24001 a a_sta_01 example of downhole completion equipment

EXAMPLE OF DOWNHOLE COMPLETION EQUIPMENT

Packer Systems

- Permanent packers

- Retrievable packers

Flow control systems:

- Sur-Set Flow Control System

- F and R Flow Control System

- Sliding Sleeves

Safety systems:

- Tubing Retrievable Safety Valves

- Wireline Retrievable Safety Valves

© 2011 IFP Training

24001_a_A_sta_01

Packer Systems

C o m p l e t i o n s a n d P r o d u c t i o n

ii

1

Material SelectionBaker Hughes’ equipment is offered in various material confi gurations

for a variety of well conditions. Baker Hughes employs leaders in the

fi eld of metallurgy and polymer chemistry to ensure superior material

recommendations are made to our customers.

For corrosive wells, Baker Hughes' corrosion metallurgists and polymer

scientists are available to provide expert material recommendations. To

provide the most cost-effective recommendations, the well environment

data form has been developed to aid in gathering the necessary well data.

The following alloys and groups of alloys are currently the most

common materials used for the construction of packers and

related equipment:

Standard, non-corrosive service–low alloy steels (e.g. 4140) with

mechanical properties compatible with API P110 tubulars

Non-corrosive service containing H2S–low alloy steels (e.g. NACE

MR0175 compliant 4140) with mechanical properties compatible

with API L80 tubulars

Corrosive CO2 service with little or no H

2S–Martensitic and PH

stainless steels (e.g. 9Cr, 13Cr, 17-4PH, alloy 450, Super 13Cr) with

mechanical properties that vary from 80 ksi to 110 ksi minimum yield

strength; the selection of the specific corrosion-resistant alloy(s)

depends on the environment (pH, chlorides, temperature, H2S, etc.,)

and strength requirements

Severely corrosive CO2 and H

2S–nickel alloys such as 825, 925 and

718 at strength levels of 110 ksi minimum yield strength and higher

Severely corrosive CO2, H

2S and free sulfur–nickel alloys such as

625 Plus, 725 and, less frequently, C-276 at strength levels of 120 ksi

minimum yield strength and higher

For equipment required to perform a temporary function and then

allow quick removal by drilling or milling, an additional group of

materials is used:

Cast iron

Reinforced polymer-based composites

Besides the more common materials, Baker Hughes manufactures

packers and related equipment from other materials when raw material

availability, quantities, delivery schedules, etc., permit. Example alloys

include 316L austenitic, 22 Cr duplex, 25 Cr duplex, 25 Cr super duplex,

alloy 20Cb3, 28 Cr super austenitic, K-500 Monel, alloy 2025, alloy

2535, alloy 2550, alloy G-3 and others.

M a t e r i a l S e l e c t i o n

2

Elastomer SelectionIdeally, seal materials have high strength and resiliency, and remain

unaffected by thermal or chemical environments. However, there is no

single material that offers adequate levels of these characteristics for

all downhole applications. Effective sealing in downhole environments

often requires a combination of materials to form a seal system.

Several sets of identical seal systems can be combined to create a seal

stack with redundant seals. Choosing the optimum seal stack requires

knowledge of the application and downhole conditions.

Bonded seals are used in applications that require seals to be

repeatedly inserted into and removed from the sealbore while holding

differential pressure. This action is known as unloading. Bonded seals

are composed of high-strength elastomers, usually nitrile or Viton™,

which have limited operational capabilities.

Applications beyond the capabilities of bonded seals require more

inert elastomers. Generally, these premium elastomeric materials

have lower resistance to extrusion than nitrile or Viton* and require

the protection of a containment system to prevent failures.

Sealing systems using contained premium elastomers are offered as

a chevron- or v-ring-type seal stack.

V-ring seal stacks can tolerate movement while holding high

pressures, providing they are always contained within a sealbore.

Therefore, while holding differential pressure, they must remain in the

sealbore. Selecting the most appropriate seal stack can be simplifi ed

by referring to the seal stack service matrix shown below.

Selecting the most appropriate seal stack can be simplifi ed by referring

to the seal stack service matrix shown below. For additional information

regarding packer to tubing seal systems, ask your Baker Hughes

representative for a copy of the following:

“What to Consider When Designing Downhole Seals,” reprinted from

World Oil magazine

“Factors and Conditions Which Cause Seal Assemblies Used in

Downhole Environments to Get Stuck,” Engineering Tech Data™

Paper Number CS007

“Metal-to-Metal Sealing in Hostile Environment Completion

Equipment,” Engineering Tech Data Paper Number CS002

Seal Type

Pressure DifferentialTemp. Range

Environmental Compatibility ✸

Non-Unloading Unloading

H2S

Oil Base Completion

Light Brine Completion

BromideCompletion

High pH Completion

pH >10

Amine InhibitorsPSI MPa PSI MPa °F °C

NitrileChevron

10,000 68.9 NO NO 32-300 0-149 NO OK OK CaBr2/NaBr

2

OK to 250°F

ZnBr2

NO

NO pH >10

OK to 250°F pH <10

OK to 200°F

70 Hard Nitrile Bonded

5,000 34.4 5,000 34.4 32-200 0-93 NO OK OK

90 Hard Nitrile Bonded

10,000 68.9 5,000 34.4 32-300 0-149 NO OK OK

95 Hard Viton Bonded

10,000 68.9 5,000 34.4 32-250 0-121 5% OK OK OK NOOK

to 200°F

HN-Ryte™ 10,000 68.9 NO NO 32-350 0-177 2% OK OK

CaBr2/NaBr

2

OK to 250°F

ZnBr2

NO

OK OK

V-Ryte™ 15,000 103.3 NO NO32-300 0-149 15%

OK OK OK NOOK

to 200°F32-400 0-204 5%

A-Ryte™ 15,000 103.3 NO NO80-300 27-149 20%

NO OK OK OK OK80-450 27-232 7%

A-HEET™ 15,000 103.3 NO NO80-300 27-149 20%

NO OK OK OK OK80-450 27-232 15%

K-Ryte™ 15,000 103.3 NO NO 100-450 38-232 7% OK OK OK OK OK

K-HEET™ 15,000 103.3 NO NO 100-550 38-288 ■ OK OK OK OK OK

Seal-Ryte™ 15,000 103.3 NO NO 40-450 4-232 7% OK OK OK OK OK

Seal-HEET™ 15,000 103.3 NO NO 40-450 4-232 ■ OK OK OK OK OK

R-Ryte™ 10,000 68.9 NO NO 325-450 ● 163-232 7% OK OK OK OK OK

Molyglass 10,000 68.9 NO NO 125-300 52-149 15% OK OK OK OK OK

SELECTION GUIDEPacker-to-Tubing Packing Unit

✸ Explosive decompression is chemical and mechanical in nature related to solubility of gas in elastomer and strength of that elastomer. Under rapid decompression,

the elastomeric seals in these units may be susceptible to explosive decompression, however, explosive decompression does not occur while seals are in service.● Refer to Baker Hughes' packer systems technical manual, Unit No. 8218-3, for complete temperature range information.■ There are no known H

2S limitations below 500°F (260°C).

M a t e r i a l S e l e c t i o n

*Viton is a registered trademark of Dupont.

32

Product ApplicationProduct

Family No.Single Bore Alternate Bore

Setting Method

No Mandrel Movement

Wireline/Hydraulic

Setting ToolHydraulic Hydrostatic

Signature D H43210 and H43211 x x

D, DBH41505, H41525

and H41513x x

DA, DABH41514, H41508,

H41526 and H41503x x

F-1, FB-1H41306,H41308

andH41340x x

FA, FA-1, FAB, FAB-1

H41309, H41307, H41309 and H41341

x x

FB-3 H41350 x x

SB-3 H40906 x x

SAB-3, SABL-3

H40907, H40908

x x

SABL-4 H40921 x x

SB-3H H40932 x x

Granite H40934 x x x x

PERMANENT PACKER SELECTION

P e r m a n e n t P a c k e r S y s t e m s

34

D and DB Retainer Production PackersProduct Family Nos. H41505, H41525 and H41513

APPLICATION

Baker Hughes’ high-performance and versatile D™ and DB™ retainer

production packers are considered industry standards among permanent

production packers.

DB Retainer Production Packer

with B Guide for Mill-Out Extension

Product Family No. H41505

Advantages

Proven reliability

Slim-line design

Solid construction enables 50% faster run-in without fear

of impact damage or premature setting, making significant

rig-time savings possible

Two opposed sets of full-circle, full-strength slips ensure

packer will remain properly set

Packing element resists swab-off and packs off securely

when packer is set

Unique interlocking, expandable, metal backup rings

contact casing, creating a positive barrier to packing

element extrusion

Aflas packing element available in select casing-

weight ranges

Additional InformationThe D and DB retainer production packers are also frequently used as

a permanent squeeze or testing packer or as a permanent or temporary

bridge plug.


35

SPECIFICATION GUIDED™ and DB™ Retainer Production Packer, Product Family Nos. H41505, H41525 and H41513

Casing Packer ✸ Seal Assembly ●

OD Weight ■Size s

Max ODDiameter of Sealing Bore Size

Min Bore Thru Seals ‡

in. mm lb/ft in. mm in. mm in. mm

8-5/8 219.0

36–49126–38

7.125 180.93.875 98.4 120–38 2.468 62.6

126–40 4.000 101.6 80–40 2.985 75.8

24–36128–38

7.500 190.53.875 98.4 120–38 2.468 62.6

128–40 4.000 101.6 80–40 2.985 75.8

9-5/8 244.4 36–53.5

194–47

8.125 206.3

4.750 120.6192–47 3.875 98.4190–47 3.000 76.2191–47 2.500 63.5

194–40 4.000 101.6 80–40 2.985 75.8

194–32 3.250 82.560/80–32 2.406 61.161/81–32 1.990 50.5

9-7/8 250.1 62.8

194–47

8.125 206.3

4.750 120.6192–47 3.875 98.4190–47 3.000 76.2191–47 2.500 63.5

194–40 4.000 101.6 80–40 2.985 75.8

194–32 3.250 82.560/80–32 2.406 61.161/81–32 1.990 50.5

10-3/4 ⊕ ∆

273.0

60.7–79.2

212–47

9.000 228.6

4.750 120.6190–47

191–47 or192–47

3.000 76.22.500 63.5

3.875 98.4

212–32 3.250 82.580–32 or81–32

2.406 61.1

1.990 50.5

32.75–60.7

214–47

9.437 239.7

4.750 120.6190–47

191–47 or192–47

3.000 76.22.500 63.5

3.875 98.4

214–32 3.250 82.580–32 or81–32

2.406 61.1

1.990 50.5

11-3/4 ⊕ ∆

298.4 42–60

220–47

10.437 265.1

4.750 120.6190–47

191–47 or192–47

3.000 76.22.500 63.5

3.875 98.4

220–32 3.250 82.580–32 or81–32

2.406 61.1

1.990 50.5

13-3/8 ⊕ ∆

339.7

61–102

230–60

11.562 293.6

6.000 152.4 190–60 4.875 123.8

230–47 4.750 120.6190–47

191–47 or192–47

3.000 76.22.500 63.5

3.875 98.4

230–32 3.250 82.580–32 or81–32

2.406 61.1

1.990 50.5

48–72

240–60

12.000 304.8

6.000 152.4 190–60 4.875 123.8

240–47 4.750 120.6190–47

191–47 or192–47

3.000 76.22.500 63.5

3.875 98.4

240–32 3.250 82.580–32 or81–32

2.406 61.1

Casing Packer ✸ Seal Assembly ●

OD Weight ■Size ▲

Max ODDiameter of Sealing Bore Size



4-1/2 ◆

114.3

17.0–18.9 19–25 3.475 88.22.500 63.5 20–25 1.865 47.3

15.1–17.0 21–25 3.562 90.4

11.6–15.1 22–19 3.593 91.2 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

10.5–13.5 23–26 3.750 95.2 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

9.5–11.6 24–19 3.812 96.8 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

5 127.0

18–21.4

32–26

3.968 100.7

2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

32–25 2.500 63.5 20–25 1.865 47.3

32–19 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

11.5–1334–26

4.250 107.92.688 68.2

40/80–26 1.968 49.9

41/81–26 1.750 44.4

34–25 2.500 63.5 20–25 1.865 47.3

5-1/2 139.7

23–26.8 34–19 4.250 107.9 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

20–23

42–26

4.328 109.9

2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

42–19 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

14–17

44–26

4.500 114.3

2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

44–19 1.968 49.921–19 1.312 33.3

20/40–19 .984 24.9

6-5/8 168.2

24–32 81–32 5.350 135.8

3.250 82.5

60/80–32 2.406 61.1

61/81–32 1.990 50.5

20–32

82–32

5.468 138.8

60/80–32 2.406 61.1

61/81–32 1.990 50.5

82–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

20

84–32

5.687 144.4

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

84–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

7 177.8

53.60–57.10 64–30 4.937 125.40 3.000 76.242/62–30 2.375 60.3

40/60–30 1.970 50.0

38–46.4 81–32 5.350 135.8

3.250 82.5

60/80–32 2.406 61.1

61/81–32 1.990 50.5

32–42.7

82–32

5.468 138.8

60/80–32 2.406 61.1

61/81–32 1.990 50.5

82–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

23–32

84–32

5.687 144.4

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

84–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

20–29 86–32 5.875 149.2 3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

17–20

88–32

6.187 157.1

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

88–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

7-5/8 193.6

45.3–51.2 86–32 5.875 149.2 3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

33.7–39

88–32

6.187 157.1

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

88–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

24–33.7

92–32

6.375 161.9

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

92–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

7-3/4 196.9 46.1–48.6

88–32

6.187 157.1

3.250 82.560/80–32 2.406 61.1

61/81–32 1.990 50.5

88–26 2.688 68.240/80–26 1.968 49.9

41/81–26 1.750 44.4

✸ For information on packer accessory sizes not found in the specification guide,

refer to Baker Hughes' packer systems technical manual or contact your

Baker Hughes representative● Tubing-seal assemblies, tubing-seal and spacer nipples■ Includes some drillpipe and line-pipe weights▲ When proposed for use in other than the casing weight shown, contact your

Baker Hughes representative‡ Minimum bore applicable to standard G, E and K seal assemblies only; not

applicable to L, M and N seal assemblies with K-RYTE and R-RYTE seals which may

have reduced IDs

◆ In 4-1/2-in. (114.3 mm) OD 11.6 lb/ft and heavier casing, the size 20 wireline

pressure setting assembly is too large and the size 10 assembly must be used.

In 4-1/2-in. (114.3 mm) 9.5 and 10.5 lb/ft casing, either the size 10 or 20 assembly

may be used.⊕ Packers for sizes 10-3/4-in. (273.0 mm) and larger casing should be run and set

on a hydraulic setting tool. Product Family Nos. H41370, H41371, H741372, H41570,

H41572, H41574 or H43712∆ Packers for these sizes of casing are also available with other size seal bores on

special order.


36

DA and DAB Retainer Production PackersProduct Family Nos. H41514, H41508, H41526 and H41503

APPLICATION

The DA™ retainer production packer provides all the versatility and

high-performance characteristics of the D but with a larger sealing

bore at the upper end. It’s frequently used in complex multiple-string

completions or when large tubing is run and it is necessary to maintain

clearance through the packer. The DA is also used when the

seal nipple is required to be compatible with the tubing ID.

DAB Retainer Production Packer



Advantages

Slim-line design







when packer is set



element extrusion

Typically has increased rating over similar size D or DB

packer, when accessory seals are landed in alternate bore

Aflas packing element is available in select casing

weight ranges

Additional InformationThe DAB™ packer’s threaded (box or pin) bottom guide differentiates

it from the DA. This DAB guide can be specifi ed for acceptance of a

mill-out extension, seal-bore extension or virtually any component

desired. DA packers and their guides can also be ordered separately

by those interested in maximum inventory fl exibility.

AccessoriesPacker plugging devices; packer sealing systems; packer extensions;

parallel fl ow systems


37

SPECIFICATION GUIDEDA™ Retainer Production Packer, Product Family Nos. H41503, H41508, H41514 and H41526

Casing Packer ▲ Packer Sealing Bore

Upper Lower ▼

OD Weight ● Max ODSize ■

Seal Bore Seal Assembly

Size ◆

Min Bore Thru Seals ∆ Seal Bore ‡ Seal

Assembly Size ◆

Min Bore Thru Seals ∆

in. mm lb/ft in. mm in. mm in. mm in. mm in. mm

4-1/2✸ 114.311.6–15.1 3.593 91.2 22DA25

2.500 63.5 20DA25 1.875 47.6 1.968 49.921–19

or20/40–19

1.312or

0.984

33.3or

24.99.5–11.6 3.812 96.8 24DA25

5-1/2 139.720–23 4.328 109.9 42DA32

3.250 82.540DA/SA32

2.500 63.5 2.688 68.2 40/80–26 1.968 49.914–17 4.500 114.3 44DA32

6-5/8 168.220–32 5.468 138.8 82DA40

4.000 101.680DA/SA40

3.250 82.5 3.250 82.560/80–32

or61/81–32

2.406 or

1.990

61.1or

50.520 5.687 144.4 84DA40

7 177.8

53.6–57.1 4.937 125.4 64DA36 3.625 92.060DA36

or61DA36

3.000or

2.875

76.2or

73.03.000 76.2

42/62–30or

40/60–30

2.375or

1.968

60.3or

49.9

32–42.7 5.468 138.8 82DA40

4.000 101.680DA/SA40

3.250 82.5 3.250 82.560/80–32

or61/81–32

2.406or

1.990

61.1or

50.523–32 5.687 144.4 84DA40

17–20 6.187 157.1 88DA40

7-5/8 193.633.7–39 6.187 157.1 88DA40

4.000 101.680DA/SA40

3.250 82.5 3.250 82.560/80–32

or61/81–32

2.406or

1.990

61.1or

50.524–33.7 6.375 161.9 92DA40

7-3/4 196.9 46.1–48.6 6.187 157.1 88DA40 4.000 101.680DA/SA40

3.250 82.5 3.250 82.560/80–32

or61/81–32

2.406or

1.990

61.1or

50.5

8-5/8 219.036–49 7.125 180.9 126DA47

4.750 120.682FA47 ⊕

or81FA47

4.000or

3.875

101.6or

98.43.875 98.4 120–38 2.468 82.5

24–36 7.500 190.5 128DA47

9-5/8 244.4 36–53.5 8.125 206.3 194DA60 6.000 152.4 190DA60 4.875 123.8 4.750 120.6

192–47 3.875 98.4

190–47 3.000 76.2

191–47 2.500 63.5

9-7/8 250.1 62.8 8.125 206.3 194DA60 6.000 152.4 190DA60 4.875 123.8 4.750 120.6

192–47 3.875 98.4

190–47 3.000 76.2

191–47 2.500 63.5

✸ In 4-1/2-in. (114.3 mm) OD 11.6 lb and heavier casing the size 20 wireline pressure setting assembly is too large and the size 10 WLPSA MUST BE USED.

In 4-1/2-in. (114.3 mm) OD 9.5 and 10.5 casing, either the size 10 or 20 WLPSA may be used.● Includes some drillpipe and line pipe weights■ When proposed for us in other than the casing-weight range shown contact your Baker Hughes representative▲ For information on packer or accessory sizes not found in this specification guide refer to Baker Hughes' packer systems technical manual or your

Baker Hughes representative‡ The maximum OD (including tolerance) of any part run through a production packer should be at least 1/16-in. (1.59 mm) smaller than the minimum bore through

the packer body. This may occassionally require that the coupling ODs be turned down.

◆ Tubing seal assemblies, tubing seal and spacer nipples▼ Lower bore can be utilized as a seal bore. HOWEVER, strict dimensional analysis for compatibility of packer bore/seal accessory configuration is required to assure desired

performance. Compatibility is based on lower bore/seal nipple diametrical dimensions only. Final seating position of locating shoulder will vary between packer sizes. Anchor

mechanisms are not recommended.⊕ Accessory size 82FA47 replaces both previous sizes 80FA47 and 120DA47∆ ID listed is for commonly used G-22™, E-22™ and K-22™ seal assemblies.


Afl as is a registered trademark of Asahi Glass of Japan. 39

F-1 and FB-1 Retainer Production PackersProduct Family Nos. H41306, H41308 and H41340

APPLICATION

Baker Hughes F-1™ and FB-1™ retainer production packers are the big-bore versions of the high-performing

D retainer production packer. They feature the largest bore through any drillable packer. In the FB-1 version, a

mill-out extension, seal-bore extension or other component can be run below the packer.

FB-1 Retainer Production Packer



Advantages

Slim-line design

Solid construction enables 50% faster run in without fear of impact damage or premature setting,

making significant rig-time savings possible

Two opposed sets of full-circle, full-strength slips ensure packer will remain properly set

Packing element resists swab off and packs off securely when packer is set

Unique interlocking, expandable, metal backup rings contact casing, creating a positive barrier

to packing element extrusion

Aflas packing element is available in select casing-weight ranges

Additional InformationF-1 guides can also be ordered separately by those interested in maximum inventory fl exibility.

Additional InformationPacker plugging devices; packer sealing systems; packer extensions

SPECIFICATION GUIDECasing Packer ▲ Seal Assembly ●

OD Weight ✸Size ‡

Max OD Seal Bore ◆Size

Min Bore Thru Seals ⊕


4-1/2 ■ 114.311.6–15.1 22–23 3.593 91.2

2.390 60.720–23 1.703 43.2

9.5–11.6 24–23 3.718 94.4 21–23 1.807 45.9

5 127.024.1 22–23 3.593 91.2

2.390 60.720–23 1.703 43.2

21.4–24.1 24–23 3.718 94.4 21–23 1.807 45.9

5-1/2 139.720–23 43–30 4.437 112.7

3.000 76.242/62–30

or40/60–30

2.375or

1.970

60.3or

50.014–17 45–30 4.562 115.8

14 47–30 4.750 120.6

6-5/8 168.220-24 83–40 5.687 144.4

4.000 101.6 80–40 2.985 75.817 85–40 5.875 149.2

7 177.8

32–38 83–40 5.687 144.4

4.000 101.6 80–40 2.985 75.826–32 85–40 5.875 149.220–23 87–40 6.000 152.417–20 89–40 ▼ 6.250 158.7

7-5/8 193.633.7–42.8 89–40 ▼ 6.250 158.7

4.000 101.6 80–40 2.985 75.824–33.7 91–40 ▼ 6.500 165.1

7-3/4 196.9 46.1–48.6 89–40 6.250 158.7 4.000 101.6 80–40 2.985 75.8

9-5/8 244.440–58.4 192–60 8.218 208.4

6.000 152.4 190–60 4.875 123.836–47 194–60 8.438 214.3

9-7/8 250.1 62.8 192–60 8.218 208.4 6.000 152.4 190–60 4.875 123.813-3/8 339.7 61–72 240–93 11.625 295.2 9.375 238.1 240–93 7.995 203.0

✸ Includes some drillpipe and line pipe weights● Tubing-seal assemblies, tubing seal and spacer nipples■ In 4-1/2-in. (114.3 mm) OD 11.6 lb and heavier casing the size 20 wireline pressure-setting assembly is too large and the size 10 WLPSA MUST BE USED. In 4-1/2-in.

(114.3 mm) OD 9.5 and 10.5 lb casing, either the size 10 or 20 WLPSA may be used.▲ For information on packer or accessory sizes not found in this specification guide refer to Baker Hughes' packer systems technical manual or your

Baker Hughes representative‡ When proposed for use in other than the casing-weight range shown contact your Baker Hughes representative

◆ The maximum OD (including tolerance) of any part run through a production packer should be at least 1/16-in. (1.59 mm) smaller than the minimum bore through

the packer body. This may occasionally require that the coupling ODs be turned down.▼ Size 89–40 and 91–40 packers can be ordered with a lower pressure rating and an enlarged 4.400-in. (111.8 mm) inch seal-bore diameter.⊕ ID listed is for commonly used G-22™ E-22™ seal assemblies.


40

FA, FAB, FA-1 and FAB-1 Retainer Production PackersProduct Family Nos. H41307, H41309 and H41341

APPLICATION

The FA-1™ retainer production packer is the big-bore version of the

widely used Baker Hughes DA packer. The FA-1 features an extended

upper body that accommodates a larger upper sealbore. This results in

the largest possible ID through the accessory and the packer. The FA-1

is available in smaller sizes (see specifi cation guide), such as the FA™,

which has the body-lock ring and setting sleeve on the packer’s

lower end.

The FAB™ and the FAB-1™ retainer production packers provide a

threaded bottom guide for attachment of a mill-out extension,

seal-bore extension or other component below the packer.

FA-1 Retainer Production Packer



Advantages

Slim-line design







when packer is set



element extrusion

Largest possible bore through packer with accessory seals

in alternate bore

Typically has rating greater than similar size F-1 or FB-1

when accessory seals are landed in alternate bore

Aflas packing element is available in select casing

weight ranges

Additional InformationFA-1 packers and their guides can also be ordered separately by those

interested in maximum inventory fl exibility.

Additional InformationPacker plugging devices; packer sealing systems; packer extensions;

parallel fl ow systems

Afl as is a registered trademark of Asahi Glass of Japan.


41

SPECIFICATION GUIDESFA™ and FAB™ Retainer Production Packer, Product Family Nos. H41302 and H41305

✸ Includes some drillpipe and line-pipe weights● When proposed for use in other than the casing-weight range shown contact your Baker Hughes representative■ For information on packer or accessory sizes not found in this specification guide refer to Baker Hughes' packer systems technical manual or your

Baker Hughes representative‡ Does not contain a left-hand thread unless ordered.

◆ The maximum OD (including tolerance) of any part run through a production packer should be at least 1/16-in. (1.59 mm) smaller than the minimum bore through the

packer body. This may occasionally require that the coupling ODs be turned down.▼ Tubing seal assemblies, tubing seal and spacer nipples⊕ Lower bore can be used as a seal bore, HOWEVER, strict dimensional analysis for compatibility of packer bore/sealing accessory configuration is required to assure desire

performance. Compatibility is based on lower bore/seal nipple diametrical dimensions only. Final seating position of locating shoulder will very between packer sizes. Anchor

mechanisms are not recommended.∆ In 4-1/2 in. (114.3 mm) OD 11.6 lb and heavier casing the size 20 wireline pressure setting assembly is too large and the size 10 assembly must be used. In 4-1/2-in.

(114.3 mm) OD 9.5 and 10.5 lb casing, either the size 10 or 20 assembly may be used.✧ ID listed is for commonly used G-22™, E-22™ or K-22™ seal assemblies.

Casing Packer ■ Packer Sealing Bore

OD Weight ✸Size ●

Max ODUpper Lower ⊕

Seal BoreSeal

Assembly Size ▼

Min Bore Thru Seals ✧

Seal Bore ◆ Accessory Size ▼


in. mm lb/ft in. mm in. mm in. mm in. mm in. mm2-3/8 60.3 4.6–5.1 023FA12 1.750 44.4 1.250 31.7 020FA12 0.750 19.0 - - - - -2-7/8 73.0 6.4–6.5 028FA18 2.220 56.3 1.875 47.6 020FA18 1.250 31.7 1.250 31.7 020FA12 0.750 19.0

3-1/2 88.912.7–13.3 033FA20 2.562 65.0

2.062 52.3 030FA20 1.421 34.9 1.531 28.8 030FA15 1.000 25.47.7–9.3 035FA20 2.765 70.2

4 101.612.6–14 13FA25 ‡ 3.062 77.7

2.500 63.5 11FA25 1.875 47.6 1.875 47.6 11–18 1.000 25.49.5–11.6 15FA25 ‡ 3.187 80.9

4-1/2 ∆ 114.311.6–15.1 22FA30 3.609 91.6

3.000 76.2 20FA/SA30 2.390 60.7 2.390 60.721–23

or20–23

1.807 or

1.703

45.9 or

43.29.5–11.6 24FA30 3.718 94.4

5 127.0 See FA-1 Specifi cation Guide

5-1/2 139.7 20–23.8 43FA36 4.437 112.7 3.625 92.040FA/SA36

or60DA36

3.000 76.2 3.000 76.242/62–30 2.375 60.3

40/60–30 1.970 50.0

See FA-1™ Specification Guide for sizes 5-in. (127.0 mm) 15–21 lb/ft and larger, ID casing.

FA-1™ and FAB-1™ Retainer Production Packer, Product Family Nos. H41307 and H41309

Casing Packer ■ Packer Sealing Bore

OD Weight ✸Size

Max ODUpper Lower ⊕


Size ▼


Seal Bore ◆ Accessory Size ▼



5 127.0 15–20.8 32FA30 3.968 100.7 3.000 76.2 20FA/SA30 2.390 60.7 2.500 63.5 20–25 1.865 47.3

5-1/2 139.7

32.3–35.3 32FA30 3.968 100.7 3.000 76.2 20FA/SA30 2.390 60.7 2.500 63.5 20–25 1.865 47.3

14–17 45FA36 4.562 115.8

3.625 92.0

40FA/SA36or

60DA36or

41FA/SA36or

61DA36

3.000 76.2

3.000 76.242/62–30

or40/60

2.375or

1.970

60.3or

50.013–14 47FA36 4.750 120.6 2.875 73.0

6-5/8 168.220–24 83FA47 5.687 144.4

4.750 120.682FA47

or81FA47

4.000or

3.875

101.6or

98.44.000 101.6 80–40 2.985 75.8

17 85FA47 5.875 149.2

7 177.8

32–38 83FA47 5.687 144.4

4.750 120.682FA47

or81FA47

4.000or

3.875

101.6or

98.44.000 101.6 80–40 2.985 75.826–32 85FA47 5.875 149.2

20–23 87FA47 6.000 152.4

17–20 89FA52 6.250 158.7 5.250 133.3 80FA/SA52 4.462 113.3 4.400 111.7 80–44 3.484 88.4

7-5/8 193.633.7–42.8 89FA52 6.250 158.7

5.250 133.3 80FA/SA52 4.462 113.3 4.400 111.7 80–44 3.484 88.424–33.7 91FA52 6.500 165.1

7-3/4 196.9 45.1–48.6 89FA52 6.250 158.7 5.250 133.3 80FA/SA52 4.462 113.3 4.400 111.7 80–44 3.484 88.4

9-5/8 244.4 36–47 194FA75 8.438 214.3 7.500 190.5 190FA75 6.031 153.1 6.000 152.4 190–60 4.875 123.8

10-3/4 273.0 60.7–79.2 212FA75 9.000 228.6 7.500 190.5 190FA75 6.031 153.1 6.000 152.4 190–60 4.875 123.8

13-3/8 339.7 68-85 240FA1025 11.975 301.6 10.250 260.3 190FA1025 - - 8.625 219.0Seals Not Available

- -

See FA™ specification guide for sizes 4-1/2 in. (114.3 mm) and smaller.


44

SB-3 Hydraulic-Set Retainer Production PackerProduct Family No. H40906

APPLICATION

Baker Hughes SB-3™ hydraulic-set retainer production packer is a one-trip,

completion packer, that is a hydraulically set version of the DB™ packer.

Advantages

Slim-line design

Solid construction enables faster run-in without fear of impact damage or

premature setting, making significant rig-time savings possible

Two opposed sets of full-circle, full-strength slips ensure packer will

remain properly set

Packing element resists swab-off and packs off securely when packer is set

Unique interlocking, expandable, metal backup rings contact casing, creating

a positive barrier to packing element extrusion

Flanged-up completions for safety

Setting requires no rotation or reciprocation, eliminating spacing out or

landing problems

All O-rings supported by backup rings to improve long-term seal integrity

SB-3 Packers designed for pressure differential up to 10,000 psi

All alloy materials within packer are suitable for H2S service

Seal assembly, on which packer is run, serves as a seal nipple after packer

is set, providing single-run completion

B Guide, furnished as standard equipment, enables mill-out extension or other

component to be attached below the packer

Test fixtures permit high-pressure surface testing of O-ring seals and

tailpipe connections

SB-3 Hydraulic-Set Retainer

Production Packer


Additional InformationA guide for seal-bore extension can be furnished if required. The packer is also available

in S-3™ (box x pin) confi guration by special order

Packer AccessoriesSealing systems; expansion joints; plugging devices; packer bore receptacles;

SB-3 retainer production packer with B™ guide for mill-out extension,

Product Family No. H40906 (Nitrile) and Product Family No. H40924 (Afl as)


45

SPECIFICATION GUIDESB-3™ Hydraulic-Set Retainer Production Packer, Product Family No. H40906

✸ Includes some drillpipe and line-pipe weights● When proposed for use in other than the casing-weight range shown contact your Baker Hughes representative.■ For information on packer or accessory sizes not found in this specification guide refer to Baker Hughes' packer systems technical manual or your

Baker Hughes representative.‡ ID listed is for commonly used G-22™ and E-22™ seal assemblies.

Casing Packer ■ Standard Seal Assembly

OD Weight ✸Size ●

OD Seal Bore Size



5 127.0 15–21 32–19 3.968 100.7 1.968 49.921–19 1.312 33.3

20–19 0.984 24.9

5-1/2 139.7 13–17 44–25 4.500 114.3 2.500 63.5 20–25 1.865 47.3

6-5/8 168.217–32 82–32 5.468 138.8

3.250 82.580–32

or81–32

2.406or

1.990

61.1or

50.517–20 84–32 5.687 144.4

7 177.8

32–38 82–32 5.468 138.8

3.250 82.580–32

or81–32

2.406or

1.990

61.1or

50.5

20–32 84–32 5.687 144.4

17–20 88–32 6.187 157.1

7-5/8 193.633.7–39 88–32 6.187 157.1

3.250 82.580–32

or81–32

2.406or

1.990

61.1or

50.524–33.7 92–32 6.375 161.9

7-3/4 196.9 46.1–48.6 88–32 6.187 157.1 3.250 82.580–32

or81–32

2.406or

1.990

61.1or

50.5

8-5/8 219.0 24–36 128–40 7.500 190.5 4.000 101.6 80/120–40 3.000 76.2

9-5/8 244.4 32.3–53.5194–47 8.125 206.3 4.750 120.6

190–47 3.000 76.2

191–47 2.500 63.5

192–47 3.875 98.4

194–60 ✸ 8.250 209.5 6.150 156.2 190–60 4.875 123.8

9-7/8 250.1 62.8194–47 8.125 206.3 4.750 120.6

190–47 3.000 76.2

191–47 2.500 63.5

192–47 3.875 98.4

194–60 ✸ 8.250 209.5 6.150 156.2 190–60 4.875 123.8


46

SAB-3 and SABL-3 Hydraulic-Set Retainer Production PackersProduct Family Nos. H40907 and H40908

APPLICATION

Baker Hughes SAB-3™ and SABL-3™ hydraulic-set retainer production packers

are the hydraulically set versions of the DAB™ and FAB™ packers, respectively.

These packers feature the largest possible bore through combined packer and seal

accessory. The packer is run to depth, connected to the tubing with a K™ or KC™

anchor tubing seal nipple and is set by applied tubing pressure. This makes the

packer ideal for high-angle deviated wells, common in offshore operations.

Advantages

Slim-line design

Solid construction enables 50% faster run-in without fear of impact

damage or premature setting, making significant rig-time savings possible

Two opposed sets of full-circle, full-strength slips ensure packer will

remain properly set

Packing element resists swab-off and packs off securely when packer is set

Unique interlocking, expandable, metal backup rings contact casing, creating

a positive barrier to packing element extrusion

Aflas™ packing element is available in select casing-weight ranges

SAB-3 Hydraulic-Set Retainer

Production Packer with B Guide


Additional InformationThe SAB-3 and SABL-3 packers have been designed to give maximum strength,

uniformity of setting pressure and standardization of all alloy materials for

H2S service.

The SAB-3 packers offer bores comparable to the DA™ packers in their

corresponding sizes.

The SABL-3 (large-bore) packers offer larger bores more comparable to the FA™

packers and as a result carry a lower-pressure rating than the SAB-3 packer.

The SABL-3 packers are only available in standard sizes.

Packer AccessoriesSealing systems; expansion joints; parallel fl ow systems; plugging devices;

packer-bore receptacles


47

SPECIFICATION GUIDESSAB-3™ Hydraulic-Set Retainer Production Packer, Product Family No. H40907

✸ For information on packer or accessory sizes not found in this specification guide refer to Baker Hughes' packer systems technical manual or your

Baker Hughes representative● Includes some drillpipe and line pipe weights■ Lower bore can be used as a seal bore, HOWEVER, strict dimensional analysis for compatibility of packer bore/sealing accessory configuration is required to assure desire

performance. Compatibility is based on lower bore/seal nipple diametrical dimensions only. Final seating position of locating shoulder will very between packer sizes. Anchor

mechanisms are not recommended.▲ When proposed for use in other than the casing-weight range shown, contact your Baker Hughes representative.‡ This is not a honed seal bore.

Casing Packer ✸ Packer Sealing Bore

OD Weight ●Size ▲

Max OD

Upper Lower ■


Size

Min Bore Thru Seals


Size

Min Bore Thru Seals


5 127.0 15–21 32SAB30 x 19 3.968 100.7 3.000 76.2 20FA30 2.390 60.7 1.968 49.920–19 .984 24.9

21–19 1.312 33.3

5-1/2 139.7 13–17 44SAB32 x 25 4.500 114.3 3.250 82.5 40DA32 2.500 63.5 2.500 63.5 20–25 1.865 47.3

6-5/8 168.217–32 82SAB40 x 32 5.468 138.8

4.000 101.3 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.117–20 84SAB40 x 32 5.687 144.4

7 177.8

32–44 82SAB40 x 32 5.468 138.8

4.000 101.3 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.120–32 84SAB40 x 32 5.687 144.4

17–20 88SAB40 x 32 6.187 157.1

7-5/8 193.633.7–39 88SAB40 x 32 6.187 157.1

4.000 101.3 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.124–39 92SAB40 x 32 6.375 161.9

7-3/4 196.9 46.1–48.6 88SAB40 6.187 157.1 4.000 101.3 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.1

8-5/8 219.0 24–36 128SAB47 x 40 7.500 190.5 4.750 120.6 81FA47 3.875 98.4 4.000 101.6 80/120–40 3.000 76.2

9-5/8 244.4 32.3–58.4194SAB60 x 47

8.125 206.3 6.000 152.4 190DA60 4.875 123.84.750 120.6

191–47 2.500 63.5

190–47 3.000 76.2

192–47 3.875 98.4

194SAB60 x 48 4.895 ‡ 124.3 - - -

9-7/8 250.1 62.8194SAB60 x 47

8.125 206.3 6.000 152.4 190DA60 4.875 123.84.750 120.6

191–47 2.500 63.5

190–47 3.000 76.2

192–47 3.875 98.4

194SAB60 x 48 4.895 ‡ 124.3 - - -

SABL-3 Hydraulic-Set Retainer Production Packer, Product Family No. H40908

Casing Packer ✸ Packer Sealing Bore

OD Weight ●Size ▲

Max OD

Upper Lower ■


Size

Min Bore Thru Seals


Size

Min Bore Thru Seals

in. mm lb/ft in. mm in. mm in. mm in. mm in. mm5-1/2 139.7 20–23 43SABL36 x 27 4.450 113.0 3.625 92.0 43SA36 2.780 70.6 2.780 ‡ 70.6 - - -

6-5/8 168.2 17 85SABL47 x 38 5.875 149.2 4.750 120.6 81FA47 3.875 98.4 3.875 98.4 120–38 2.500 63.5

7 177.8 26–29 85SABL48 x 4.145 5.875 149.2 4.875 123.8 80DA48 4.125 104.7 4.125 ‡ 104.7 - - -

7-5/8 193.6 24–33.7 91SABL47 x 38 6.500 165.1 4.750 120.6 81FA47 3.875 98.4 3.885 98.6 120–38 2.500 63.5

8-5/8 219.0 24–36 128SABL60 x 47 7.500 190.5 6.000 152.4 190DA60 4.875 123.8 4.750 120.6 190–47 3.000 76.2

9-5/8 244.4 47–58.4

194SABL73 x 608.250 209.5 7.375 187.3

190SA73 6.000 152.4 6.000 152.4 190–60 4.875 123.8

194SABL73 x 6.059 190–73 6.059 153.8 6.059 ‡ 153.8 - - -

194SABL40 x 328.125 206.3

4.000 101.6 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.1

194SABL47 x 44 4.750 120.6 81FA47 3.875 98.4 4.400 111.7 80–44 3.500 88.9

9-7/8 250.1 62.8

194SABL73 x 608.250 209.5 7.375 187.3

190SA73 6.000 152.4 6.000 152.4 190–60 4.875 123.8

194SABL73 x 6.059 190–73 6.059 153.8 6.059 ‡ 153.8 - - -

194SABL40 x 328.125 206.3

4.000 101.6 80DA40 3.250 82.5 3.250 82.5 80–32 2.406 61.1

194SABL47 x 44 4.750 120.6 81FA47 3.875 98.4 4.400 111.7 80–44 3.500 88.9

10-3/4 273.0 32.75–60.7 214SABL73 x 60 9.437 239.7 7.375 187.3 190SA73 6.000 152.4 6.000 152.4 190–60 4.875 123.8

Unit No. 4782Rev. B Page 13 of 24

Baker Model SB-3,SAB-3 And SABL-3 Retainer Production Packers

06-15-04

SB-3 Packers

Packer Size Piston Area in2 Minimum Setting Pressure (psi)

32 SB 19 3.84,50044 SB 25 5.6

82 SB 32 6.084 SB 32 7.3 4,00088 SB 32 9.1

3,500

92 SB 32 9.6128 SB 40 8.3194 SB 32

13.6194 SB 47194 SB 60 8.1

SAB-3 Packers


32 SAB 30x19 3.9

4,50044 SAB 32x25 5.682 SAB 32x35

6.082 SAB 40x3284 SAB 40x27

7.3 4,00084 SAB 40x2984 SAB 40x3288 SAB 40x32 9.1

3,500

92 SAB 40x32 9.6128 SAB 47x40 8.3194 SAB 47x38

13.6194 SAB 60x47194 SAB 60x48

Unit No. 4782Rev. B Page 14 of 24

Baker Model SB-3,SAB-3 And SABL-3 RetainerProduction Packers

06-15-04

SABL-3 Packers


32 SABL 30x24 3.8

4,500

43 SABL 36x27 4.181 SABL 40x32 7.883 SABL 47x38

4.683 SABL 47x3.958

85 SABL 47x38

5.785 SABL 47x3.958

85 SABL 47x4085 SABL 47x4.125

85 SABL 48x38 5.385 SABL 48x3.958 5.785 SABL 48x4.145 5.4

87 SABL 47x38 5.889 SABL 52x4.25 7.891 SABL 47x38 8.1

3,500

128 SABL 60x478.3

128 SABL 60x50194 SABL 71x58

8.1194 SABL 73x60194 SABL 73x6.059

214 SABL 73x60 18.8 3,000

Note:• Setting pressure is specific to each packer because of variations in piston area on

each size• Temperature defines selection of packing element hardness• Small piston area hence high setting pressureReference - Region Engineers Manual (BotWeb) Unit 610.01 Page 1 of 1

Nitrile Packing Element Selection

Packer SizePacking Element Hardness (Nitrile)

Bottom Hole Temperature (°F)

19 Thru 8570 Ambient-275°90 250°-400°95 Over 400°

86 Thru 12870 Ambient-300°90 275°-400°95 Over 400°

19470 Ambient-275°80 275°-350°90 300°-400°

212 Thru 240 70 Ambient-300° (1)

(1) Contact A.E.G. for recommendation above 300°F

52

Product ApplicationProduct

Family No.Single String

Multiple String

Setting Method Used

Releasing Method

Holds Pressure From

Primary Applications

Single String, Mechanical Set Packers

A-3 LOK-SET Retainer Casing Packer H64630 X X 5 X X X

AD-1 Tension Packer H73908 X X 3 8 X X

ADL-1 Large Bore Tension Packer H73912 X X 3 8 X X

AL-2 Large Bore LOK-SET Retainer Casing Packer

H64628 X X 5 X X X

C-1 Invertible Packer H73930 X X X 4 9 9 X X

C-1 Tandem Tension Packer H60226 X X 4 8 X X

G Compression Packer H42003 X X 4 X 8 X

Hornet H64682 X X X 5 X X X X

MJS Thermal Packer H41754 X 1 1 6 X X

R-3 Double Grip Packer H64201 X X 4 X X

R-3 Single Grip Packer H64101 X X 4 X 8 X

Sabre H64668 X X X 5 X X X X

Single String, Hydraulic/Hydrostatic Set Packers

FH Hydrostatic Packer H78108 X X 6 X X

FHL Large Bore Hydrostatic Packer H78120 X X 6 X X

HS Hydraulic Set Packer H78460 X X 6 X X

Premier Packer H78463 X X 10 X X

Single String, Setting Tool Set, Sealbore Packers

SC-2P Retrievable Sealbore Bore Packer

H64686 X 2 7 X X

Single String, Wireline Set Packers

Hornet EL H64683 X X 5 X X X X

WL, Reliant Series H64710/11 X X 5 X X

Dual String, Hydraulic/Hydrostatic Set Packers

A-5 Hydrostatic Dual Packer H78316 X X 6 X X

AL-5 Hydrostatic Dual Packer H78330 X X 6 X X

ElecPak H78570 X X 6 X X

GT DSR Dual Packer H78509/10 X X 6 X X X

Twin Seal Submersible Pump Packer H78540 X X 6 X X

Tubing Hangers

Mudline Tubing Hanger H79101 X X 6 X

FLX Pack-Off Tubing Hanger H79085 X X 6 X X

NOTES:

(1) Set mechanically by torquing tubing string to right

(2) Can also be set using by hydraulic setting tools run on a workstring

(3) Released by relieving applied tension required to rupture shear ring

(4) Released by relieving applied setting force

(5) Released with right-hand rotation

(6) Released with applied tension required to rupture shear ring

(7) Released and removed from well with releasing tool run on tubing or workstring

(8) Holds limited differential pressure from this direction

(9) Ability to hold differential pressure is governed by packer's orientation

(10) Released by severing mandrel

RETRIEVABLE PACKER SELECTION CHART

R e t r i e v a b l e P a c k e r S y s t e m s

59

Advantages

Holds pressure from above and below, without relying on set-down

weight, tubing tension, or hydraulic hold down

Provides tubing anchoring with tension applied, suitable for

pumping wells or injection, controlling tubing forces related to change

fluid temperatures

Opposed, non-transferring, dovetail slips prevent packer movement

associated with changing differential pressures, while allowing the

landing of the tubing in tension, neutral or compression

Right-hand tubing rotation controls setting and releasing

Packing element compression locks in by ratcheting action of lock

segments, which restricts rotation to one direction

A-3 LOK-SET

Retrievable Casing Packer


AccessoriesTo provide a simple and reliable injection system for retrieving an injection string

without having to unseat the packer:

L-10 or L-316 on-off sealing connectors, Product Family Nos. H68420 and H68422.

Baker Hughes blanking plug can be used in the seating nipple profi le of the on-off

sealing connector to provide a means of plugging the lower zone while the tubing

is being pulled.

A-3 and AL-2 LOK-SET Retrievable Casing PackersProduct Family No. H64630 and H64628

APPLICATION

The A-3™ LOK-SET™ packer combines advantages of a retrievable packer with the

features of a permanent packer. An ability to lock down tubing forces makes the

A-3 suitable for a broad range of applications, including production, injection, zone

isolation, and remedial operations. The AL-2™ LOK-SET packer is similar to the A-3,

and has a larger bore.


60

SPECIFICATION GUIDESA-3™ LOK-SET Retrievable Casing Packer, Product Family No. H64630

✸ When selecting a packer for a casing weight common to two weight ranges (same OD), choose the packer size shown for the lighter of the two weight

ranges. Example: for 7-in. (177.8 mm) OD 26 lb/ft casing use packer size 47B4. Under certain circumstances the other packer size may be run, such

as when running in mixed casing strings.

Repair kits, including such items as packing elements, seal rings, etc., are available for redressing Baker Retrievable Packers. Contact your Baker Hughes

representative. Use only Baker Hughes repair parts.

Casing Packer

OD Weight ✸Size

Nom IDMax Gage Ring OD

in. mm lb/ft in. mm in. mm4 101.6 9.5–12.9 41A2 1.500 38.1 3.244 82.4

4-1/2 144.3 21.6–23.6 41A2 1.500 38.1 3.244 82.4

4 101.6 9.5 41A4 1.500 38.1 3.423 112.4

4-1/2 114.3

18.8 41A41.500 38.1

3.423 112.4

13.5–17.7 41B 3.578 90.9

11.6–13.5 43A21.978 50.2

3.786 96.2

9.5–10.5 43A4 3.786 96.2

5 127.015–18 43B

1.978 50.24.140 105.2

11.5–15 43C 4.265 108.3

5-1/2 139.7

26 43C

1.978 50.2

4.265 108.3

20–23 45A2 4.515 114.7

15.5 –20 45A4 4.656 118.3

13–15.5 45B 4.796 121.8

6 152.4

26 45B

1.978 50.2

4.796 121.8

20–23 45C 5.078 129.0

15–18 45D 5.171 131.3

6-5/8 168.3

34 45E1.978 50.2

5.421 137.7

24–32 45F 5.499 139.7

24 47A2 2.441 62.0 5.671 144.0

17–24 45G 1.978 50.2 5.796 147.2

17–20 47A4 2.441 62.0 5.827 148.0

7 177.8

38 47A2

2.441 62.0

5.671 144.0

32–35 47A4 5.827 148.0

26–29 47B2 5.983 152.0

23–26 47B4 6.093 154.8

17–20 47C2 6.281 159.5

7-5/8 193.7

33.7–39 47C4

2.441 62.0

6.468 164.3

24–29.7 47D2 6.687 169.9

20–24 47D4 6.827 173.4

8-5/8 219.1

44–49 49A2

3.500 88.9

7.327 186.1

32–40 49A4 7.546 191.7

20–28 49B 7.796 198.0

9-5/8 244.5

47–53.5 51A2

3.500 88.9

8.234 209.1

40–47 51A4 8.452 214.7

29.3–36 51B 8.608 218.6

AL-2™ Large Bore LOK-SET Retrievable Casing Packer Product Family No. H64628

Casing Packer

OD Weight Size

Nom ID Max Gage Ring ODMax Diameter of

Compressed Drag Block


5-1/2 139.7

20 45A2 x 2-3/8

2.375 60.3

4.562 115.9 4.592 116.6

15.5–17 45A4 x 2-3/8 4.656 118.3 4.750 120.7

13 45B x 2-3/8 4.796 121.8 4.902 124.5

6 152.4 26 45B x 2-3/8 2.375 60.3 4.796 121.8 4.902 124.5



66

Advantages

Operationally simple

Hydraulically activated, hydrostatic-set, low-pressure,

rig-pump-capable activation

Field-adjustable shear release

Built-in unloader and bypass aids in releasing and retrieving

Packoff is mechanically locked and constantly reinforced by

hydrostatic pressure

Triple-seal multi-durometer elements ensure pressure integrity over a

wide range of temperatures and conforms easily to casing irregularities

No mandrel movement during setting allows stacked-packer applications

FH and FHL Hydrostatic-Set Single-String Retrievable PackersProduct Family No. H78108 and H78120

FH and FHL Hydrostatic-Set

Single-String Retrievable Packer

Product Family Nos. H78108 and H78120

APPLICATION

The FH™ is the industry-standard, hydrostatic-set and shear-release single-string

retrievable packer. It can be used in the following applications: production, injection,

and zonal isolation; single-string selective completions or dual-string completions

with multiple packers; deviated wells or other applications when rotation for

installation or removal is not benefi cial; when it is benefi cial to displace and set

packers after the well is fl anged up; when testing the tubing string before packer

setting or to independently set and test individual packers in multiple-packer

completions is benefi cial.

The FH packer is hydraulically activated by applying tubing pressure against a

plugging device below the packer. The packer requires only straight pull to release.

The FHL™ is the large-bore version of the FH packer. Features, advantages and

operational procedures are the same as those for the FH packers.

AccessoriesA tubing-plugging device must be positioned below the packer for actuation:

E™ hydraulic-trip sub (Product Family No. H79928); CMU(D)™ sliding sleeve

(Product Family Nos. H81079 and H81080) with blanking plug; Baker Hughes

fl ow-control seating nipple with blanking plug; hydraulic-setting devices

(Product Family Nos. H46921, H79928 and H75917)


67

SPECIFICATION GUIDESFH™ HYDROSTATIC-SET SINGLE-STRING PACKER, Product Family No. H78108

Casing Packer

OD WeightSize

Nom ID Max Gage Ring OD

in. mm lb/ft in. mm in. mm

4-1/2 114.3 9.5–13.5 43A 1.978 50.2 3.786 95.2

5 127.015–18 43B

1.978 50.24.140 105.2

11.5–15 43C 4.255 108.3

5-1/2 139.7

26 43C

1.978 50.2

4.255 108.3

20–23 45A2 4.515 114.7

15.5 –20 45A4 4.656 118.3

13–15.5 45B 4.796 121.8

6 152.4

26 45B

1.978 50.2

4.796 121.8

20–23 45C 5.078 129.0

15–18 45D 5.171 131.3

6-5/8 168.3

34 45E21.978 50.2

5.421 137.7

28–32 45E4 5.499 139.7

24–28 46A4 2.416 61.4 5.603 142.3

7 177.8 38 46A4 2.416 61.4 5.603 142.3

6-5/8 168.324 47A2 2.416 or

2.00061.4 or50.8

5.671 144.0

17–20 47A4 5.827 148.0

7 177.8

38 47A2

2.416or

2.000

61.4or

50.8

5.671 144.0

32–35 47A4 5.827 148.0

26–29 47B2 5.983 152.0

20–26 47B4 6.093 154.8

17–20 47C2 6.281 159.5

7-5/8 193.7

33.7–39 47C4 2.416or

2.000

61.4or

50.8

6.468 164.3

24–29.7 47D2 6.687 169.9

20–24 47D4 6.827 173.4

8-5/8 219.1

44–49 49A2 3.000 or 2.416 or2.000

46.2 or61.4 or50.8

7.327 186.1

32–40 49A4 7.546 191.7

20–28 49B 7.796 198.0

9-5/8 244.5

47–53.5 51A2 3.000 or2.416 or2.000

46.2 or61.4 or50.8

8.233 209.1

40–47 51A4 8.452 214.7

29.3–36 51B 8.608 218.6

When selecting a packer for a casing weight common to two weight ranges (same OD), choose the packer size shown for the lighter of the two weight

ranges. Example: for 7 in. (177.8 mm) 20 lb/ft casing use packer size 47C2. Under certain circumstances the other packer size may be run, such as

when running in mixed-casing strings.

NOTE: Repair kits, including such items as packing elements, seal rings, etc., are available for redressing retrievable packers.

Contact your Baker Hughes representative. Use only genuine Baker Hughes repair parts.

FHL™ HYDROSTATIC-SET SINGLE-STRING PACKER, Product Family No. H78120Casing Packer

OD WeightSize

Nom ID Max Gage Ring OD

in. mm lb/ft in. mm in. mm

6-5/8 168.3

24 47A2

3.000 76.2

5.671 144.0

20 47A4 5.827 148.0

17 47B2 5.983 152.0

7 177.8

38 47A2

3.000 76.2

5.671 144.0

32–35 47A4 5.827 148.0

26–29 47B2 5.983 152.0

20–26 47B4 6.093 154.8

17–20 47C2 6.281 159.5

7-5/8 193.7

33.7–39 47C4

3.000 76.2

6.468 164.3

24–29.7 47D2 6.687 169.9

20–24 47D4 6.827 173.4

9-5/8 244.5

47–53.551A2 x 4-3/4 4.750 120.7

8.233 209.151A2

4.000 101.640–47 51A4 8.452 214.7

29.3–36 51B 8.608 218.6

When selecting a packer for a casing weight common to two weight ranges (same OD), choose the packer size shown for the lighter of the two weight

ranges. Example: for 7-in. (177.8 mm) 20 lb/ft casing use packer size 47C2. Under certain circumstances the other packer size may be run, such as

when running in mixed-casing strings.

NOTE: Repair kits, including such items as packing elements, seal rings, etc., are available for redressing retrievable packers.

Contact your Baker Hughes representative. Use only genuine Baker Hughes repair parts.

68

Advantages

Slip-element-slip grips slips isolated from high pressure

Large ID is similar to large-bore permanent packers

Proven high performance, tested to ISO 14310 VO requirement

Retrieval on production tubing by through-tubing chemical or mechanical cut or shear release

Retrieval on workstring by retrieving tool or milling tool

The patented field proven zero-extrusion back up system is designed for ease of removal

Positive debris barrier, protects slips from deposits and debris for ensured retrieval

Multiple setting options, configurable for traditional or interventionless setting

No body movement during setting; ideal for single- or multiple-packer completions

Modular design suited for threaded connections or upper sealbore

Optional low-pressure setting in certain sizes

Premier Removable Production PackerProduct Family No. H78463, H78467, and H78468

Premier Removable

Production Packer


APPLICATION

The Premier™ packer is a hydraulic-set, large-bore, removable production packer. It combines the

performance of a permanent packer with the conveniences of a retrievable packer. The Premier is ideally

suited for big-bore completions and multizone stacked-packer completions. Its retrieving options offer new

alternatives in high intervention cost applications.

Additional InformationThe Premier can be threaded directly to the production string or connected with an anchor-seal assembly.

One-trip setting is accomplished by pressuring up against a plugging device below the packer. Retrieval on

the production string is accomplished by cutting the mandrel with a chemical or mechanical cutting tool.

Shift-to-release and shear-release options are available for medium-service applications.

SPECIFICATION GUIDECasing Packer

OD WeightSize

Max ODOptional Upper

Sealbore Min ID

Elastomersin. mm lb/ft in. mm in. mm in. mm

5-1/2 139.7 20–23 450-(36x)239 4.500 114.3 3.625 92.1 2.390 60.7 Afl as™

7 177.8

32–35

582-(47x)387

5.820 147.84.750 120.7

3.875 98.4

HNBR, Nitrile and

Afl as

582-(47x)376 3.760 95.5

582-(36x)287 3.625 92.1 2.870 72.9

29–32

591-(47x)387

5.910 150.14.750 120.7

3.875 98.4

591-(47x)376 3.760 95.5

591-(36x)287 3.625 92.1 2.870 72.9

26–29

598-(47x)387

5.983 152.04.750 120.7

3.875 98.4

598-(47x)376 3.760 95.5

598-(36x)287 3.625 92.1 2.870 72.9

7-5/8 193.6

33.7–39645-(47x)387

6.450 163.8

4.750 120.7

3.875 98.4HNBR,

Nitrile and Afl as

645-(47x)376 3.760 95.5

29.7–33.7659-(47x)387

6.590 167.43.875 98.4

659-(47x)376 3.760 95.5

9-5/8 244.5

47–53.5

831-(60x)490

8.310 211.16.000 155.8

4.900 124.5

HNBR, Nitrile and

Afl as

831-(60x)475 4.750 120.7

831-(47x)387 4.750 120.7 3.875 98.4

40–47

845-(60x)490

8.450 214.66.000 155.8

4.900 124.5

845-(60x)475 4.750 120.7

845-(47x)387 4.750 120.7 3.875 98.4

10-3/4 273.1 60.7–65.7934-(73x)600

9.345 237.37.375 187.3 6.000 155.8 HNBR,

Nitrile and Afl as

934-(60x)475 6.000 155.8 4.750 120.7

13-3/8 339.768

1209x850 12.090 307.1 10.183 258.6 8.500 215.9 Nitrile72

13-5/8 338.5 88 1209x850 12.090 307.1 10.183 258.6 8.500 215.9 Nitrile

When upper sealbore is used, the packer can be retrieved on the workstring using the Premier workstring

retrieving tool (POWER), Product Family No. H78464. 5-1/2 is V3 rated.


Unit No. 8126Rev. New Page 11 of 28

FH Double-Grip Hydrostatic Single-String Packer 10-1-03

Areas, Pressures and Shear Screws

PackerSize

SettingArea (in.2)

Min TubingPressure**

To Set Packer and Pack-Off

with ZeroHydrostatic

Area (in.2)Available

For ShearingShear

Screws

Shear Screws TubingPressure (psi)Required ToShear EachShear Screw Size Number In

Std Assy

Number ToActuate Packer

At 2,000 psi*

Hydrostatic Hydraulic Brass Annealed Steel Brass Annealed

Steel43 3.2 1.8 4,050 psi 3.0 10-32

2 Brass

6 5 300 410 45 4.5 2.7 2,750 psi 4.3

5/16-184 3 550 750

46 6.2 3.8 2,560 psi 6.6 6 4 360 490 4749 8.6 4.1 4,000 psi 7.9 3/8-16 5 3 450 610 51

*When hydrostatic pressure is less than 1,500 psi.**Minimum tubing pressure for setting can be reduced if some but not sufficient hydrostatic pressure isavailable. Example: The minimum force required for setting size 45 packer is:

F = (2,750 psi) x (2.7 in.2) = 7,425 lb With a Hydrostatic Head of 600 psi F’ = force available from Hydrostatic = (600 psi) x (4.5) = 2,700 lb therefore force required from Hydraulic setting is F" = F - F’ = 7,425 - 2,700 = 4,725 lb Then minimum tubing pressure required for setting when Hydrostatic Head is 600 psi is

F" P = 4,725 lb

2.7 sq in. Hydraulic Setting Area 1,750 psi = =

Pressure may also be applied to the annulus in low hydrostatic applications to reduce the minimum tubingpressure required for proper pack-off.

Unit No. 8126-2Rev. New Page 3 of 7

FHL Double-Grip Large Bore Hydrostatic Single String Packer

10-1-03

Areas, Pressures and Shear Screws

Packer Size

Setting Area (in.2) Minimum Tubing Pressure* To Set

Packer & Pack Off With Zero

Hydrostatic

Area (in.2) Available For

Shearing Shear Screws

Shear Screws

Tubing Pressure (psi) Required To Shear Each Shear Screw

Hydrostatic Hydraulic SizeNumber In Standard Assembly

Number To Actuate Packer At 2,000 psi♦ Brass Annealed

SteelBrass Annealed Steel

47 with3" ID 6.4 3.9 2,500 psi 5.7 5/16-18

2 Brass 5 4420 560

51 with4" ID 11.2 5.0 3,000 psi 9.5 3/8-16 380 500

* Minimum tubing pressure for setting can be reduced if some but not sufficient hydrostatic pressure is available. (Refer to basic unit for example.) Pressure may also be applied to the annulus in low hydrostatic applications to reduce the minimum tubing pressure required for proper pack-off. ♦ When hydrostatic pressure is less than 1,500 psi.

Mandrel and Tubing AreasPacker

SizeTubing (Am - Ai) (Am - Ao) Am

OD ID (in.2) (in.2) (in.2)47 with3" ID

2-7/8 2.441 5.8 4.0 10.53-1/2 2.992 3.5 0.9

51 with4" ID

2-7/8 2.441 13.5 11.7

18.1903-1/2 2.992 11.2 8.64 3.476 8.7 5.6

4-1/2 3.958 5.9 2.3

Shear Ring Availability ChartPacker

SizeShear Ring (lbs)

20,000 30,000 40,000 50,00047 with 3" ID X X X X 51 with 4" ID X X X

Flow Control Systems


S u r - S e t

Sur-Set Flow Control SystemAPPLICATIONSur-Set™ is a unique flow control lock and nipple system that derives its name from the product's unique capability of the running tool not releasing from the lock unless it is completely set. This is a critical feature for long reach and highly deviated wells. By using Sur-Set, the wireline operator is assured that the lock is properly set in the nipple or the running tool will bring it back to the surface.

Sur-Set lock mandrels are generally based on a no-go design which gives a positive indication of the location of the nipple, a selective version may also be offered. The no-go shoulder is used for positioning only. Once the locking dogs are fully set the no-go shoulder is free from all pressure. When running in, the lock slides into the nipple profile, contacts the nipples no-go shoulder and stops in the precise position. Jarring down begins the expansion of the dogs into the nipple groove, when the flow control device is fully set the locking dogs take the weight off the no-go shoulder. All pressure from above and below is now resting on the locking dogs. This was designed to eliminate operators' concerns about pressure ratings, reliability of setting and retention of flow control devices inside high-volume wells. Sur-Set draws on our past experience with many different types of lock mandrel designs, as well as, comparisons of competitive products to address these problems.

Sur-Set can be used to secure flow control devices such as blanking plugs, check valves, chokes, gauges and other flow control devices in strategic locations within the completion string by use of seating nipples. The system is composed of three major components; a nipple profile located in the production string, a locking mandrel containing the flow control device, which is used to locate and lock into the production seating nipple, and the running tool which allows the lock to remain attached if not properly set in the correct seating nipple.

1) Seals meet sealbore

2) Tap down slightly until no-go is reached

3) Jar down shear screws on running tool, rotate dogs

4) Continue to jar down rotated dogs lift lock of no-go, all loads now taken by dogs, take overpull to insure lock is set

5) Jar up to Shear D probe pin

6) Pull out of hole

7) Lock fully set

13

S u r - S e t

Model AF Top No-Go Seating Nipple


Model AR Top No-Go Seating Nipple


Model A-1 Selective Seating Nipple


Sur-Set Top/Bottom No-Go and Selective Seating Nipples9Chrome-1Moly Steel (18-22 RC Max)

Features/Benefits

� Manufactured from 9Chrome -1Moly (18-22 RC MAX) for H2S - recommended CO2 service (other material available) � Honed sealing bores for maximum sealing performance � Sealbore - contoured and polished to pass chevron packing without damage � Integral locking groove � Extended upper nipple bore eliminates pre-setting � Simple design � Available in API and premium threads � Pressure rating independent of no-go wear

APPLICATIONSThe Baker Hughes top and bottom no-go seating nipples provide for the location of various wireline flow control devices in the production string. The nipple’s no-go shoulder is used to help locate and set the Sur-Set™ lock, but, it is unloaded once the setting operation is completed.

The top no-go seating nipple is designed to accept only those top no-go type locks which carry the same letter designations as the seating nipple, either either Model AF™, Model HF™, or extreme depending upon the required pressure rating.

The bottom no-go seating nipple is designed to accept only those bottom no-go locks and accessories which carry the same letter designations as the seating nipple, either Model AR™, Model HR™, or Extreme R™, depending on the required pressure rating.

The selective nipples allow for selective setting of Sur-Set lock mandrels, resulting in the ability of running a single size sealbore diameter to be installed along the tubing string.

The location and number of seating nipples should be carefully considered in the completion planning stages to allow maximum versatility in the positioning of various flow control accessories.

These nipples are manufactured per NACE specification MR-01-75 (latest revision).

� Land blanking plugs to shut in the well or to test the production tubing � Land velocity type safety valves (SSCSV) � Land equalizing check valves � Land circulating blanking plugs � Land chokes to reduce surface flowing pressures or to have pressure drops downhole to prevent surface freezing in gas production � Land instrument hangers with geophysical devices such as pressure and temperature recorders

14

S u r - S e t

Model AF Top No-Go Lock Mandrel


Model AR Bottom No-Go Lock Mandrel


Model A-4 Selective LocatorProduct Family No. H83562

Sur-Set Locking MandrelsAPPLICATIONThe Baker Hughes Models AF™, HF™, and extreme type lock assemblies are top no-go style locks. With a no-go shoulder located just below the locking dogs, these locks will land and lock flow control devices in the Models AF, HF, and extreme type top no-go seating nipples. Lock selection should be compatible with the size and model designation (based on designed pressure rating) of the selected seating nipple.

The Baker Hughes Models AR™, HR™, and Extreme R™ lock assemblies are bottom no-go style locks. These locks have a no-go shoulder either on the packing mandrel or, in cases where packing is not required, it is located on the flow control accessory. These locks will land and lock flow control devices only in the Models AR, HR, and extreme R bottom no-go seating nipples. Lock selection should be compatible with the size and model designation (based on designed pressure rating) of the selected seating nipple.

The selective Sur-Set™ line uses all the features from the standard top and bottom no-go Sur-Set locking mandrels with the added benefit of maintaining one sealbore diameter for the entire production string. This is accomplished by adding a Model A-4™ or Model H-4™ locator to an Model AR lock. The Sur-Set locking mandrels are run with a Model A™ running tool, (product family no. H81155), and Model D™ probe, (product family no. H81156).

Features/Benefits

� Simple and rugged construction � Large pressure bearing locking dogs eliminating no-go shoulder swaging � Locking mechanism is located above the seating elements, therefore no o-rings are required � Smooth bore through the lock does not subject the operating mechanism to corrosion or sticking by foreign materials � Running tool gives a positive indication that the lock is set in the nipple and that the locking operation is complete � All locks are good for H2S/CO2 service at 300°F (148.8°C) with standard seals � The lock and running tool are compatible with normal wireline equipment and procedures � Vibration proof

15

Model H Bottom Blanking PlugProduct Family No. H83618

APPLICATIONThe Model H™ bottom blanking plugs with removable mandrel are positive blankoff devices designed to seal off pressure from above and below. These plugs are for use in wells where sand or sediment might be encountered. The plugs have a removable mandrel which protrudes from the fishing neck of the lock so that a sand bailer can expose it for retrieval. It can also be supplied with an internal fishing neck junk catcher for enhanced debris management. The Model H bottom blanking plug may be used with either the top no-go or bottom no-go type locks and is available in a wide range of pressure settings. The plug, with the selected lock attached, is run in and set without the removable mandrel in place, thus, providing a large fluid bypass area and allowing fast run-in time. The mandrel is then run in and landed inside the plug, blanking-off the bypass ports. Equalization is accomplished by pulling the removable mandrel from the plug and opening the bypass ports to pressure. The plug itself is then pulled using conventional pulling tools.

S u r - S e t

Model H Bottom Blanking PlugProduct Family No. H83618

Model M Bottom Blanking PlugProduct Family No. H83616

Model M Bottom Blanking PlugProduct Family No. H83616

APPLICATIONThe Model M™ Sur-Set™ single-trip bypass blanking plugs are positive blankoff devices designed to seal off pressure from above and below. These plugs consist of a Model M bottom, (product family no. H83616), assembled to a Sur-Set lock. The Model M plugs are designed to be run in one wireline trip and equalized and retrieved in two trips. Equalization is obtained by running in the well with a Model A™ guide, (product family no. H81171) and equalizing prong, (product family no. H81188). Another trip is required to retrieve the plug with a Model GS™ type pulling tool, (product family no. H81150). The Model M plugs are run in with a Model A running tool, (product family no. H81155), a Model D™ probe, (product family no. H81156), and a Model MH™ positioning tool, (product family no. H81254). While running in, the inner mandrel of the Model M is held in the down position allowing fluid bypass until the plug is locked into the seating nipple. The ports in the plug are closed only after the lock is landed and completely set in the proper setting nipple.

Features/Benefits

� Single-trip installation � Ideal for gas wells � Provides positive indication that lock is set in nipple profile

Features/Benefits

� Integral seal carried on removable mandrel � Standard running and pulling � Debris tolerant � Positive shut off � Available for HP/HT applications � Provides positive indication that lock is set in nipple profile

17

S u r - S e t

Model V Bottom Check Valve

Product Family No H99508

Model T-2 Check Valve for Sur-Set Seating Nipples


Model V Bottom Check ValveProduct Family No. H99508

APPLICATIONThe Model V™ Sur-Set™ bottom check valves are designed to prevent downward flow and allow for upward flow. Once the check valve has been landed and locked in a seating nipple all the differential applied to the valve is carried by the locking dogs and not the no-go shoulder.

The Model V bottom check valve uses a standard Sur-Set locking mandrel for the seating and locking method and uses a sleeve for bypass and equalization.

The check valves are designed to seat in Models AF™ and AR™ type seating nipple profiles. The Models AFV™ and ARV™ equalizing check valves are designed to hold a maximum of 10,000 psi (690 bar) from above. The HP/HT Model V bottom check valves are designed to set in Model EOF™ seating nipples and have been tested to 12,500 psi (862 bar) and 330°F (166°C).

Model T-2 Check Valve for Sur-Set Seating NipplesProduct Family Nos. H80963 and H80964

APPLICATIONThe Model T-2™ check valves are designed to prevent downward flow and allow for upward flow. Once the Model T-2 check valve has been landed and locked in a seating nipple all the differential applied to the valve is carried by the locking dogs and not the no-go shoulder.

The T-2 equalizing check valve is run in the hole with a Model SB™ or Model JDC™ pulling tool and not a Baker Hughes Model A™ running tool, therefore does not follow the Sur-Set™ philosophy of not releasing from the running tool unless the plug is properly set in the nipple profile. If running a check valve and you are required to know that your lock is set correctly in the nipple profile the Model V™ check valve bottom may be used.

Equalization of the Model T-2 check valves occur during retrieval. Upward jarring will shear the shear screws in the equalizing sub allowing for equalization; continued jarring will release the locking dogs allowing the check valve to return to surface. This feature is also important for bypass when retrieving the check valve through tight spots or other sealbores within the tubing string.

Features/Benefits

� Provides a means to pressure test tubing while allowing tubing to fill during run-in � Provides a plug to set hydraulic set packers � Provides positive indication that lock is set in nipple profile � Large flow area � Fluid bypass for retrieval � Available for HP/HT application � One trip to run/one trip to pull

Features/Benefits

� Provides a means to pressure test tubing while allowing tubing to fill during run-in � Provides a plug to set hydraulic set packers � One-trip to run/one-trip to pull

19

S u r - S e t

Sur-Set System IdentificationAPPLICATIONThe Sur-Set™ product line consists of a wide selection of available flow control accessories. An identification system for any combination of these components has been developed. Identification is made through the use of a series of numbers and model letters, which determine each component.

The first number will determine the sealbore dimension of the nipple and lock. The first letter will identify the pressure rating of the system [A - 10,000 psi (690 bar) from above and below; H - 10,000 psi (690 bar) from above and 15,000 psi (1035 bar) from below, and extreme 15,000 psi (1035 bar) from above and below]. The second letter will generally indicate the no-go type, top no-no go “F” (full bore through the nipple) or bottom no-go "R" (restricted bore through nipple). The final letter “H” (blanking plug) indicates the type of flow control accessory.

Note: There may be a letter “O” between the first two letters in this case between the “A” and the “F”; this indicates that the material the tool has been manufactured from is other than standard Sur-Set™ material (9Chrome-1Moly 18-22RC 80MYS).

Example: Model 3.688 in. AFH Bypass Blanking Plug

Model of Flow Control DeviceNo-Go TypePressure RatingSealbore Dimension

Model AFH Sur-Set Nipple and Plug System

Model AF Nipple

Model AF Lock

Model H Bypass Blanking Plug System

21

Tubing Dimensions Nipple Dimensions Lock OD Pressure

OD Weight ID Drift Sealbore Botttom No-Go Min ID Top No-GoRating


2.375 60.33

4.70 1.995 50.67 1.901 48.29 1.875 47.63 1.822 46.28 A

5.30 1.939 49.25 1.845 46.86 1.781 45.24 1.728 43.89 1.835 46.61H

5.95 1.867 47.42 1.773 45.03 1.710 43.43 1.640 41.66 1.765 44.83

2.875 73.03

6.50 2.441 62.00 2.34759.61 2.312 58.72 2.257 57.33

A2.250 57.15 2.305 58.55

7.90 2.323 59.00 2.229 56.62 2.188 55.58 2.098 53.29 2.225 56.52

H8.70 2.259 57.38

2.16554.99

2.125 53.98 2.035 51.69 2.160 54.86

2.062 52.37 2.005 50.93 2.115 53.72

11.00 2.065 52.45 1.972 50.091.875 47.63 1.822 46.28 1.935 49.15

1.812 46.02 1.760 44.70 1.865 47.37

3.500 88.90

9.30 2.992 76.00 2.867 72.822.812 71.42 2.760 70.10 2.865 72.77

A2.750 69.85 2.660 67.56 2.805 71.25

12.95 2.750 69.85 2.625 66.68 2.562 65.07 2.472 62.79 2.615 66.42

H15.80 2.548 64.72 2.423 61.54 2.312 58.72 2.230 56.64 2.390 60.71

16.70 2.480 62.99 2.355 59.82 2.250 57.15 2.302 58.47

17.05 2.440 61.98 2.315 58.80 2.188 55.58 2.098 53.29 2.225 56.52

4.000 101.60

11.00 3.476 88.29 2.351 85.12 3.312 84.12 3.256 82.70

A11.60 3.428 87.07 3.303 83.90 3.250 82.55 3.160 80.26

13.40 3.340 84.84 3.215 81.66 3.125 79.38 3.072 78.03 3.200 81.28

16.50 3.140 79.76 3.015 76.58 2.812 71.42 2.760 70.10 2.865 72.77

4.500 114.30

11.60 4.000 101.60 3.875 98.433.812 96.82 3.759 95.48

3.870 98.30

A

12.75 3.958 100.53 3.833 97.36

3.750 95.25 3.695 93.853.805 96.65

13.50 3.920 99.573.795

96.39

3.688 93.68 3.625 92.08 3.740 95.00

15.10 3.826 97.18 3.701 94.01 3.625 92.08 3.562 90.47 3.695 93.85

16.90 3.740 95.00 3.615 91.82 3.562 90.47 3.510 89.15 3.610 91.69

16.90 3.740 95.00 3.615 91.823.347 87.30 3.347 85.01 3.500 88.90

18.80 3.640 92.46 3.615 89.28

21.60 3.500 88.90 3.375 85.733.312 84.12 3.256 82.70 3.375 85.73

3.250 82.55 3.160 80.26 3.305 83.95

5.000 127.00

11.50 4.560 115.82 4.435 112.654.312 109.52 4.255 108.08 4.390 111.51

A

4.250 107.95 4.305 109.35

15.00 4.408 111.96 4.283 108.79

4.125 104.78 4.035 102.494.200 106.68

18.00 4.276 108.61 4.151 105.44

4.000 101.60 3.900 99.064.090 103.89

20.80 4.156 105.56 4.031 102.39

3.875 98.43 3.950 100.33

23.20 4.044 102.72 3.919 99.543.812 96.82 3.759 95.48 3.870 98.30

3.750 95.25 3.695 93.85 3.805 96.65

26.70 3.876 98.45 3.751 95.28 3.625 92.08 3.562 90.47 3.595 91.31

5.500 139.70

15.50 4.950 125.73 4.825 122.56 4.750 120.65 4.660 118.36 4.820 122.43

A

17.00 4.892 124.26 4.767 121.084.625 117.48 4.710 119.63

4.562 115.87 4.470 113.54 4.650 118.1120.00 4.778 121.36 4.653 118.19

23.00 4.670 118.62 4.545 115.44 4.437 112.70 4.520 114.81

26.00 4.548 115.52 4.423 112.344.312 109.52 4.255 108.08

4.390111.51

28.40 4.440 112.78 4.315 109.60

4.250 107.95 4.135 105.03 4.305 109.35

7.000 177.80

26.00 6.276 159.41 6.151 156.24 6.000 152.40 6.058 153.87

A

29.00 6.184 157.07 6.059 153.90 5.950 151.13 5.850 148.59 6.020 152.91

32.00 6.094 154.79 5.969 151.61 5.875 149.23 5.960 151.38

33.70 6.048 153.62 5.923 150.44 5.812 147.62 5.690 144.83 5.880 149.35

35.00 6.004 152.50 5.879 149.33 5.750 146.05 5.625 142.88 5.840 148.34

38.00 5.920 150.37 5.795 147.19 5.625 142.88 5.500 139.70 5.705 144.91

42.70 5.750 146.05 5.626 142.90 5.312 134.92 5.187 131.75

9.625 244.48 47.00 8.861 220.50 8.525 216.54 8.405 213.49 8.3 210.82 8.47 215.145k

(344.7 bar)

S u r - S e t

Specification GuideSur-Set

Top No-Go not available.Bottom No-Go not available.A= 10k psi (689.48 bar) from above and below; K= 10k psi (689.48 bar) from above and 15k psi (1034.21 bar) from below.

24

S u r - S e t

Sealbore Fishing Neck IDModel A™ Running Tool

Model D™ Probe for Type A Lock

Model D™ Probe for Type H Lock

Model GS™ Pulling Toolin. mm in. mm

1.710 43.43

1.06 26.92 H811-55-0302 N/A Built-in with Running Tool H811-42-1555

1.781 45.241.812 46.02

1.875 HF 47.63

1.875 HF 47.63

1.38 35.05

H811-55-0304 H811-56-2300 N/A

H811-42-18752.062 52.37

H811-55-3000 N/AH811-56-3000

2.125 53.98

2.188 55.58 H811-56-32002.250 57.15

1.81 45.97 H811-55-3500H811-56-3500 N/A

H811-42-23152.312 58.72 H811-56-3701 H811-56-37042.562 65.07 N/A H811-56-41012.750 69.85

2.31 58.67 H811-55-0701 H811-56-4300 H811-42-27552.812 71.423.125 79.38

2.62 66.55

H811-55-4601H811-56-4800

H811-42-3125

3.250 82.553.312 84.12 H811-56-50003.347 87.30

H811-55-5200H811-56-5200

3.562 90.473.625 92.08 H811-56-53003.688 93.68

3.12 79.25

H811-55-6002H811-56-5401

H811-42-3685

3.750 95.253.812 96.82

H811-56-58003.875 98.434.000 101.60

H811-55-6003H811-56-6000

4.125 104.784.250 107.954.312 109.524.437 112.70 H811-56-6100 H811-42-3865

4.562 115.874 101.60 H811-55-1701

H811-56-6700H811-42-4565

4.750 120.65 H811-56-69005.312 134.92

4.25 107.95

H811-55-7400H811-56-7300

H811-50-5250 Model M™ Pulling Tool

5.625 142.88 H811-56-74005.750 146.05

H811-55-1700H811-56-7500

5.812 147.625.875 149.23 H811-56-86025.950 151.13

H811-55-6900 H811-56-90006.000 152.408.405 213.49 7.12 180.85 H811-55-8400 H811-56-8400 H811-42-8600

N/A = Non-Applicable.

Sur-Set Running/Pulling Tool Guide

25

F a n d R

Baker Hughes Models F and R Flow Control SystemThe subsurface control of fluid flow, both tubing to casing and within the tubing is a very important part of efficient completion and production practices. Baker Hughes flow control equipment designed to set in sliding sleeves and seating nipples can be described as consisting of two basic modules. The lock module that holds the product in place and the flow control module. The interchangeability of the two basic components, plus adapters in some cases, means that many specifically tailored products can be assembled together easily and quickly from a minimum number of stocked modules. This interchangeability means that Baker Hughes flow control equipment is both economical as well as versatile.

The basic seating nipple of the Baker Hughes flow control system is the Model F™ non-ported nipple. This nipple will accept selective, top no-go non-flowing and top no-go flowing locks. Selective indicates that the lock will pass through any number of seating nipple sealbores until the selected nipple is reached for deployment. Top no-go locks indicate that they have a shoulder that seats in the upper portion (top of sealbore) of the Model F nipple.

The Model R™ non-ported seating nipple is also available and has a shoulder at the bottom below, the sealbore area that the bottom no-go locks seat on. Bottom no-go non-flowing and flowing locks offer some selectivity in that they will pass through Model F nipples until they reach the Model R nipple.

Flow control modules that blank off flow, check flow from above or below, choke flow along with separation sleeves and instrument hangers can be made up to the bottoms of the locks.

29

F a n d R

Model F Seating NipplesProduct Family Nos. H80150 (Alloy Steel), and H80151 (Stainless Steel)

Model R Seating NipplesProduct Family Nos. H80155 (Alloy Steel), and H80156 (Stainless Steel)

APPLICATIONThe Model F™ seating nipple is a top no-go or selective seating nipple that provides for the location of various wireline flow control devices in the production string. The Model R™ seating nipple is a bottom no-go seating nipple that provides for the location of various wireline flow control devices in the production string. The location and number of seating nipples should be carefully considered in the completion planning stages to allow maximum versatility in the positioning of various flow control accessories. Models F and R seating nipples are manufactured per NACE MR-01-75 (latest revision).

Model F Seating NippleSizes: 1.18 - 3.81

(Except 2.06, 3.12, and 3.31)Product Family No. H80150

Model R Seating NippleSizes: 1.18 - 3.81

(Except 2.06, 3.12, and 3.31)Product Family No. H80155

Models F and Model R seating nipples may be used for the following operations:

� Land blanking plugs to shut in well or to test the production tubing � Land velocity type safety valves (SSCSV) � Land equalizing check valves � Land circulating blanking plugs � Land chokes to reduce surface flowing pressures or to have pressure drops downhole to prevent surface freezing in gas production � Land instrument hangers with geophysical devices such as pressure and temperature recorders � Prevent loss of wireline workstring in some cases

Features/Benefits

� Material selection - alloy steel, stainless steel and 9Chrome -1Moly are heattreated to NACE specifications � Sealbore - contoured and polished to pass chevron packing without damage � Integral locking groove � OD same as coupling OD with properties corresponding to N-80 or better � Available in API and premium threads � Nipples ordered with turned-down ODs correspond to turned-down N-80 couplings in diameter and properties

30

9

FLOW CONTROL

MODEL “F”™ SEATING NIPPLES, PRODUCT NOS. 801-50 AND 801-51SPECIFICATION GUIDE

Tubing Nipple

OD Seal Bore Min OD(B)

In. mm In. mm Size(A) In. mm

1.660 42,16 1.187 30,15 1.18 1.875 47,63

1.900 48,26 1.437 36,50 1.43 2.109 53,57

1.500 38,10 1.50

2-1/16 53,37 1.562 39,67 1.56 2.250 57,15

1.781 45,24 1.78

2-3/8 60,33 1.812 46,02 1.81 2.560 65,02

1.875 47,63 1.87

2.062 52,37 2.06

2-7/8 73,02 2.250 57,15 2.25 3.109 78,97

2.312 58,72 2.31

2.562 65,07 2.56

3-1/2 88,90 2.750 69,85 2.75 3.687 93,65

2.812 71,42 2.81

3.125 79,38 3.12

4 101,60 3.250 82,55 3.25

3.312 84,12 3.31

3.688 93,68 3.68

4-1/2 114,30 3.750 95,25 3.75

3.812 96,82 3.81

4.000 101,60 4.00

5 127,00 4.125 104,78 4.12 Coupling

4.312 109,52 4.31 OD

5-1/2 139,70 4.562 115,87 4.56

4.750 120,65 4.75

6-5/8 168,28 5.250 133,35 5.25

5.500 139,70 5.50

7 177,80 5.750 146,05 5.75

5.953 151,21 5.95

7-5/8 193,68 6.125 155,58 6.12

6.375 161,92 6.37

(A) Other sizes for heavy weight tubing are available on request.(B) Nipples are normally manufactured to tubing joint OD or coupling OD. Nipples cannot be manufactured with smaller ODs than indicated in the chart above.

10

FLOW CONTROL

Model “R” Seating NipplesSizes: 2.06, 3.12, 3.31

and 4.00 - 5.95

The Model “R” Seating Nipple is a bot-tom no-go seating nipple that providesfor the location of various wireline flowcontrol devices in the production string.

The location and number of Model“R” Seating Nipples should be carefullyconsidered in the completion planningstages to allow maximum versatility inthe positioning of various flow controlaccessories.

Model “R” Seating Nipples are manu-factured per NACE MR-01-75 (latest re-vision).

FEATURES/BENEFITS• Material selection — alloy steel, stain-

less steel and 9Cr-1Mo are heat-treated to NACE recommendations(hardness is 18-22 Rc)

• Seal bores — contoured and polished• Integral locking groove• OD same as coupling OD with proper-

ties corresponding to N-80 or better• Nipples ordered with turned-down ODs

correspond to turned-down N-80 cou-plings in diameter and properties

• Safety feature — bottom no-go nippleprevents the loss of wireline tools whenthey are inadvertently dropped or re-leased during running or retrieving

APPLICATIONSModel “R” Seating Nipples may be usedfor the following operations:• Land blanking plugs to shut in the well

or to test the production tubing• Land velocity type safety valves

(SSCSV)• Land equalizing check valves• Land circulating blanking plugs• Prevent loss of wireline workstring in

some cases• Land chokes to reduce surface flow-

ing pressures or to have pressure dropsdownhole to prevent surface freezingin gas production

• Land instrument hangers with geo-physical devices such as pressure andtemperature recorders

Model “R” Seating NipplesSizes: 1.18 - 3.81

(Except 2.06, 3.12 and 3.31)

ORDERING EXAMPLE:PRODUCT NO. 801-55SIZE: 2.25 MODEL “R” SEATING NIPPLE w/2-7/8"OD EU 8 Rd Box x Pin for 6.5 lb/ft N-80 tubing.

MODEL “R”™ SEATING NIPPLEAlloy Steel – Product No. 801-55Stainless Steel – Product No. 801-56

F a n d R

Models FWG, RZG, and FSG Bypass Blanking Plugs With Removable MandrelProduct Family Nos. H80688, H80689, and H80687

APPLICATIONThe Model FWG™ bypass blanking plug is a top no-go wireline retrievable tubing plug that is designed with a removable mandrel for equalizing pressures.

The Model RZG™ bypass blanking plug is a bottom no-go wireline retrievable tubing plug that is designed with a removable mandrel for equalizing pressures.

The Model FSG™ bypass blanking plug is a selectively run wireline retrievable tubing plug that is designed with a removable mandrel for equalizing pressures.

The removable mandrel is held in the bypass position by the running tool, to allow fluid bypass when landing in the seating nipple. When the plug is locked into the desired seating nipple, the removable mandrel is shifted and locked to close the bypass ports.

To equalize, a standard wireline pulling tool latches onto and retrieves the removable mandrel. After the pressures have been equalized through the bypass ports, the plug may be retrieved with a standard pulling tool and proper probe.

Model H Bottom for Models FMH and RKH Bypass Blanking Plugs With Removable MandrelProduct Family Nos. H80690 and H80691

APPLICATIONThe Model FMH™ bypass blanking plug is a top no-go wireline retrievable tubing plug that is designed with a removable mandrel for equalizing pressures.

The Model RKH™ bypass blanking plug is a bottom no-go wireline retrievable tubing plug that is designed with a removable mandrel for equalizing pressures.

The bypass blanking plug is run without the removable mandrel to allow fluid bypass when landing in the seating nipple. The plug is securely locked in place and then the mandrel is landed in the plug to close bypass ports.

To equalize, a standard wireline running and pulling tool latches onto and retrieves the removable mandrel. After pressures have been equalized through the bypass ports, the plug may be retrieved with a standard running and pulling tool.

Model FWG Blanking PlugsProduct Family No. H80688

Model M Bottom for Model FMH Blanking Plug


34

16

FLOW CONTROL

MODEL “FWG”™ BYPASSBLANKING PLUG WITHREMOVABLE MANDRELProduct No. 806-88MODEL “RZG”™ BYPASSBLANKING PLUG WITHREMOVABLE MANDRELProduct No. 806-89The Model “FWG” Bypass Blanking Plugis a top no-go wireline retrievable tubingplug that is designed with a removablemandrel for equalizing pressures.

The Model “RZG” Bypass BlankingPlug is a bottom no-go wireline retriev-able tubing plug that is designed with a

To Run To Pull

Tubing Seal Max OD RemovableOD Bore Size In. “C-1” Running Mandrel Plug

In. In. mm Tool Pulling “B” Probe

mm mm FWG RZG FWG RZG Prod. No. 811-06 Tool (A) Prod. No. 812-07

1.43 1.43 1.49 1.421.90 36,5 37,5 36,2

48,2 1.50 1.50 1.55 1.49 1.90 40SB6, 40RB1438,1 39,4 37,8 JUC15174 or 1.90 (B)

2-1/16 1.56 1.56 1.61 1.55 JDC1515452,3 39,6 41,0 39,4

1.78 1.78 1.86 1.7745,2 47,3 44,9

2-3/8 1.81 1.81 1.86 1.8060,3 46,0 47,3 45,7 40RB17, 40SB1

1.87 1.87 1.92 1.86 2-3/8 JUC-TD15185 2-3/847,6 48,9 47,3 or

2.12 NA 2.12 NA 2.11 JDC-TD1516953,9 53,7

2.18 2.18 NA 2.22 NA2-7/8 55,5 56,4

73,0 2.25 2.25 2.30 2.24 2-7/857,1 58,4 56,8 40RB18, 40SB2,

2.31 2.31 2.36 2.30 2-7/8 JUC-TD1518958,7 60,0 58,4 or

JDC-TD15171 2.562.56 2.56 2.62 2.5565,0 66,6 64,8

2.75 2.75 2.80 2.743-1/2 69,8 71,1 69,5 40RB19, 40SB9,

88,9 2.81 2.81 NA 2.86 NA 3-1/2 JUC-TD15191 3-1/271,4 72,7 or

2.87 2.87 NA 2.91 NA JDC-TD1518173,0 74,0

3.68 3.68 3.74 3.6793,6 94,9 93,4

4-1/2 3.75 3.75 3.80 3.74 4-1/2 40RB20 or 4-1/2114,3 95,2 96,5 94,9 40SB10

3.81 3.81 3.86 3.8096,8 98,14 96,57

(A) See running and pulling tool specification guide for required OD’s.(B) When ordering specify pin thread: 3/8-16N pin for “SB” and “RB” Tools, 1/2-13N pin for “JDC” and “JUC” Tools.

SPECIFICATION GUIDE

Model “FWG”Product No. 806-88

Model “RZG”Product No. 806-89

ORDERING EXAMPLES:PRODUCT NO. 806-88SIZE: 1.81 MODEL “FWG” BYPASS BLANKINGPLUG w/REMOVABLE MANDREL AND two 3/16"Equalizing Holes w/locks trailing (or retracted)

PRDUCT NO. 806-89SIZE: 1.81 MODEL “RZG” BYPASS BLANKINGPLUG w/REMOVABLE MANDREL and two 3/16"Equalizing Holes w/locks trailing (or retracted)

removable mandrel for equalizing pres-sures.

The removable mandrel is held in thebypass position by the running tool, toallow fluid bypass when landing in theseating nipple. When the plug is lockedinto the desired seating nipple, the re-movable mandrel is shifted and locked toclose the bypass ports.

To equalize, a standard wireline pull-ing tool latches onto and retrieves theremovable mandrel. After the pressureshave been equalized through the bypassports, the plug may be retrieved with astandard pulling tool and proper probe.

17

FLOW CONTROL

To equalize, a standard wireline pulling toollatches onto and retrieves the removable man-drel. After the pressures have been equalizedthrough the bypass ports, the plug may beretrieved with a standard pulling tool and properprobe.

To Run To Pull

Tubing Seal No-Go Selective Removable

OD Bore Locating “G” Mandrel PlugSize Ring OD “C-1” Running Running

In. In. In. Tool, Prod. Tool, Prod. Pulling “A” Probemm mm mm No. 811-06 No. 811-08 Tool (A) Prod. No. 812-06

1.43 1.43 1.461.90 36,5 37,2 40RB14, JUC15174

48,2 1.50 1.50 1.52 40SB6, JDC1515438,1 38,6 1.90 1.90 (B)

1.56 1.56 1.59 40RB14, 40RB212-1/16 39,6 40,4 40SB6, 40SB8

52,3 1.62 1.62 1.65 JUC15174 or41,2 42,0 JDC15154

1.78 1.78 1.8045,2 45,9

2-3/8 1.81 1.81 1.84 40RB17, 40SB1 2-3/860,3 46,0 46,8 2-3/8 JUC-TD15185

1.87 1.87 1.90 or47,6 48,4 JDC-TD15169

2.18 2.18 2.22 NA55,5 56,3

2-7/8 2.25 2.25 2.28 2-7/873,0 57,1 57,9 40RB18, 40SB2,

2.31 2.31 2.34 2-7/8 JUC-TD1518958,7 59,5 or

2.56 2.56 2.59 NA JDC-TD15171 2.5665,0 65,8

2.75 2.75 2.783-1/2 69,8 70,6 40RB19, 40SB9,

88,9 2.81 2.81 2.84 3-1/2 JUC-TD15191 3-1/271,4 72,2 or

2.87 2.87 2.90 NA JDC-TD1518173,0 73,8

3.68 3.68 3.7193,6 94,4

4-1/2 3.75 3.75 3.78 4-1/2 40RB20 4-1/2144,3 95,2 96,0 40SB10

3.81 3.81 3.8396,8 97,4

(A) See running and pulling tool specification guide for required ODs.(B) When ordering, specify pin thread: 3/8-16N pin for “SB” and “RB” tools, 1/2-13N pin for “JDC” and “JUC” tools.

Model “FSG”Product No. 806-87

MODEL “FSG”™ BYPASSBLANKING PLUG WITHREMOVABLE MANDRELProduct No. 806-87The Model “FSG” Bypass Blanking Plug is aselectively run wireline retrievable tubing plugthat is designed with a removable mandrel forequalizing pressures.

The removable mandrel is held in the bypassposition by the running tool, to allow fluid bypasswhen running through several of the same sizenipples. When the plug is locked into the desiredseating nipple, the removable mandrel is shiftedand locked to close the bypass ports.

ORDERING EXAMPLE:PRODUCT NO. 806-87SIZE: 1.81 MODEL “FSG” BYPASS PLANKING PLUG WITHREMOVABLE MANDREL and two 3/16" Equalizing Holes

SPECIFICATION GUIDE

F a n d R

Model FB-2 Equalizing Check ValveProduct Family No. H80935 (Top No-Go)

Model RB-2 Equalizing Check ValveProduct Family No. H80936 (Bottom No-Go)

Model V Equalizing Check ValvesProduct Family Nos. H80902 (FSV), H80902 (FWV), H80904 (RZV), and H80905 (RVK)

APPLICATIONThe Baker Hughes equalizing check valves, sometimes called standing valves, prevent downward flow while allowing upward flow through the device. These wireline retrievable check valves are run and landed in Baker Hughes components with Models F™ or R™ profiles. They are used to test tubing, set hydraulic packers and prevent fluids from entering the formation during intermitted gas lift installation.

The Model FB-2™ equalizing check valves are complete units (not flow control bottoms) used to land on the top no-go shoulder of a Baker Hughes Model F seating nipple. The no-go shoulder prevents downward movement, but the valves are not locked into the nipple to prevent upward movement. The check valve is equalized by shifting open large bypass ports during retrieval operations.

The Model RB-2™ equalizing check valves are complete units (not flow control bottoms) that seat on the bottom no-go shoulder of a Baker Hughes Model R seating nipple. The no-go shoulder prevents downward movement, but the valves are not locked into the nipple to prevent upward movement. The check valve is equalized by shifting open large bypass ports during retrieval operations.

The Model V™ equalizing check valve bottom when attached to the proper lock is landed into a Baker Hughes Model F or Model R seating nipple or sliding sleeve. It cannot be run with a Model S™ Lock because the ball cannot be held off the seat during running and landing. For retrieval it can be equalized by breaking the equalizing plug.

Model FB-2 Equalizing Check Valve


Model RB-2 Equalizing Check Valve


Model V Equalizing Check Valve Bottom


Features/Benefits � Large flow area � Fluid bypass for retrieval � Single-trip installation and removal � Simple design

36

20

FLOW CONTROL

To Run To Pull(A)

Tubing Seal SizeOD Bore “C-1” Running

In. In. Toolmm mm Prod. No. Pulling Tool

In. In. “FB-2” “RB-2” “FB-2” “RB-2” 811-06mm mm

1.187 1.240 1.1771.181.660 30,15 31,50 29,90

1.660 40RB11 or 40SM442,16 1.250 1.3021.25 — — 42,16

31,75 33,07

1.437 1.495 1.4271.431.900 36,50 37,97 36,25 40RB14, JUC15174,

48,26 1.500 1.552 1.490 40SB6 or JDC 51541.5038,10 39,42 37,85

1.9001.562 1.615 1.552 40RB14, 40RB21,1.56

2-1/16 39,67 41,02 39,42 48,26 40SB6, 40SB8

52,37 1.625 1.672 JUC15174 or1.62 — —41,28 42,47 JDC15154

1.781 1.803 1.7711.7845,24 45,80 44,98

2-3/8 1.812 1.865 1.8021.81 40RB17, 40SB1,60,33 46,02 47,37 45,77 2-3/8 JUC-TD15185 or

1.875 1.905 1.865 JDC-TD151691.8747,63 48,39 47,37 60,33

2.062 2.115 2.0522.0652,37 53,72 52,12

2-7/8 2.250 2.302 2.2402.2573,02 57,15 58,47 56,90 40RB18, 40SB2,

2.312 2.364 2.3022.31 2-7/8 JUC-TD15189 or58,72 60,05 58,47

2.562 2,625 2.552 73,02 JDC-TD151712.5665,07 66,68 64,82

3-1/2 2.750 2.802 2.740 40RB192.7588,90 69,85 71,17 69,60 3-1/2 40SB9

2.812 2.865 JUC-TD15191 or2.81 — — 88,9071,42 72,77 JDC-TD15181

(A) See running and pulling tool specification guide for required ODs.

MaxOD

To Run To Pull(A)

Tubing Seal SizeOD Bore “C-1” Running

In. In. Toolmm mm Prod. No. Pulling Tool

In. In. “FB-2” “RB-2” “FB-2” “RB-2” 811-06mm mm

3.125 3.175 3.115 40RB193.124 79,38 80,65 79,12 40SB93-1/2101,60

JUC-TD15191 or3.312 3.406 3.3023.31 88,9084,12 96,51 83,87 JDC-TD15181

3.688 3.740 3.6783.6893,68 95,00 93,42

4-1/2 3.750 3.802 3.7403.75114,30 95,25 95,57 95,00

3.812 3.875 3.8023.8196,82 98,43 96,57

4.000 4.090 3.9904.00101,60 103,89 101,35

5 4.125 4.215 4.1154.12127,00 104,78 107,06 104,52

4.312 4.385 4.3024.31109,52 111,38 109,27

4.562 4.653 4.552 40RB205-1/2 115,87 4.56 118,19 115,62 40SB10

139,70 4-1/2JUC-TD15193 or4.750 4.840 4.7404.75

120,65 122,94 120,40 114,30 JDC-TD15183

5.250 5.353 5.2405.256-5/8 133,35 135,97 133,10

168,28 5.500 5.600 5.4905.50139,70 142,24 139,45

5.750 5,875 5,7405.757 146,05 149,23 145,80

177,80 5.953 5.985 5,9435.95151,21 152,02 150,95

6.125 6.247 6.1156.127-5/8 155,58 158,67 155,32

193,68 6.375 6.497 6.3656.37161,92 165,02 161,67

MaxOD

MODEL “FB-2”™ EQUALIZING CHECK VALVEProduct No. 809-35 (Top No-Go)MODEL “RB-2”™ EQUALIZING CHECK VALVEProduct No. 809-36 (Bottom No-Go)MODEL “V” EQUALIZING CHECK VALVES“FSV”™, Product No. 809-02“FWV”™, Product No. 809-03“RZV”™, Product No. 809-04“RKV”™, Product No. 809-05

Baker’s Equalizing Check Valves, sometimes called “stand-ing valves”, prevent downward flow while allowing upwardflow. These wireline retrievable check valves are run andlanded in Baker components with “F” or “R” type profiles.

SPECIFICATION GUIDE

Model “FB-2”Equalizing Check Valve

Product No. 809-35

Model “RB-2”Equalizing Check Valve

Product No. 809-36

ORDERING EXAMPLE:PRODUCT NO. 809-35SIZE: 1.87 MODEL “FB-2” EQUALIZINGCHECK VALVEModel “V” Equalizing

Check Valve

S l i d i n g S l e e v e s

Sliding SleevesIn oil and gas well completions, sliding sleeves provide a means of communication between the tubing and the annulus for fluid circulation or selective-zone production or injection.

Baker Hughes has pioneered the flow control market for decades, designing and manufacturing best-in-class products, including the most reliable sliding sleeves available in the market. Baker Hughes offers a wide range of sliding sleeves models which characteristics vary according to the applications they were designed for.

The Model CM™ family of sliding sleeves is designed for applications that require high performance tools; its non-elastomeric design combined with several other unique features provides excellent service in high pressure, temperature and flow conditions. The Model CM sliding sleeve is the most reliable and efficient sliding sleeve available and is the design platform for the rest of the Baker Hughes sliding sleeves.

The Model CD 6000™ and Model CU 6000™ are lower cost versions of the Model CM sliding sleeves; they are designed for applications where downhole conditions are mild and do not require high performance tools. The Models CD 6000 and CU 6000 offer the same unique features of the Model CM sliding sleeve but with different seals, which are a combination of elastomeric and thermoplastic elements. Also, QPQ coating is not offered.

The Model SLCM™ is the slimline version of the Model CM sliding sleeves and is designed specially for selective gravel pack applications where the sliding sleeves are run inside the sand control screens. They also may be used in applications where casing to tubing clearance is limited.

The Model CMP™ (pressure operated CM) family of sliding sleeves is designed for applications where mechanical shifting with slick line tools is impaired due to the presence of heavy mud or the geometry of highly deviated wells.

Baker Hughes also offers interventionless or remote actuated sliding sleeves that are designed for intelligent well applications. The Model HCM™ is a control line hydraulic operated Model CM sliding sleeve and the IPR (intelligent production regulator) is an electric actuated infinitively variable sliding sleeve.

45


Models CMD and CMU Non-Elastomeric Sliding SleevesProduct Family Nos. H81080 and H81079

APPLICATION

Non-Elestomeric seal

Flow Port

Diffuser Ring

Equalizing Slot

Features/Benefits � A specially designed diffuser ring made of high-strength thermoplastic is critically spaced between the flow ports and the upper packing unit. This prevents damage to the upper packing unit during shifting by controlling the rush of fluid or gas, and lessens the likelihood of tool string damage by providing for slow equalization of high differentials. � The seal stack is manufactured from proprietary, high strength, non-elastomeric compounds that are chemically inert and 30% stronger than commercially available materials. Rather than becoming hard and brittle or bonding to the metal, as is the case with elastomeric materials, our seal compound actually behaves as a lubricant, alleviating seal bonding problems. � Mill slots replace drill holes as flow ports on both the housing and the insert to allow more flow area, reduce erosion and allow higher torque and tensile strength through the sleeve. � Locating the threaded connection inside the primary seal stack eliminates the need for O-ring thread seals and cuts the number of potential leak paths in half. � A locking, angled torque shoulder replaces traditional square shoulder to allow higher torques and reduce thread back-off. � The threat of galling is further reduced by coating critical metallic components with proprietary surface treatments. This assures that the sleeve will be redressable in the future even when ordered in CRA materials. These coatings also provide corrosion and erosion resistance. Alloy and stainless steel grades are treated with QPQ coating which has performed flawlessly since 1985. High nickel alloys are coated with the Baker Hughes’ BAKERTRON™ ion plating process. � Modular design permits conversion from a Model CMD™ to Model CMU™ or vice versa by only changing the upper and lower subs.

The Model CM™ series sliding sleeves are high-performance, equalizing sliding sleeves which allow communication between the tubing and annulus for circulation or selective-zone production. When desired, the sleeve can be shifted open or closed using standard wireline methods and a B-type shifting tool. The tool is designed such that any lock profile and compatible sealbores can be specified to accept a wide range of wireline locks and accessories. The sleeve is available in Model CMD™, downshift-to-open or Model CMU™, upshift-to-open versions.

The nominal working specifications for the sleeve, in most cases, are burst, collapse and tensile equal to N-80 tubing, 375°F (191°C) service temperature with a 1,500 psi (103 bar) maximum shifting differential. The sleeves have been designed in four standard materials; 4140, 9 Chrome-1Moly, 13% Cr, and Nickel Alloy 718 for a wide range of services.

In designing the Model CM series sliding sleeves, several unique features have been combined to upgrade seal performance and increase service life.

46


OpenEqualizedClosed

Designed in fourstandard materials4140, 9Chrome-1Moly, 13 Chrome and Nickel Alloy 718. Compression, burst and tensile properties are compatible with N-80 tubing. Optional designs with higher strengths are available on request.

Spacing between seals and diffuser system is critical to the long-term life of the system. This allows the flow ports on the closing sleeve to fully bypass the seals before equalization occurs.

Self-lockingthreaded connectionlocated inside the seal system eliminates the need for elastomeric thread seals and prevents the assembly from backing off downhole.

Equalizing slotsTesting proves that slots cause less damage to seals during shifting than equalizing holes.

Simplified shifting and equalizing Baker Hughes Model CM™ equalizing tool, run in tandem with a Model B™ or a Baker Hughes Model CM shifting tool, assures proper positioning for equalization. The Model CM equalizing tool is used to shift the sleeve to the equalizing position. Once equalized the Model B or Model CM shifting tool is used to fully open the sleeve. (The Model CM equalizing tool is optional and is not required for seal protection.)

Smooth shifting after introduction to the well environment (temperature, chemicals, corrosion) the Model CM sleeve shifts as easily as on surface. Tests show that the Model CM shifts at the same force as comparable sleeves.

Built-in landing nipple available with Baker Models F™, Sur-Set™, AF™, or most any other profiles. This profile can be used in conjunction with the lower polished bore to land flow control devices.

High performance seal system The Model CM sleeve is equipped with a specially configured, chemically inert seal system composed of proprietary thermoplastic compounds. These state-ofthe- art seals will function in virtually any environment up to maximum of 375°F (191°C)

Unique thermoplasticdiffuser ringThis thermoplastic ring slows the high pressure rush of fluids over the seal stack during shifting. Combined with a high performance seal stack, this ring allows the Model CM sleeve to be shifted through 25 open and closed cycles (50 shifts at maximum temperature and shifting differential) without damage. O-ring and T-seal configurations in the same situation last less than 5 cycles.

Large communication ports The ports are sized to be larger than the sealbore of the sleeve so as not to restrict the flow of fluids.

Three position colletClosed, equalized, open

Lower polished bore

47

Models CD 6000 and CU 6000 Sliding SleevesProduct Family No. H81000

APPLICATIONThe Models CD 6000™ and CU 6000™ series sliding sleeves are high-performance, equalizing sliding sleeves which allow communication between the tubing and annulus for circulation or selective-zone production. When desired, the sleeve can be shifted open or closed using standard wireline methods and a B-type shifting tool. The tool is designed such that any lock profile and compatible sealbores can be specified to accept a wide range of wireline locks and accessories. The sleeve is available in Model CD 6000 downshift-to-open or Model CU 6000 upshift-to-open versions.

The nominal working pressure for the sleeve is 6,000 psi (413.69 bar) at 275°F (135°C) service temperature. The sleeve is manufactured of low alloy steel.

In designing the Models CD 6000 and CU 6000 series sliding sleeves, several unique features have been combined to upgrade seal performance and increase service life.

Model CD 6000 Sliding SleeveProduct Family No. H81000

Model CU 6000 Sliding SleeveProduct Family No. H81000

Features/Benefits

� A specially designed diffuser ring made of highstrength thermoplastic is critically spaced between the flow ports and the upper packing unit. This prevents damage to the upper packing unit during shifting by controlling the rush of fluid or gas, and lessens the likelihood of tool string damage by providing for slow equalization of high differentials � Mill slots replace drill holes as flow ports on both the housing and the insert to allow more flow area, reduce erosion and allow higher torque and tensile strength through the sleeve � Locating the threaded connection inside the primary seal stack eliminates the need for o-ring thread seals and reduces the number of potential leak paths � A locking, angled torque shoulder replaces traditional square shoulder to allow higher torques and reduce thread back off � Modular design permits conversion from a Model CD 6000 to Model CU 6000 or vice versa by only changing the upper and lower subs � Proprietary non-elastomeric and elastomeric compounds enhance a sealing system designed for diverse environments


49

48

FLOW CONTROL

This assures that the sleeve will beredressable in the future even whenordered in CRA materials. These coat-ings also provide corrosion and ero-sion resistance. Alloy and stainlesssteel grades are treated with QPQcoating which has performed flawlesslysince 1985. High nickel alloys arecoated with Baker Oil Tools’BAKERTRON® ion plating process.

• Modular design permits conversionfrom a “CMD” to “CMU” or vice versaby only changing the upper and lowersubs.

Tubing Size Seal Bore Minimum *MaximumIn. Size Shifting Force Shifting Force

mm In. mm (lbs) (lbs)

1.81 46,02 800

2-3/8 - 3-1/2 1.87 47,63 400 650

60,33 - 88,90 2.25 - 2.81 57,15 - 71,42 750

4 - 5-1/2 3.31 - 4.56 84,12 - 115,87 500 950101,60 - 139,70

7 5.62 142,74 800 1,800177,80

NOTE: Ratings are based on 80,000 psi yield NACE material (AISI 4140-4145).BAKERTRON is a registered trademark of Baker Oil Tools.

MODELS “CMD” and “CMU”’NON-ELASTOMERICSLIDING SLEEVES (Cont.)

*Cannot be turned down below this dimension.

Tubing Seal Temp Tensile Torque Model “B” Halliburton “B” “CM” Selective “CM” SelectiveSize Bore Min OD* °F lbs Limit Shifting Tool Shifting Tool Shifting Tool Equalizing Tool

In. mm In. mm In. mm ft-lbs Product No. Part No. Product No. Product No.1.81 46,02 811-19-1801 42B0117 811-20-1810 811-21-1810

2-3/8 3.080 96,000 42B0164* or60,33 1.87 47,63 78,23 811-19-1875 42B0116 811-20-1870 811-21-1870

2.18 55,57 3,500 811-19-2180 811-20-2180 811-21-21802-7/8 2.25 57,15 3.750 375 140,000 811-19-2250 42B0118 811-20-2250 811-21-225073,03 2.31 58,72 95,25 811-20-2310 811-21-2310

2.56 65,07 811-19-2560 811-20-2560 811-21-25603-1/2 2.75 69,85 4.280 182,600 4,000 811-19-2750 42B0146 811-20-2750 811-21-275088,90 2.81 71,42 108,71 811-19-2810 811-20-2810 811-21-2810

4 3.12 79,38 5.250 811-19-3120 42B0204 811-20-3120 811-21-3120101,60 3.31 84,12 133,35 291,900 5,700 811-19-3310 42B0154 811-20-3310 811-21-3310

3.43 87,02 811-19-3430 42B0242 811-20-3430 811-21-34303.50 88,90 811-20-3500 811-21-3500

4-1/2 3.56 90,42 5.500 325 811-19-3500 Not Available 811-20-3560 811-21-3560114,30 3.68 93,68 139,70 270,000 6,000 811-20-3680 811-21-3680

3.75 95,25 811-19-3680 42B0238 811-20-3750 811-21-37503.81 96,82 811-19-3810 42B0111 811-20-3810 811-21-3810

5 4.00 101,60 5.900 811-19-4000 811-20-4000 811-21-4000127,00 4.12 104,78 149,86 315,000 5,500 811-19-4125 42B0171 811-20-4120 811-21-41205-1/2 4.31 109,52 6.500 300 811-19-4310 42B0207 811-20-4310 811-21-4430

139,70 4.56 115,87 165,10 351,000 6,200 811-19-4560 42B0153 811-20-4560 811-21-45607 5.62 142,74 8.300 628,000 8,700 N/A N/A 811-20-5620 811-21-5620

177,80 210,82

*Recommended

SPECIFICATION GUIDE

ORDERING EXAMPLE:PRDUCT NO. 810-80 or 810-79SIZE: 2.31 x 2-7/8 MODEL “CMD” or “CMU”SLIDING SLEEVE w/2-7/8" OD EU 8RD Box x Pin.(One of four standard materials) 4140 etc.

the need for o-ring thread seals andcuts the number of potential leak pathsin half.

• A locking, angled torque shoulder re-places traditional square shoulder toallow higher torques and reduce threadback-off.

• The threat of galling is further reducedby coating critical metallic componentswith proprietary surface treatments.

• Mill slots replace drill holes as flowports on both the housing and theinsert to allow more flow area, reduceerosion and allow higher torque andtensile strength through the sleeve.

• Locating the threaded connection in-side the primary seal stack eliminates

42

FLOW CONTROL

The Model “L” Sliding Sleeve is adownhole flow control device mounted inthe production tubing. It effectively con-trols flow between the tubing and casingannulus, by means of an internal sleevethat is opened or closed by standardwireline methods.

APPLICATIONSSliding Sleeves may be used to estab-lish tubing to annulus communication forsuch operations as:• Displacing the tubing or annulus fluid

after the X-mas tree is installed• Selective testing, treating and produc-

tion of individual zones in a multi-zoneselective well

• Using the tubing to “kick-off” the annu-lus in a tubing/annulus dual comple-tion

• Producing more than one zone througha single tubing string

• Killing a well by circulation• Gas lifting• Landing a blanking plug in nipple pro-

file to shut in well or when testingtubing

• Landing commingling chokes in nippleprofile

• Circulating inhibitors for corrosioncontrol

FEATURES/BENEFITS• Simple, Positive Control — With a

Model “L” Sliding Sleeve, establishingor closing off tubing-to-casing annuluscommunication is simple, dependableand quick. This type of product makesit possible to close the ports withoutleaving any obstruction in the tubingonce the shifting operation is com-pleted. The Baker Model “D-2” Shift-ing Tool is used to open (jarring up) orclose (jarring down) the Model “L” Slid-ing Sleeve.

• Unique Seal Designs — The key to theoverwhelming success of the Model“L” Sliding Sleeve is in the closingsleeve with its specially designed setsof molded seals. The location of theseals, their size, shape, compositionand fabrication — these and otherdesign features are major innovationsin closing sleeves. As shown in ourextensive testing and qualification pro-gram, failure of sleeves to work prop-erly falls into two categories: (1) stick-ing or binding of the closing sleeve,and (2) leaking due to damaged seals.The five diagrams illustrate some ofthe reasons the Model “L” seal designperforms so well.

• Protected Closing Sleeve — The clos-ing sleeve is recessed so that there isno danger of opening or closing thesleeve by mistake while runningwireline tools through or while seatinga flow control device in the slidingsleeve.

• Run in Tandem — Any number ofModel “L” Sliding Sleeves may be runin tandem and still accept wireline flowcontrol devices. Selective-type lockswill pass through as many of thesleeves as the operator chooses andseat in any sleeve he selects.

• Additional Seating Nipple — The up-per sub of the Model “L” Sleeve has aseating nipple profile to land selectiveor top no-go locking flow controldevices.The lower seal sub has ahoned bore that in combination withthe upper seating nipple can be uti-lized to land separation sleeves,chokes or blanking plugs.

Model “L” Sliding SleeveProduct No. 810-04

MODEL “L” ™ SLIDING SLEEVEProduct No. 810-04 — Standard ServiceProduct No. 810-12 — H2S ServiceProduct No. 810-14 — H2S - CO2 Service

43

FLOW CONTROL

FINES AND SOLIDS CAN’T BUILD UP.Seals are close to the ports, reducing theareas in which solids can build up to wedgeor bind the sleeve. As the closing sleeveshifts, any build-up is sheared out.

ROOM FOR GROWTH. Ordinary seals,under heat and pressure, can swell withenough force to bind the sleeve. The sealshave a special profile that allows room forgrowth without binding.

TRAPPED PRESSURE BLEED-OFF. Asthe closing sleeve shifts, the area betweenthe seals tend to trap pressures that mightcause pressure lock, but the seal designassures bleed-off of these pressures.

SUPER-SMOOTH BORE. Seals tend tostick to sealing surfaces during periods ofheat and pressure. The super-smooth boreminimizes this possibility.

SEAL MOLDED TO CLOSING - SLEEVEBODY. Damage caused by high-velocity,high-pressure flow across and behind non-bonded seals is eliminated by these mo-lecularly-bonded closing sleeve seals.

In many field and laboratory tests,sleeves were repeatedly open and closedat high differential pressures without sealdamage.

Tubing OD Seal Bore Size OD (A)

In. mm In. mm In. mm

1.660 42,16 1.187 30,15 1.182.187 55,54

1.250 31,75 1.25

1.437 36,50 1.431.900 48,26 2.375 60,331.500 38,10 1.50

1.562 39,67 1.562-1/16 52,37 2.500 63,501.625 41,28 1.62

1.781 45,21 1.78

2-3/8 60,33 1.812 46,02 1.81 2.910 73,91

1.875 47,63 1.87

2.250 57,15 2.252-7/8 73,03 3.410 86,612.312 58,72 2.31

2.750 69,85 2.753-1/2 88,90 2.812 71,42 2.81 4.500 114,30

3.125 79,38 3.12

4 101,60 3.250 82,55 3.25 5.000 127,00

3.312 84,12 3.31

3.688 93,68 3.68

4-1/2 114,30 3.750 95,25 3.75

3.812 96,82 3.81

4.000 101,60 4.00 5.500 139,70

5 127,00 4.125 104,78 4.12

4.312 109,52 4.31

5-1/2 139,70 4.562 115,87 4.56 6.050 153,67

6-5/8 168,28 7.390 187,71

7 177,80 5.500 139,70 5.50 7,656 194,46

7-5/8 193,68 8.500 215,90

MODEL “L”™ SLIDING SLEEVEPRODUCT NO. 810-04

SPECIFICATION GUIDE

(A) OD’s shown are standard. Smaller OD’s can be supplied on request.

ORDERING EXAMPLE:

PRODUCT NO. 810-04SIZE: 1.87 MODEL “L” SLIDING SLEEVE w/2-3/8" OD EU 8 RD Box x Pin, for N-80 4.7lb/ft tubing for Standard Service

Safety Systems


14

Titan Series Subsurface Safety ValveProduct Family Nos. H82610, H82611, H82612, H82613, H82635, and H82636

APPLICATIONThe Baker Hughes commitment to innovation has resulted in the Titan™ series surface controlled subsurface safety valve. Innovative fi eld-proven technology that reduces the number of typical safety valve failure modes has been a hallmark of the Baker Hughes safety valves through the years. Titan standard features include: wireline damage resistant fl apper, nonelastomeric seal technology, and metal-to-metal containment of wellbore fl uids in the closed position. These standard features deliver unprecedented reliability, effi ciency, and adaptability.

One-quarter of all safety valve failures occur due to wireline damage during interventions into the wellbore. The Titan incorporates the damage resistant characteristics of the successful SelecT™ fl apper design to virtually eliminate this failure mode. This design ensures all seal surfaces are protected from wireline contact even during accidental closure of the valve during wireline operations.

The Titan can be tailored to your specifi c needs, with available options such as integral chemical injection capability, wireline damage resistant seal bores, and various control system stop seal versions. An optional thru-the-fl apper self-equalizing system is also available to minimize operational expenses while maximizing productivity.

Product family nos.�� H82610 - Titan-5, non-equalizing�� H82611 - Titan-5E, self-equalizing�� H82612 - Titan-10, non-equalizing

titan-5(e)subsurface safety Valve


�� Field-proven technology - basic design features have been carried over from the highly successful T-Series™ and SelecT portfolios�� Patented thru-the-flapper self-equalizing - most successful and widely used system available to the market�� Nonelastomeric dynamic seal assembly - withstands extreme pressures and temperatures exceeding 28,000 psi (1,931 bar) and 450°F (232°C)�� Wireline damage resistant flapper - design protects sealing integrity during wireline operations�� Patented lock open system - achieved via one wireline trip and allows flow through the locked open valve with no ID restriction�� No shifting sleeves required to communicate - impossible to inadvertently communicate the hydraulic chamber�� Metal-to-metal seal technology - 100% metal-to-metal sealing and containment of wellbore fluids when the valve is in the closed position�� Optional chemical injection capability - injection mandrel within the TRSV eliminates the need for a mandrel above the valve and allows injection of fluids directly into spring cavity for maximum effectiveness �� Optional damage resistant seal bores - ensures seal bore integrity when it is needed

Features/Benefi ts

�� H82613 - Titan-10E, self-equalizing�� H82635 - Titan-8, non-equalizing�� H82636 - Titan-8E, self-equalizing

Tu b i n g R e t r i e v a b l e

S a f e t y V a l v e s

Size Max ODMax

Seal BorePiston

DisplacemntWorking Pressure

Setting Depth

Max Temperature

in. mm in. mm in. mm cc psi bar ft m °F °C

3-1/2 88.9

5.100 129.5

28.1 58.7 12.33

5,000 3451,500 457

350 177

2,500 762

5.650 143.5 10,000 6891,500 457

2,500 762

4-1/2 114.3

6.600 167.6

3.81 71.3 27.1

5,000 3451,500 457

2,500 762

7.403 188.0 10,000 6891,500 457

2,500 762

5-1/2 139.7

7.730 196.3

4.562 96.8 27.3

5,000 3451,500 457

2,500 762

8.000 203.2 8,000 5521,500 457

2,500 762

8.250 209.6 10,000 6891,500 457

2,500 762

Size Max ODMax

Seal BorePiston


Setting Depth

Max Temperature


2-7/8 73.05.000 127.0

2.31 58.716.7 5,000 345 1,200 365.8

350 177

5.135 130.4 11.98 10,000 689 1,400 426.7

3-1/2 88.95.700 144.8

2.81 71.319.5 5,000 345 1,000 304.8

5.650 143.5 12.33 10,000 689 1,500 457.2

4-1/2 114.37.125* 181.0

3.81 96.817 5,000 345 1,400 426.7

7.403 188.0 27.11 10,000 689 1,500 457.2

5-1/2 139.77.730 196.3

4.56 115.8 27.345,000 345

1,500 457.28.250 209.6 10,000 689

sPecification guidetitan series subsurface safety Valve

sPecification guideceMentsafe series subsurface safety Valve

15

*Valve is not currently available. Please contact safety systems aeg for more details.



22

Features/Benefi ts

T-Series Subsurface Safety Valve

APPLICATIONThe Baker Hughes T-Series™ tubing retrievable safety valves offer unmatched protection from low end standard service through HP/HT applications. With T-Series safety valves, you can count on premium performance and long-term reliability for the life of the well which is attributed to complete removal of elastomeric compounds and elimination of linear shifting sleeves. Incorporating nonelastomeric dynamic seals and metal-to-metal housing connections eliminates the possibility of explosive decompression which is commonly associated with elastomeric compounds. Extensive studies by operators and independent research institutes have shown that accidental actuation of shifting sleeves and subsequent control fl uid communication is one of the primary causes for safety valve failures. By removing all shifting sleeves from the T-Series valve, Baker Hughes has eliminated one of the most common failure modes found in safety valves.

The T-Series versatile design is ideal for a variety of applications including deepwater completions. The T-Series heavy sprung safety valve features an extra strong power spring to overcome the additional hydrostatic pressure associated with deep setting depths. The reliability and simplicity of the T-Series have made it one of the most successful safety valves in the industry. The high spring closure force guarantees performance in the presence of paraffi n or other produced solids.

t-series subsurface safety Valve

�� Subsurface safety valve leader - successful field experience minimizes operating risk�� Nonelastomeric dynamic seal assembly - withstands extreme pressures and temperatures exceeding 28,000 psi (1,931 bar) and 450°F (232°C)�� RBT housing seals - two step metal-to-metal sealing system provides strength and sealing under the harshest conditions�� Patented radial punch control fluid communication system - eliminates accidental communication primarily associated with linear shifting sleeves�� Patented thru-the flapper equalizing system - most successful and widely used system available to the market�� Deep-set capability - ultra strong power spring ensures smooth and reliable closures



SizeModel

Max ODMax

Seal BorePiston


Setting Depth

Max Temperature


2-3/8 60.3

T(M)(E)

3.625 9.21

1.875 47.6

6.5 5,000 345

1,300 369

300 149

2,000 610

3,000 914

4,000 1,219

T 6.5 7,500 517

1,000 305

2,000 610

3,000 914

TSM(E)

3.5 88.9 5.4 9,000 621

1,300 369

2,000 610

4,000 1,219

3.625 92.1 6.5 10,000 690

1,300 369

2,000 610

4,000 1,219

2-7/8 73.0 T(M)(E)

4.625 117.5

2.312 58.7

12.0 5,000 345

1,200 366

300 149

2,000 610

3,000 914

4,000 1,219

6,500 1,981

5.135 130.4 12.0 10,000 690

1,400 427

2,000 610

3,000 914

4,000 1,219

3-1/2 88.9

T(M)(E) 5.380 136.7

2.812 71.4

13.1 5,000 345

400 122

300 149

537 164

1,000 305

1,550 472

2,000 610

3,000 914

4,000 1,219

4,500 1,372

5,500 1,676

TS(M)(E) 5.650 143.5 10.0 10,000 6906,000 1,829

9,000 2,743

4-1/2 114.3T(M)(E) 7.125 181.0

3.812 96.8

17.6 5,000 345

820 250

300 149

1,400 427

2,000 610

3,000 914

4,000 1,219

4,500 1,372

5,500 1,676

17.6 7,500 517 6,000 1,829

17.6 8,000 552 6,000 1,829

TS(M)(E) 7.500 190.5 20.9 10,000 690 8,700 2,652

5-1/2 139.7

T(E)

8.375 212.7 4.578 116.3

20.5

5,000 345

1,000 305

300 149

2,000 610

3,000 914

4,000 1,219

TM(E)30.0

1,400 427

1,850 564

2,100 640

2,500 762

3,000 914

5,500 1,676

6,185 1,885

30.0 5,500 379 1,400 427

7 177.8TSM(E) 9.200 233.7

6,000 152.4 38.5

5,000 345

1,200 366

300 149

2,000 610

3,100 945

4,000 1,219

4,400 1,341

6,530 1,935

6,000 4142,000 610

4,000 1,219

7,500 5172,000 610

3,100 945

TSM 9.300 236.2 8,000 552 2,000 609.6

sPecification guidet-series series subsurface safety Valve

23

T u b i n g R e t r i e v a b l e


28

V-series Wirelineretrievable safety Valve


V-Series Wireline Retrievable Safety ValveProduct Family Nos. H82240, H82252, H82291, H82456, H82472, and H82375

APPLICATIONThe V-series safety valve is a wireline retrievable surface controlled subsurface safety valve that offers a wide range of wireline safety equipment. The wireline valve incorporates a modular concept to allow fl exibility and adaptability to existing and new completions. V-series safety valves may be supplied with a Baker Hughes safety valve lock, as a complete assembly, or as a subassembly with adapter to a competitor lock. When assembled to a wireline lock, the assembly can be installed in a safety valve nipple. Hydraulic control line connects the safety valve nipple to the surface emergency shut-down system. Loss of control line pressure will close the valve and shut-in the well.

When V-Series safety valves are assembled to a safety valve lock, the model designation is expanded to include the lock and the safety valve nipple into which it is landed.

Example: a Model BAA(O)FV™ safety valve is comprised of a Model V™ safety valve assembled to a Model A(O)F™ lock and is landed in a Model BA™ safety valve nipple.

Model Designations�� V - V-series�� E - Incorporates Baker Hughes patented self-equalizing system�� H - Designed to work in applications requiring 10,000 psi (689 bar)�� D - For deep set applications�� Q - Designed to work in applications requiring up to 15,000 psi (1,034 bar) working pressure�� S - Slimline design incorporates Baker Hughes curved flapper design

Product Family Nos.�� H82240 - Model VE™ wireline retrievable safety valve, self-equalizing�� H82252 - Model VHE™ wireline retrievable safety valve, self-equalizing�� H82291 - Model VDE™ wireline retrievable safety valve, self-equalizing�� H82456 - Model VHDE™ wireline retrievable safety valve, self-equalizing�� H82472 - Model VDES™ wireline retrievable safety valve, self-equalizing�� H82375 - Model VQD™ wireline retrievable safety valve

W i r e l i n e R e t r i e v a b l e


sPecification guideModel V and W series

ModelAvailable Seal Bores

ModelWorking Pressure Maximum Setting Depth ID Temperature Range

in. mm psi bar ft m in. mm °F °C

2-3/8

1.710 43.4 VH(E) 10,000 689.5 1,560 475.5 0.65 16.51

20-275 -7-135

1.810 45.9 VH(E) 10,000 689.5 1,560 475.5 0.65 16.51

1.870

47.5 VH(E) 10,000 689.5 1,560 475.5 0.65 16.51

47.5V(E) 6,000 413.7

1,0001,500

308.4457.2

0.807 20.50

V(E) 5,000 344.7 1,500 457.2 0.807 20.50

2-7/8

2.125 53.9

V(E) 6,000 413.7 1,500 457.2 0.807 20.50

VH 10,000 689.5 1,000 304.8 0.607 15.42

VQD 15,000 1034.2 1,780 542.5 0.575 14.61

2.188 55.5V(E) 10,000 689.5 2,500 762.0 0.935 23.75

VH(E) 15,000 1034.2 1,780 542.5 0.575 14.61

2.312 58.7V 6,000 413.7 1,130 344.4 1.125 28.58

VH(E) 10,000 689.5 1,130 344.4 1.125 28.58

3-1/2

2.562 65.0

V 6,000 413.7 1,000 304.8 1.265 32.13

VH(E) 10,000 689.5 2,500 762.0 1.265 32.13

VD(E) 6,000 413.7 10,000 3048.0 1.265 32.13

VDQ 15,000 1034.2 2,130 649.2 0.995 25.27 20-350 -7-177

2.750 69.8

V(E) 6,000 413.7 1,000 304.8 1.265 32.13

20-275 -7-135VH(E) 10,000 689.5 2,500 762.0 1.265 32.13

VD(E) 6,000 413.7 10,000 3048.0 1.265 32.13

W(E) 5,000 344.7 3,000 914.4 1.56 39.62 20-300 -7-149

2.812 71.3

V(E) 6,000 413.7 1,000 304.8 1.56 39.62

20-275 -7-135VH(E) 10,000 689.5 2,500 762.0 1.265 39.62

VHD(E) 10,000 689.5 4,000 1219.2 1.25 31.75

VD(E) 6,000 413.7 10,000 3048.0 1.265 32.13

W(E) 5,000 344.71,0003,000

304.8914.4

1.56 39.62 20-300 -7-149

4-1/2

3.250 82.5 V(E) 5,000 344.7 1,000 304.8 1.56 39.62

20-275 -7-177

3.437 87.3 V(E) 5,000 344.7 1,000 304.8 1.56 39.62

3.680 93.4

V(E) 6,000 413.7 1,968 599.8 1.97 50.54

VH(E) 10,000 689.5 1,070 326.1 1.97 50.04

VHD(E) 10,000 689.5 2,100 640.0 1.96 49.78

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450 27-232

WS(E) 15,000 1034 2,000 609.6 2.100 53.34

3.750 95.2

V(E) 6,000 413.7 1,071 326.4 1.97 50.0420-275 -7-177

VHD(E) 10,000 689.5 2,100 640.0 1.96 49.78

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450 27-232

WS(E) 15,000 1034 2,000 609.6 2.100 53.34

3.810 96.7

V(E) 6,000 413.7 2,200 670.5 2.122 53.90

20-275 -7-177VH(E) 7,500 517.1 1,000 304.8 2.122 53.90

VHD(E) 10,000 689.5 2,100 640.0 1.960 49.78

VD(E) 5,000 344.7 2,200 670.5 2.500 63.50

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450 27-232

WS(E) 15,000 1034 2,000 609.6 2.100 53.34

29



sPecification guideModel V and W series (continued)

ModelAvailable Seal Bores

ModelWorking Pressure Maximum Setting Depth ID Temperature Range

in. mm psi bar ft m in. mm °F °C

5-1/2

4.125 104.7

V(E) 6,000 413.7 1,400 426.7 2.122 53.90

20-275 -7-177

VHD(E) 10,000 689.5 2,500 762.0 1.960 49.78

VH(E) 5,000 344.7 2,000 609.6 2.380 60.45

4.31 109.4

V(E) 6,000 413.7 2,087 636.1 2.100 53.34

VH(E) 7,500 517.1 1,600 487.6 2.100 53.34

VHD(E) 10,000 689.5 2,100 640.0 1.960 49.78

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450 27-232

WS(E) 15,000 1034.0 2,000 609.6 2.100 53.34

4.43 112.5

VH(E) 9,000 620.5 2,000 609.6 2.100 53.34

20-275 -7-177VD(E) 6,000 413.7 2,390 728.4 2.562 65.07

VD(E)S 5,000 344.7 2,000 609.6 3.062 77.77

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450 27-232

WS(E) 15,000 1034.0 2,000 609.6 2.100 53.34

4.56 115.8

V(E) 6,000 413.7 1,000 304.8 2.562 65.07

20-275 -7-177VH(E) 10,000 689.5 2,087 636.1 2.100 53.34

VD(E) 6,000 413.7 3,000 914.4 2.562 65.07

VD(E)S 5,000 344.7 2,000 609.6 3.062 77.77

WS(E) 10,000 689.5 2,000 609.6 2.100 53.3480-450

WS(E) 15,000 1034.0 2,000 609.6 2.100 53.34

4.578 116.2 V(E) 6,000 413.7 1,000 304.8 2.562 65.07

20-275 -7-1774.625 117.4 VD(E) 6,000 413.7 2,000 609.6 2.562 65.07

4.750 120.6 V(E) 6,000 413.7 1,000 304.8 2.562 65.07

7

5.75 146.0

V(E) 6,000 413.7 1,030 313.9 3.265 82.93

20-275 -7-177

VH(E) 9,000 620.4 1,100 335.2 3.265 82.93

VHD(E) 8,000 551.6 2,000 609.6 3.375 85.73

VD(E)S 5,000 344.71,2002,000

304.8609.6

4.115 104.52

WS(E) 13,500 930.8 2,000 609.6 3.245 82.42 80-350 27-177

5.812 147.6 WS(E) 10,000 689.5 2,000 609.6 3.245 82.42 40-350 4-177

5.875 151.1

V(E) 6,000 413.7 1,149 350.2 3.265 82.93

20-275 -7-177

VHD(E) 8,000 551.6 2,000 609.6 3.375 85.73

VD(E) 4,640 319.9 4,000 1219.2 3.375 85.73

VD(E)S 5,000 344.71,0002,000

304.8609.6

4.115 104.52

5.888 149.5 V(E) 6,000 413.7 1,149 350.2 3.265 82.93

5.937 150.8 V(E) 5,000 344.7 600 182.8 3.265 82.93

5.95 151.1

V(E) 6,000 413.7 1,000 304.8 3.265 82.93

VH(E) 10,000 689.5 1,230 374.9 3.265 82.93

VD(E) 6,000 413.7 2,400 731.5 3.375 85.73

VD(E)S 5,000 344.7 2,000 609.6 4.115 104.52

VD(E)S 7,500 517.1 1,200 365.7 4.115 104.52

5.963 151.4V(E) 6,000 413.7 1,200 365.7 3.265 82.93

VH(E) 6,000 413.7 1,050 320.0 3.265 82.93

6.00 15.4

V(E) 6,000 413.7 1,000 304.8 3.265 82.93

VD(E) 6,000 413.7 2,400 731.5 3.375 85.73

VD(E)S 5,000 344.7 1,960 597.4 4.115 104.52

6.25 158.7 VD(E)S 5,000 344.7 1,000 304.8 4.115 104.52

6.50 165.1 VD(E)S 5,000 344.7 1,200 365.7 4.115 104.52

9-5/8 8,405 213.4 WS 5,000 344.7 1,200 365.7 5.860 148.84 20-300 -7-149

30



Size Max Seal Bores Max OD Working Pressure Temperature Rangein. mm in. mm psi bar in. mm °F °C

2-3/8 60.3 1.875 47.6

3.198 81.2 6,000 414

20-300 -1-149

3.198 81.2 8,000 552

3.600 91.4 6,000 414

3.625 92.1 10,000 689

2-7/8 73.0 2.312 58.7

3.685 93.6 6,000 414

4.140 105.2 10,000 689

4.235 107.6 10,000 689

3-1/2 88.9

2.562 65.1 4.320 109.7 10,000 689

2.750 69.94.110 104.4 5,000 345

4.398 111.7 6,000 414

2.812 71.4

4.260 108.2 10,000 689

4.398 111.7 6,000 414

4.398 111.7 10,000 689

5.078 129.0 10,000 689

5.610 142.5 10,000 689

2.875 73.0 5.078 129.0 10,000 689

4-1/2 144.3

3.688 93.7 5.937 150.8 10,000 689

3.750 95.36.000 152.4 10,000 689

6.530 165.9 10,000 689

3.812 96.8

5.610 142.5 6,000 414

5.790 147.1 10,000 689

5.875 149.2 6,000 414

6.125 155.6 10,000 689

5-1/2 139.7 4.562 115.9

6.311 160.3

10,000 6896.390 162.3

6.625 168.3

7 177.8 5.950 151.18.300 210.8 10,000 689

8.300 210.8 7,500 517

sPecification guide

37

Features/Benefi ts

Model Ba safety Valve nipple with Model af nipple Profi le


�� Robust control line connection - metal-to-metal Baker Hughes jam nut ensures reliable sealing�� Eccentric control line lug - machined control line inlet protects the control line while installing�� Large bore design - allows access to lower completion by offering a full bore ID�� Versatile - equipped with Baker Hughes locking profiles or other specified profiles as specified by the customer

Ported Safety Valve Landing NipplesProduct Family Nos. H81622, H81623, H81649, H80056, H80057, and H80062

APPLICATIONBaker Hughes safety valve landing nipples are installed integral to the tubing string and provide a means of locating and locking a wireline retrievable safety valve in place. The wireline retrievable safety valve (WRSV) is locked in place by using the locking profi le integral to the landing nipple. The safety valve landing nipples are ported for control line fl uid communication from the surface to operate a down hole safety valve. The landing nipples are also designed to withstand loads from the tubing string to ensure long-term reliability of the safety valve system.

Product family nos.� H81622, H81623, H81649 - Model B™ safety valve landing nipple�� H80056, H80057 - Model BA™ safety valve landing nipple�� H80062 - Model BH™ safety valve landing nipple



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