontal or vertical, oil, gas, or water. Typical applications include pressure testing of the production tubing, packer setting, and completion installation operations.
Additional applications include tree repair or installation, gas-lift valve change out, zonal isolation or treatment, temporary well suspension, and packer or annular safety valve punch release.
Incorporating a larger equalizing flow area, the HX4 RBP is ideal for pre-installation in the completion tailpipe and being run with the completion for packer setting operations.
Features One-piece dual modulus packing
element Compact, modular design Large footprint segmented slip
mechanism Slip mechanism located below
packing element Slips mechanically retained on
retrieval Controlled setting action Various slip options Field redressable May be set using conventional
slickline or electric line setting tools, on coiled tubing or workstring, and using the Halliburton DPU downhole power unit
Benefits Allows the tubing to be plugged
without the need for a nipple profile Removes the need for restrictions
caused by such nipple profiles Reduced risk of premature setting
while running in hole and hanging up on retrieval
Slip mechanism position offers protection from casing debris, thus improving reliability
Slip design and controlled setting action helps ensure the stresses exerted on the casing or tubing are evenly distributed, thus preventing damage
HE3 Retrievable Bridge Plug
HX4 Retrievable Bridge Plug
HAL
3147
2
HA
L316
17
HAL
3161
88-22 Subsurface Flow Control Systems
-
HE3/HX4 Retrievable Bridge Plugs
Casing/Tubing Maximum OD
To Pass Restriction
Pressure Rating
Size Weight Above Below
in. mm lb/ft kg/m in. mm in. mm psi bar psi bar
2 7/8 73.036.4 9.52 2.120 53.85 2.187 55.55 10,000 689.00 10,000 689.00
8.7 12.94 2.280 57.91 2.310 58.67 5,000 344.50 5,000 344.50
3 1/2 88.90
9.2 13.69 2.710 68.83 2.750 69.85 7,500 516.75 7,500 516.75
10.2 15.70 2.710 68.83 2.750 69.85 7,500 516.75 7,500 516.75
12.7 18.89 2.600 66.04 2.625 66.68 7,500 516.75 7,500 516.75
4 101.609.5 14.13 3.250 82.55 3.220 81.79 5,000 344.50 5,000 344.50
11.6 17.26 3.250 82.55 3.220 81.79 5,000 344.50 5,000 344.50
4 1/2 114.30
11.6 17.263.600 91.44 3.625 92.08 6,000 413.40 6,000 413.40
3.600 91.44 3.625 92.08 6,000 413.40 6,000 413.40
12.6 18.75 3.750 95.30 3.812 96.85 10,000 689.00 10,000 689.00
14.5 21.58 3.600 91.44 3.625 92.08 6,000 413.40 6,000 413.40
15.1 22.46 3.600 91.44 3.625 92.08 6,000 413.40 6,000 413.40
5 127.00
15.0 21.31 4.220 107.19 4.250 107.95 5,000 344.50 5,000 344.50
18.0 26.784.090 103.89 4.125 104.78 6,000 413.40 6,000 413.40
3.970 100.84 4.000 101.60 3,000 206.70 3,000 206.70
5 1/2 139.70
17.0 25.29 4.470 113.54 4.500 114.30 5,000 344.50 5,000 344.50
20.0 29.75 4.410 112.01 4.437 112.70 4,000 275.76 4,000 275.76
23.0 34.214.410 112.01 4.437 112.70 4,000 275.76 4,000 275.76
4.280 108.71 4.313 109.55 5,000 344.50 5,000 344.50
26.0 38.68 4.280 108.71 4.313 109.55 5,000 344.50 5,000 344.50
6 5/8 168.30
28.0 41.65 5.560 141.22 5.625 142.88 6,500 447.85 6,500 447.85
32.0 47.60 5.470 138.94 5.500 139.70 5,000 344.50 5,000 344.50
33.0 49.09 5.470 138.94 5.500 139.70 5,000 344.50 5,000 344.50
7 177.80
23.0 34.21 5.970 151.64 6.000 152.40 3,500 241.15 3,500 241.15
26.0 38.68 5.890 149.61 5.937 150.80 5,000 344.50 5,000 344.50
29.0 43.15 5.750 146.05 5.720 145.29 6,500 447.85 6,000 413.40
32.0 47.60 5.750 146.05 5.720 145.29 6,500 447.85 6,000 413.40
35.0 52.06 5.600 142.24 5.625 142.88 6,000 413.40 6,000 413.40
38.0 56.55 5.600 142.24 5.625 142.88 6,000 413.40 6,000 413.40
41.0 60.99 5.600 142.24 5.625 142.88 6,000 413.40 6,000 413.40
7 5/8 193.6826.4 39.27 6.625 168.28 6.687 169.85 5,000 344.50 5,000 344.50
29.7 44.18 6.625 168.28 6.687 169.85 5,000 344.50 5,000 344.50
9 5/8 244.48
40.0 59.50 8.555 217.30 8.625 219.08 3,000 206.70 3,000 206.70
43.5 64.71 8.475 215.27 8.500 215.90 3,000 206.70 3,000 206.70
47.0 69.91 8.475 215.27 8.500 215.90 3,000 206.70 3,000 206.70
53.5 79.58 8.260 209.80 8.312 211.12 5,000 344.50 5,000 344.50
10 3/4 273.0560.7 90.29 9.375 238.13 9.437 239.70 5,000 344.50 5,000 344.50
65.7 97.73 9.375 238.13 9.437 239.70 5,000 344.50 5,000 344.50
11 3/4 298.45 54.0 80.33 10.600 269.24 10.660 270.76 5,500 379.17 3,500 241.15
13 3/8 339.7368.0 101.15 11.015 275.78 12.187 307.55 3,500 241.15 3,500 241.15
72.0 107.10 11.015 275.78 12.187 307.55 3,500 241.15 3,500 241.15
Part Number Prefixes: P.801HE3, P.801HX4Subsurface Flow Control Systems 8-23
-
Evo-Trieve Bridge Plug
The Evo-Trieve bridge plug is a high-performance retrievable monobore plugging device that does not require a predetermined setting restriction for locating or sealing within the production completion. Evolved from the industry-leading HE3, TR0 / TR1, and Monolock retrievable bridge plugs, the Evo-Trieve bridge plug blends past experience with future industry requirements.
The Evo-Trieve bridge plug is V0-qualified per ISO 14310 to 7,500 psi and up to 325F. Its robust design includes large slip and element footprints to provide improved pressure-holding capability in unsupported casing. Debris tolerance has been verified through a comprehensive flow loop testing program.
The Evo-Trieve bridge plug can be deployed using conventional slickline with the DPUdownhole power unit and can be retrieved with industry-standard GS pulling tools.
Applications Particularly suited to applications
requiring a qualified barrier-type plugging device located within the tubing string
Suitable for new completion installation and multiple well maintenance applications throughout the complete life ofwell cycle
Readily adapted to install pressure gauges or other associated flow control equipment for a full range of well service demands
Suited to shallow-set well plugging applications prior to Christmas tree removals and repairs to surface wellhead equipment
Features Supplied with H2S packing element
system as standard for critical well deployment and reduced inventory management
Superior debris tolerance provided by element positioned above slips complemented by a large ID pressure equalizing feature to resist plugging
Improved body lock ring system retains element pack-off force during pressure reversals across plug
Robust slip system permits no over expansion in set position while remaining mechanically locked in retracted position when plug is released
Time savings delivered through single-trip wireline equalization and plug retrieval operations
Easily adapted to existing modular extensions for extreme debris environments
Easy access top guide sub helps ensure retrieving tool engagement in highly deviated well profiles
Benefits Minimized tool diameter and
retained packing element offers improved running speeds and operational performance within deviated wellbores and access through tubing restrictions
Reduced operational costs as tool is retrieved by readily available industry-standard GS pulling tools
Simplified compact design requires no special assembly tools and is ideally suited for well site conversion and remote location operations
Suitable for deployment in all well types utilizing slickline, DPU unit, electric line, coiled tubing, tractor, and workstring operations
Evo-Trieve
HA
L246
278-24 Subsurface Flow Control Systems
Bridge Plug
-
Evo-Trieve Bridge Plugs
Casing/Tubing MaximumOD
MinimumOD
To Pass Restriction
Pressure RatingISO 14310 V0 Tested Temperature
Rating Size Weight Above Below
in. mm lb/ft kg/m in. mm in. mm in. mm psi bar psi bar F C
4 1/2 114.30
11.6 17.26
3.660 92.96 1.250 31.75 3.688 93.70 7,500 516.75 7,500 516.75 325 16312.6 18.79
13.5 20.09
5 1/2 139.70
17 25.30
4.470 113.54 1.750 44.45 4.500 114.30 7,500 516.75 7,500 516.75 325 16320 29.76
23 34.23
7 177.8029 43.16
5.720 145.29 2.310 58.67 5.750 146.05 7,500 516.75 7,500 516.75 325 16332 47.62
Part Number Prefix: P.801EV0Subsurface Flow Control Systems 8-25
-
Evo-RED Bridge Plug
The Evo-RED bridge plug provides a unique and highly efficient method of deploying and retrieving a downhole barrier. It incorporates a computer-controlled ball valve which can be remotely opened and closed multiple times without the need for any control lines or interventions. Each time the ball valve is activated, an intervention is eliminated from the operation saving rig-time while helping to reduce risk to both the operation and personnel.
The Evo-RED bridge plug can be used in a wide range of well operations and is particularly effective as a downhole barrier during workovers or completion operations keeping interventions and personnel-on-site to a minimum.
ApplicationsAny application where a wireline plug is used can be replaced by the Evo-RED bridge plug. The same results can be achieved but without repeated interventions, reducing personnel on board while saving on rig time and the associated costs and risks. Multiple assemblies can be used in a single operation maximizing benefits.
Packer setting device Deep-set barrier in extended reach or horizontal wells Shallow-set for tree testing and change out Liner deployment with external swellable elastomer Barrier in temporary abandonments or light well
intervention operations Barrier in tubing conveyed perforating gun firing and
stimulation operations Self-actuating flow control device Shut-in tool for pressure build-up tests with reduced
interventions
Features Reduced personnel on board Reduced interventions Remotely operated time-after-time Extensive run history Reliable deployment Debris tolerant Integrated backup
Benefits Can be pre-installed onshore; no dedicated offshore
personnel are required during the operation. Wellsite installations use multi-skilled service engineers reducing personnel on-site; saving substantial costs and helping reduce risk.
Can be retrieved with the tubing during a workover operation. This reduces the number of interventions for the entire operation to just one.
Remote activation of the ball valve minimizes the number of interventions required to set and remove a downhole barrier for almost any well operation.
Incorporates field-proven technology and is currently in worldwide use by many of the major oil operators.
Minimized OD, retained packing element, anti-preset and anti-reset features aid deployment and retrieval. Ball valve can also be functioned to either the opened or closed position as the operation requires.
Large ID and the element positioned above the slips; the ball valve has a large flow area allowing debris to be washed through the assembly before retrieval.
Built-in mechanical equalization feature aids retrieval and can be used as a backup should the ball valve fail. It is activated by the pulling tool during the retrieval operation, keeping interventions to a minimum.
8-26 Subsurface Flow Control Systems
-
OperationThe Evo-RED bridge plug is run-in-hole with the ball valve normally in the open position and the slips and element relaxed. Typically the assembly is deployed on the electronically controlled DPU downhole power unit which will mechanically set the bridge plug when target depth has been reached. At this stage, the ball valve is still open and the flow of the well unrestricted. It can be commanded to close at any time using one of the pre-programmed triggerssuch as applying between 1,000 and 1,500 psi for 10 minutes.
With the ball valve closed, the device provides a testable downhole barrier (rated to ISO 14310 V1) capable of holding up to 7,500 psi from above and below. The well can be equalized at any time by commanding the Evo-RED bridge plug to open using another pre-programmed trigger. This process can be repeated up to 30 times in a single jobproviding operational flexibility and eliminating an intervention each time.
The assembly is retrieved in a single run using a standard GS pulling tool with PX0 anti-pre-shear adapter. This latches into the top of the Evo-RED bridge plug activating the internal equalizing mechanism which aids recovery and doubles as a backup should the electronics fail. The slips and element retract and are secured in place by the anti-reset mechanism.
The large flow ports on the ball valve and extensive bypass features aid recovery by allowing significant fluid to flow through the assembly, while the minimized OD helps prevent them from fouling on other equipment during the retrieval.
Evo-RED Bridge Plug
Available Sizes (to Suit Casing Size)
Maximum Differential Across Closed Assembly
Temperature Range
Maximum Differential Pressure While Opening
in. lb/ft psi bar F C psi bar
4 1/2 11.6, 12.6, 13.5 7,500 516 39 - 284 4 - 140 6,000 414
5 1/2 17, 20, 23 7,500 516 39 - 284 4 - 140 6,000 414
7 23, 26, 29, 32 7,500 516 39 - 284 4 - 140 6,000 414Subsurface Flow Control Systems 8-27
-
DPU Downhole Power Unit
Halliburtons DPU downhole power unit is an electro-mechanical downhole electric power supply device that produces a linear force for setting packers using downhole electric power. The tool is self-contained with a battery unit and an electrical timer to start the setting operation. The unit consists of three functioning sections: the pressure sensing actuator, the power source, and the linear drive section.
The slickline version of the DPU unit uses batteries to provide the energy to the motor and timing circuits. An electric line version without the timer, circuits, and batteries is also available.
Note: Both slickline and e-line DPU units include conversion kits to allow for the use of some existing Baker setting adapter kits.
The DPU unit and attached subsurface device are run into the well on slickline or braided line. The timer initiates the operation. The setting motion is gradual and controlled (about0.7 in./min) allowing the sealing element to conform against the casing/tubing wall and the slips to fully engage. The controlled setting motion allows the sealing element to be fully compressed. Once the setting force is reached, the DPU unit shears loose from the subsurface device and is free for removal from the well. The DPU unit is designed to help set and allow for dependable operation of downhole flow control devices, reduce well completion costs, and improve safety at the wellsite.
ApplicationsSets and Retrieves:
Packers Bridge plugs Whipstocks Subsea tree plugs
Sets:
Cement retainers Sump packers HE3 and HX4 retrievable bridge
plugs B-series wireline-retrievable packers Evo-Trieve products
Perforates: Retrievable intervention straddles Tubing Casing
Shifts:
Sliding Side-Door circulation/production devices
Internal control valves Releasing mechanisms/sleeves
DPU Downhole Power Unit
HAL
1400
08-28 Subsurface Flow Control Systems
-
Features Equipped with a timer/accelerometer/pressure actuation
system to help ensure tool setting at proper time and depth
Batteries for self-contained operation Slickline, e-line, or coiled tubing operation Sets and retrieves tools with optimal setting force Reduced cost for setting packers and bridge plugs using
traditional electric line Non-explosive operation helps improve safety Eliminates need for electric wireline Dependable operation Positive setting of slips and elements Optimized operating speed
AdvancedMeasuringSystem
InspectionCoil
Slickline Service Unit
Downhole Power Unit
Bridge Plug
HA
L117
52Subsurface Flow Control Systems 8-29
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Bottomhole Pressure and Temperature Equipment
Halliburton softset gauge hangers and LO shock absorbers are designed to attach to bottomhole pressure and temperature tools and allow them to be positioned downhole.
Softset Gauge HangerSoftset gauge hangers are designed to set instruments virtually anywhere Otis landing nipples have been installed. Data surveys can be collected downhole using conventional slickline methods. This practice provides significant savings (1) when several wells in a field are to be surveyed and (2) in fields where a highly corrosive environment requires the slickline to be removed from the well during prolonged monitoring.
Applications Wells with a highly corrosive
environment Field with several wells to be
surveyed Wells that require extended surveys
Features Soft mechanical release
Benefits Does not require jarring to set Allows data surveys using
conventional slickline methods Allows for accurate charts rather
than recording jarring effects Can be set in one of many landing
nipples to run surveys at known locations downhole
Note: An Otis MR mechanical running tool is used to run the Otis softset bomb hanger. It is designed to carry weight in excess of the 140-lb (63.5 kg) weight limit of a hydraulic running tool. The Otis MR mechanical running tool features an emergency shear ring designed to release the core from the fishing neck if the bomb hanger becomes stuck and needs to be freed.
Shock AbsorbersThe LO shock absorbers are designed to help prevent instrument damage caused by jarring and impacts during slickline operation. The assemblies suspended below the shock absorbers are supported by springs within the absorber. Any shocks transmitted from the slickline toolstring are absorbed by the shock absorbers.
The absorbers should be used only when the weight of the instruments attached below does not compress the spring to its stacked length.
Ordering InformationShock AbsorbersSpecify: lock type and size; service environment (standard, %H2S, %CO2, amines); special material requirements, if applicable; weight of instruments.Part Number Prefix: 33LOBomb hanger or shock absorberOrdering InformationSoftset Bomb HangerSpecify: tubing size, weight, and thread; nipple profile and ID; service environment (standard, %H2S, %CO2, amines); special material requirements, if applicable; weight of instruments.Part Number Prefix: 33XN, RNS, 33RPT, 33FBNSoftset bomb hanger
Softset Gauge Hanger
LO Shock Absorber
HA
L849
6
HA
L104
428-30 Subsurface Flow Control Systems
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Tubing-Installed Flow Control Equipment
DuraSleeve Sliding Side-Door Circulation and Production Sleeve
The DuraSleeve Sliding Side-Door circulation and production sleeve is a full opening device that can be operated using standard slickline methods. It incorporates an internal sleeve that when open enables communication between the tubing and tubing/casing annulus. A nipple profile in the top sub and a polished bore in the bottom sub are standard features and allow accessory tools such as a Side-Door choke or separation tool to be set across the DuraSleeve device.
The DuraSleeve device incorporates Halliburton DURATEF engineered composite material (ECM) seals completely eliminating any elastomers from the tool. These seals provide a more easily shifted sleeve while providing reliable service for the life of the well.
Applications Single string selective completions Provide path for circulating heavier or lighter fluids Secondary recovery
Features Otis X, R, RPT, or FBN profiles available Polished sealbores in both top and bottom subs All seals are non-elastomer Circulation/production flow area is equal to DuraSleeve
device ID Packing does not move when sleeve is shifted Collet provides positive sleeve location in the closed,
equalizing, and open position Open up and open down versions available Equalizing ports in the inner sleeve allow opening under
high differential pressures B profile provides automatic positioning tool release
when sleeve is completely shifted
Benefits Reliable operation over the life of the well Can be opened repeatedly against high differential
pressures Can be shifted in high debris or sandy environments Multiple devices can be run in a single tubing string Several sleeves can be shifted in a single slickline trip Individual sleeves can be opened or closed selectively Slickline-run accessory tools can be set within the
DuraSleeve device
Landing NippleProfile
Closing Sleeve
Equalizing Ports
Flow PortsBuffer SealECM Seal StackHigh-Strength BodyJoints
Lower PolishedBore
DuraSleeve Sliding Side-Door Circulation/Production Sleeve
HA
L849
9Subsurface Flow Control Systems 8-31
-
DuraSleeve Sliding Side-Door Circulation and Production Sleeve
Tubing Size SSD ID Nipple Profile
in. mm in. mm X R RPT
2 3/8 60.33
1.875 47.63 1.781 45.24 1.710 43.43
2 7/8 73.03
2.313 58.75 2.188 55.58 2.125 53.98 1.875 47.63 1.710 43.43
3 1/2 88.90
2.813 71.45 2.750 69.85 2.562 65.07 2.313 58.75
4 101.603.313 84.15 3.125 79.38
4 1/2 114.30
3.813 96.85 3.750 95.25 3.688 93.68 3.562 90.47 3.500 88.90 3.437 87.30
5 127.00
4.000 101.60 3.813 96.85 3.688 93.68 3.562 90.47 3.437 87.30
5 1/2 139.70
4.688 119.08 4.562 115.87 4.500 114.30 4.437 112.70 4.313 109.55
7 177.80
5.960 151.38 5.875 149.23 5.625 142.88 5.500 139.70
= currently available = available on request8-32 Subsurface Flow Control Systems
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Slimline DuraSleeve Sliding Side-Door Circulation and Production Device
Slimline DuraSleeve Sliding Side-Door circulation and production devices are available in 2 3/8 through 4-in. sizes. These Sliding Side-Door circulation devices retain all the
features of the regular Halliburton circulation devices but have reduced pressure and tensile ratings.
Slimline Circulation and Production Equipment
Tubing Size
Tubing Weight
Tubing ID
Tubing Drift
Standard Weight ID OD*
in. mm lb/ft kg/m in. mm in. mm in. mm in. mm
2 3/8 60.334.6 6.85 1.995 50.67 1.901 48.29
1.875 47.63 2.710 68.834.7 6.99 1.995 50.67 1.901 48.29
2 7/8 73.036.4 9.52 2.441 62.00 2.347 59.61
2.313 58.75 3.220 81.786.5 9.67 2.441 62.00 2.347 59.61
3 1/2 88.99.3 13.84 2.992 76.00 2.867 72.82 2.813 71.45 4.195 106.55
10.3 15.33 2.992 76.00 2.797 71.04 2.750 69.85 3.925 99.69
4 101.6 11 16.37 3.476 88.29 3.351 85.10 3.313 84.15 4.635 117.73
*ODs are based on 110 ksi minimum yield material.Ordering InformationSpecify: type (open up or down); tubing size, weight, grade, and thread; service environment (standard, %H2S, %CO2, amines); pressure and temperature requirements; dimensional constraints, if any; special material requirements.Part Number Prefix: 621ooSubsurface Flow Control Systems 8-33
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Zonemaster Injection System
The Zonemaster injection system provides the ability to control injection for any interval in a well. When run with isolation packers, the Zonemaster mandrels provide a positive and reliable method to shut off well segments. The Zonemaster system consists of two separate components. The ported landing nipple is generally run as part of the tubing string or liner and is used as the injection point into the production tubing. Zonemaster isolation sleeves can be installed or retrieved depending on whether the adjacent interval should be injected into or shut off.
Applications Selective injection Formation isolation Individual interval stimulation
Features No-go positive positioning system Large isolation sleeve ID Collet holddown system simplifies setting Nipple accepts RPT lock mandrels Installation capability with:
Wireline Coiled tubing Sucker rod Pump down system
Available with sour service or premium service version
OperationZonemaster sleeves with blank beans can be installed via slickline or pre-installed in the nipple before running in the well. This allows for pressure setting of hydraulic-set packers or for pressure testing the tubing string during well completion. The isolation sleeves can then be removed and replaced with sleeves with choke beans installed to control injection in each zone. If injection requirements change during the life of the well, the Zonemaster sleeves can be retrieved and bean sizes changed as needed. Each time the sleeves are retrieved, the seals can be redressed.
The isolation sleeves utilize a top no-go positive positioning system to provide for certainty during installation. They are generally installed using wireline in vertical wells and can be installed using either coiled tubing or sucker rods in horizontal wells.
Ported Zonemaster Nipple
No-GoShoulder
Locking Collet
ChangeableBean Insert
ZonemasterInjection System
HA
L330
608-34 Subsurface Flow Control Systems
-
Zonemaster Injection System
Tubing OD Sealbore
Bottom No-Go
Minimum ZonemasterMandrel ID (Bottom No-Go)
in. mm in. mm in. mm
1.900 48.26 1.500 38.10 1.447 36.75
2 1/16 52.39 1.625 41.28 1.572 38.35
2 3/8 60.331.812 46.02 1.750 44.68
1.875 47.63 1.822 46.28
2 7/8 73.032.250 57.15 2.197 55.80
2.312 58.70 2.259 57.40
3 1/2 88.92.750 69.85 2.697 68.50
2.812 71.40 2.759 70.08
4 101.63.125 79.40 3.072 78.00
3.312 84.10 3.260 82.80
4 1/2 114.30
3.688 93.70 3.625 92.10
3.750 95.30 3.700 94.00
3.812 96.90 3.759 95.50
5 127.00
4.000 101.60 3.910 99.30
4.125 104.80 4.035 102.50
4.312 109.50 4.223 107.30
5 1/2 139.704.560 115.80 4.472 113.60
4.750 120.60 4.660 118.40
6 5/8 168.205.250 133.40 5.150 130.80
5.500 139.70 5.400 137.20
7 177.805.750 146.10 5.625 142.90
5.900 149.86 5.800 147.32
7 5/8 193.60 6.125 155.60 6.000 152.40
Ordering InformationSpecify: lock type and size or part number, if known; service environment (standard, %H2S, %CO2, amines); temperature and pressure rating requirements; bean size.Part Number Prefix: 10TPIA, 11TPLA Zonemaster Injection System. For ordering information, specify bean size.Subsurface Flow Control Systems 8-35
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Velocity String Hangers
Many mature gas wells experience decreased production over time. This can lead to liquid loading which can eventually cause the well to cease production. Contributing factors are typically declining reservoir pressures which reduce gas velocity and increased water production. If gas velocity is not high enough to keep water entrained in the produced gas, the water will accumulate at the bottom of the well and the well may cease production.
An effective method to continue or restart production is to provide a smaller ID production string. The smaller ID increases the production velocity, preventing the well from loading with liquid. To do this, a means of suspending this smaller velocity string must be provided. Various types of velocity string hangers (VSH) have been used but these can prevent the use of the existing safety valve system but without incorporating a new safety valve system to protect the well.
Halliburton velocity string hangers are installed in an existing tubing retrievable safety valve (TRSV) or safety valve landing nipple (SVLN) to support the velocity string while using the existing hydraulic control system to operate a new subsurface safety valve. The new safety valve can be a wireline type safety valve or in some cases a tubing retrievable type. The VSH uses the nipple profile in the existing TRSV or SVLN to suspend the full weight of the velocity string. In addition, unique seals on the VSH pack off in the TRSV or SVLN sealbores preserve the integrity of the existing safety valve hydraulic system.
Application Wells with reduced production due
to liquid loading Wells that have ceased production
Features Available to fit most Halliburton
nipple profiles in SVLNs and TRSVs Can incorporate a wireline
retrievable or tubing retrievable safety valves
Unique seals provide pressure capability in damaged sealbores
Can carry loads up to 100,000 lb and more
Field proven
Benefits Adaptable to most landing nipple
profiles Maintains the use of a SSSV
operated by the original hydraulic control system
Can seal off in damaged sealbores Keyed type hanger allows high
tubing weights to be run Designs available to fit many well
architectures
HA
L387
63
HAL
3876
4
Velocity String Hangers8-36 Subsurface Flow Control Systems
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Tubing-Installed Plugging Equipment
DP1 Anvil Plugging System
The DP1 Anvil plugging system is a temporary tubing plugging device that allows the operator to perform multiple production tubing pressure tests prior to packer setting and on command provides full bore, through-tubing access without the need for well intervention. The Anvil plug incorporates a solid metal mechanical barrier removed by applying tubing pressure a predetermined number of times. No special surface equipment is required for operation and no debris results after actuation. The plug comes complete with a range of accessories to accommodate pre-fill, circulation, and secondary override facility.
ApplicationsThis tool is ideally suited for deep, highly deviated, or horizontal wells that would normally require coiled tubing to run plugs to set hydraulically activated equipment.
Features Solid metal barrier Depth limited only by ratings of hydrostatic chamber
housings Low pressure differentials to activate Feedback at surface of tool activation No waiting on plug to open No debris No non-standard surface equipment required Mechanical override Easily millable
Benefits Totally interventionless completion installation Can be used as a deep, downhole barrier for wireline
valve removal Produces no residual debris after activation Requires no special surface equipment to occupy
premium space on the rig floor
Cutting Metal Barrier
RunPosition
Well Open Full Bore
DP1 AnvilPlugging System
HAL
1220
4
DP1 Anvil Plugging System
Casing Size
Thread Maximum OD
Minimum ID
Pressure Rating
Size Weight Above Below
in. mm in. mm lb/ft kg/m in. mm in. mm psi bar psi bar
7 177.80
3 1/2 88.90 9.2 13.695.890 149.61
2.890 73.416,000 413.40 2,000 137.80
6.000 152.404 101.60 10 14.88 5.875 149.23
4 1/2 114.3012 17.86
5.890 149.61 3.875 98.4313 19.35Subsurface Flow Control Systems 8-37
9 5/8 244.485 1/2 139.70 17 25.28 7.650 194.31 4.625 117.48
6,000 413.40 2,000 137.806 5/8 168.28 32 47.62 8.312 211.12 5.750 146.05
Part Number Prefix: P.208DP1
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LA0 Liquid Spring-Actuated Anvil Plugging System
The LA0 liquid spring-actuated Anvil plugging system is a pressure cycle-operated device that allows the operator to perform tubing tests or set hydraulically activated tools and then have full tubing bore ID without wireline or coiled tubing intervention. The operation of the liquid spring device is carried out by a ratchet mechanism that travels each time pressure is applied for the predetermined number of cycles. When the predetermined number of pressure cycles has been applied, communication from the tubing to the control line is opened, allowing pressure to activate the Anvil plugging system.
ApplicationsThis tool is ideally suited for deep, highly deviated, or horizontal wells, which would normally require coiled tubing to run plugs for setting hydraulically activated equipment and where it is necessary to apply a number of tubing pressure tests before activation of hydraulically operated downhole tools.
Features Insensitive to changes in annulus
pressure Control fluid sealed within
actuation mechanism Solid metal barrier Surface indication of successful tool
activation No waiting on plug to open No debris Circulating sub Mechanical override Easily millable
Benefits Control fluid in the actuation
mechanism is sealed and therefore protected from contamination.
Unlike nitrogen pre-charged systems, the liquid spring mechanism eliminates well-specific setup and enhances long-term suspension capability.
Fluid used to communicate with the hydraulically activated device is carried in with the liquid spring module and therefore remains separate from the tubing fluid at all times, reducing the chance of control line blockages.
Prior to activating the release mechanism, a solid metal plate is in place to form a downhole barrier that satisfies most operators' plugging policy.
Sudden pressure drop at the device at activation will be detectable at surface.
The Anvil plug completely opens at the time of actuation. Controlled metallurgical and dimensional properties help ensure consistent and reliable full opening.
After activation, the Anvil plug produces no residual debris to potentially cause problems during subsequent operations.
To allow the tubing to self-fill while running, a circulating sub or fill up sub can be run in conjunction with the Anvil plug.
In the event the plug does not activate normally, it can be mechanically overridden using a dedicated tool run on wireline or coiled tubing.
The Anvil plug can also be milled with no rotating parts and only the metal plate to be removed.
Part Number Prefix: P.208LA0
LA0 Liquid Spring-ActuatedAnvilPlugging System
HA
L124
968-38 Subsurface Flow Control Systems
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LS0 Liquid Spring Actuation DeviceThe LS0 liquid spring actuation device is a pressure cycle-operated, self-contained tool used to initiate any hydraulically activated downhole device. The tool allows setting of equipment after the application of a predetermined number of pressure cycles. The operation of the tool is carried out by a ratchet mechanism that travels each time pressure is applied. When the predetermined number of pressure cycles have been applied, communication from the tubing to the control line is opened, allowing pressure to reach the target device.
ApplicationsThe liquid spring actuation device is used when it is necessary to apply a number of tubing pressure tests before activation of hydraulically operated downhole tools.
Features No atmospheric chamber or nitrogen-charged chamber
to limit time to actuation Actuation system is unaffected by changes in pressure in
the lower annulus Control fluid in the actuation mechanism is sealed and
therefore protected from contamination
Benefits Total interventionless actuation of hydraulically
operated tools. Unlike similar actuation devices, the liquid spring is not
affected by changes in pressure in the lower annulus. Unlike nitrogen pre-charged systems, the liquid spring
mechanism eliminates well-specific setup and enhances long term suspension capability.
Fluid used to communicate with the hydraulically activated device is carried within the liquid spring module and therefore remains separate from the tubing fluid at all times, reducing the chance of control-line blockages.
Part Number Prefix: P.224LS0
LS0 Liquid SpringActuation Device
HAL
1249
5Subsurface Flow Control Systems 8-39
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Mirage Disappearing Plug
The Mirage disappearing plug is a plugging device designed to run as an integral part of the tubing. The plug can be used to set a hydraulic-set packer or to test the tubing string. It is activated by hydraulic pressure, eliminating the need to use wireline or coiled tubing to run and retrieve the plugging device. Once the plug has been expended, the plug material will dissolve and disintegrate leaving full tubing ID through the plug. A fill sub is run above the plug when tubing autofill is required.
The Mirage plug is available in two versionsthe MPB multi-cycle version that allows six pressure cycles before expending and an MPR single-cycle type. The MPR Mirage plugs have no moving parts and use a rupture disk to select the expend pressure.
Applications Horizontal and high-angle wells
where slickline or CTU intervention after completion is undesirable
Setting production and isolation packers
Testing tubing Wells where retrievable plug use is
undesirable Rupture disk available from 500 to
16,000 psi in 500 psi increments
Features Multiple pressure-cycle capability
(MPB version) Automatic expend after last
pressure cycle Maximum particle size after
expending is less than 1 mm Helps reduce well risk; reduces
number of slickline or CTU trips in the hole; allows multiple pressure tests before expending
Benefits Testing tubing can be accomplished
without delay or problems associated with other plugging methods
Helps reduce completion costs by eliminating trips to install and retrieve plugging device
Water used to dissolve plug is carried with the tool
A diaphragm is run in the top of the tool to keep debris off plug matrix
Full nonrestrictive ID after expending plug
Maximum particle size after the plug material has disintegrated is 1 mm, eliminating any well debris
Can be mechanically activated by wireline as a backup
Mirage Disappearing Plug
(MPB)
MirageDisappearing Plug
(MPR)
HA
L330
61
HA
L882
7
Mirage Disappearing Plug
Nominal Size OD
ID (After Expend) Length
Pressure Rating Temperature RatingFrom Above From Below
in. mm in. mm in. mm in. mm psi kPa psi kPa F C
3 1/2 88.90 5.40 139.70 2.88 72.64 62.34 1583.31 7,500 51 710.67 2,500 17 236.89 220 104.4
4 1/2 114.30 5.88 152.40 3.88 98.04 62.52 1587.88 5,000 34 473.79 2,500 17 236.89 220 104.4
5 1/2 139.70 7.02 178.31 4.77 118.87 64.33 1633.86 5,000 34 473.79 2,500 17 236.89 220 104.4
7 177.80 8.26 209.80 6.08 154.43 67.07 1703.45 5,000 34 473.79 2,500 17 236.89 220 104.48-40 Subsurface Flow Control Systems
Part Number Prefix: 21MPB or 21MPR
-
Autofill SubThe autofill sub is run above the Mirage or Anvil plug when automatic filling of the tubing is required. The unique bladder design of the fill sub allows debris-laden annulus fluids to enter the tubing, while providing a reliable seal from the tubing side.
The tubing can be tested any number of times, provided the shear pressure of the lockout piston is not exceeded. Once the lockout pins are sheared resulting from tubing pressure, the piston drives the ports in the isolation sleeve past the o-rings, locking the fill sub out of service. A simple interference fit retains the fill sub in the locked-out condition.
Applications Used separately or in conjunction with Mirage and Anvil
plug systems Completions requiring automatic filling of tubing
Features Simple, robust design Prevents fluid flow from tubing to casing A mechanical override in the form of an isolation
sleeve can be used to permanently isolate the bladder if required
Benefits Autofill valve automatically fills the tubing from below,
eliminating manual fill from the surface. Rubber sealing sleeve provides positive sealing in debris-
laden fluid.
Ordering InformationSpecify: tubing size, weight, and grade; thread connection; material; service environment; pressure rating.Part Number Prefix: 21FS
Lockout ShearPins
Lockout Piston
Isolation Sleeve
Bladder Valve
Interference Bump
Autofill Sub
HA
L592
4Subsurface Flow Control Systems 8-41
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Fluid Loss Devices
Automatic Downhole Master Valve
The automatic downhole master valve (DHMV) is used in electric submersible pump (ESP) completions and eliminates the need for expensive well control fluids. This downhole pressure-operated fluid flow control valve is run with a packer, on-off tool, and wireline Otis XN lock.
The valve prevents fluid loss if the ESP shuts down and can be adjusted to hold up to 1,000 psi from below after it is latched closed. After the ESP is restarted, the DHMV will open when the hydrostatic pressure is reduced to the adjusted differential.
Applications ESP installations in which flow control without heavy kill
fluids is desired during remedial operations
Features Wireline or tubing-retrievable Holds pressure in both directions Variable opening and closing pressure adjustment
Benefits Eliminates the need for expensive well control fluids Prevents formation damage Automatic operationdoes not require control lines,
conductor cables, wireline operations, or tubing manipulation to operate
Ordering InformationSpecify: nipple size and type, special material requirements, service environment (standard, %H2S, %CO2, amines)Part Number Prefix: 14MV
Run-In Position
Open Position
Closed Position
HAL
61728-42 Subsurface Flow Control Systems
-
FS2 Fluid Loss Isolation Barrier Valve
For efficient asset management, Halliburtons FS2 fluid loss isolation barrier valve provides a reliable, interventionless solution for fluid loss control during well completion, eliminating potential formation damage.
The FS2 valve isolates the formation below the uppermost gravel pack packer before the upper completion has been installed and can be utilized in frac pack, gravel pack, and standalone screen applications. The valve provides a reliable means of:
Preventing fluid loss to formations after completing initial gravel pack operations
Isolating formations during up-hole operations throughout life of the well
Helping to reduce costs on subsea or deep wells through the use of interventionless technology
Use as a barrier in a well suspension system
The closure device is a proven, high-performance ball mechanism that provides a positive bi-directional seal in brine and oil-based mud environments. The debris-tolerant, non-translating ball design eliminates unnecessary movement within the mechanism during opening and closing operations, allowing operation in debris-laden environments.
Optimum FS2 valve placement is normally below the gravel pack or liner hanger assembly. Washpipe, located on the bottom of the service tool, is extended through the valve. A collet shifting tool is attached to the end of the washpipe, which on retrieval closes the valve, immediately isolating the formation and allowing inflow or positive pressure-testing above the ball. Remote actuation in the form of hydraulic pressure cycles is then used to open the valve after upper completion installation.
FS2 Fluid LossIsolation Barrier Valve
HA
L308
47Subsurface Flow Control Systems 8-43
-
Features and Benefits Initial valve closure achieved when washstring/collet is
retrieved through the valve. Bi-directional sealing mechanism provides a fully tested
downhole barrier. Unlike nitrogen pre-charged systems, the fluid spring
indexing mechanism eliminates well-specific setup and enhances long-term suspension capability.
One-time remote activation achieved by the application of pressure cycles, eliminating the need for well intervention.
Activation piston provides increased opening force (up to 200% increase over previous FS valve designs).
Improved fluid management helps ensure valve operation in debris.
Increased differential opening capability. Design provides unlimited mechanical opening/closing
of valve. Indexing system is unaffected by changes in hydrostatic pressure, making it suitable for use in wells with fluid loss.
Valve opens on pressure bleed down, minimizing the risk of surging the formation.
Full bore ID maximizes production and allows access to the formation.
Design incorporates enhanced debris exclusion features. Mechanical shifting profile incorporated within design. Sealed actuation mechanism helps prevent control
system contamination. Cycling mechanism isolated from debris in the wellbore.
Qualification TestingEach FS2 valve is subjected to extensive qualification testing during prototyping. In addition to rigorous discrete component level testing, a full valve
top related