Completion Products 2014 Catalog

Smart Solutions. Powerful Products.
Completion Products
2014 Catalog
1
Smart Solutions. Powerful Products.
At Forum, we are here for one reason: to serve as your trusted ally in the oilfield. With
our comprehensive range of mission-critical expertise, we deliver precisely what you need
when you need it — from drilling equipment to custom solutions, subsea technology to
production equipment, engineering support to repair services. Forum Energy Technologies
brings together some of the most well-known brands in our industry with an extensive range
of mission critical products and services. We are building a world class company to bring
innovative solutions to our worldwide customers. With offices in the key oilfield distribution
centers of the globe, Forum is well-positioned to supply our clients with the equipment and
related services that improve safety and performance and lower operating costs.
Forum’s products and services range from the underwater reservoir to the refinery, from
the sea floor to the above ground transportation line. We pride ourselves on giving you a
comprehensive offering of solutions to maximize your operations and improve your bottom
line. Our customers are our partners and we work with them to solve their ever-changing
challenges.
Completion Products
2014 Catalog
For over 30 years, the makers of ProDrill products have been involved in the manufacturing and distribution of
high quality, high value completion tools for the oil and gas industry. Now a part of the Forum brand portfolio,
Completion Products will continue to provide tools and equipment that exceed required applications and provide
real value to customers.
Our extensive experience domestically and internationally enables us to provide solutions for today’s more
technically difficult environment. All the tools in our catalog are field proven. Specialized tools for unique
problems can be engineered and built to customer’s specifications.
The Express Series composite multi-configuration plugs were developed in 2011. Since then, over 30,000 units
have been run in both horizontal and vertical applications in every major U.S shale play as well as in international
markets. The Express Series is the first plug to offer the ability to change from a Ball Drop to a Bridge or Caged
Ball Flowback Plug without adding any significant metal components to the tool while maintaining a fully
composite mandrel.
Express Series Composite Plugs..............................2
Plug Millout Case History 2...................................14
Ball Drop Frac Plug...............................................................3
Plug Millout Case History 3...................................15
Caged Ball Flowback Plug....................................................3
Composite Material................................................16
Bridge Plug...........................................................................3
Slips..........................................................................16
Plug Specifications...............................................................4
Express Series Setting Equipment........................17
Quality Assurance....................................................5
Performance Verification Data 5 ½" 10K 300 Degrees.....6-7
Baker No. 10 Setting Adapter Kit.......................................19
Performance Verification Data 7" 10K 300 Degrees.......8-10
Baker No. 20 Setting Adapter Kit.......................................20
Benefits...................................................................11
“GO” 3625 Setting Adapter Kit.........................................21
Baker No. 05 Setting Adapter Kit.......................................18
Multi-Configuration...........................................................11
Plug / Setting Tool Assembly.................................22
Plug Removal.....................................................................11
Running in Hole......................................................23
Plug Millout Returns..........................................................12
Plug Removal.....................................................24-25
Plug Millout Case History 1...................................13
Flow Control Completion Products.......................26
1
Express Series Composite Plugs
The Patent Pending Forum ProDrill Express Series Bridge and Frac
Plugs utilize a unique combination of proprietary composites to
provide a dependable, durable, and cost-efficient method for
temporary zone isolation during stage fracs in both vertical and
horizontal applications. Forum ProDrill Plugs are manufactured with
proprietary material that allows threading of multi-configuration
adapters in the inner mandrel (ID) making it a true fully internal
composite tool. No brass or aluminum conversion accessories are
required. Plugs are currently available for the following casing with
other sizes under development: 3 ½", 4 ½", 5", 5 ½", 7".
Multi-Configuration
• By utilizing simple accessories, a single composite plug can be
easily converted in the field from a Ball Drop Frac Plug to either a
Solid Bridge Plug or a Caged Ball Flowback Plug.
• Conversion is easily accomplished using a flathead screwdriver for
the Bridging Pin or wrench for the Caged Ball Adapter.
• With the exception of the spring and aluminum spring seat, there
is no other addition of metallic components needed to convert
the plugs.
• The Bridging Pin and Caged Ball Adapter housing are constructed
entirely from composite.
Material
• Materials used in construction are conducive to a wide range of
environments.
• No need for metallic material to be used in mandrel for burst/
collapse reinforcement.
• Ability to thread Bridging Pin / Caged Ball Adapter directly into
mandrel ID w/o utilizing brass/aluminum.
• No need for pins/bond to strengthen the bottom mandrel / shoe
connection.
Slips
• Traditional Gray Cast iron slips.
• Heat treated to wicker depth only.
• 50-60 HRC with a case depth of .040-.050".
• Holes drilled entirely through slip segments, which allows segment
to break into smaller pieces during millout.
• 3 ½" Plugs are set using Baker #5, 1 11/16" GO, and 2 1/8" GO
setting tools.
• 4 ½" Plugs are set using Baker #10, 3 5/8" GO Compact and 3
½" GO Shorty setting tools.
• 5" Plugs are set using Baker #10, 3 5/8" GO Compact and 3 ½"
Go shorty setting tools.
• 5 ½" Plugs are set using Baker #10, Baker #20, 3 5/8" GO
Compact and 3 ½" GO Shorty setting tools.
• 7" Plugs are set using Baker #20, 3 5/8" GO Compact and 3 ½"
GO Shorty setting tools.
Plug Removal
• Can be drilled using conventional or coiled tubing.
• Field proven typical drill times of 10-20 minutes or less.
• Sets securely in up to P110 casing.
• Cuttings easily circulate back to the surface.
• Cast Segmented Slips also available.
Plug Ratings
Running / Setting
• Compact and easy running.
• Running speeds of up to 300 feet per minute depending on well
conditions.
• Plugs are set using a universal setting sleeve and shear sleeve adapter.
2
• Simple, efficient method of attaching plug to setting tools.
• 3 ½" – Up to 10,000 PSI and 300 Degrees F.
• 4 ½" – Up to 10,000 PSI and 350 Degrees F.
• 5" – Up to 10,000 PSI and 300 Degrees F.
• 5 ½" – Up to 10,000 PSI and 350 Degrees F.
• 7" – Up to 10,000 PSI and 300 Degrees F.
Ball Drop Frac Plug
After the Ball Drop Frac Plug is set, the inner diameter remains open
• The Caged Ball Adapter provides a double O-Ring seal in the ID of
the mandrel.
thus allowing wireline operators to continue work above. A ball is
• ¾" Composite Ball is spring held on seat so while being RIH, fluid
then dropped from the surface and pumped down until it seats on
is bypassed around the plug and not through the ball seat. This
the tool. Once the ball is seated, the operator can pressure up against
helps maintain the credibility of the ball seat while being RIH.
the Frac Plug. The Shear Sleeve Adapter used to set the plugs is
designed so that the user can, if needed, run the Drop Ball “in place”
inside the Adapter. This gives the user the choice to utilize the plug as
• Once plug is set, ball prohibits pressure/fluid from above while
allowing pressure/fluid from below.
a Flow Back Plug without having to drop the ball from the surface.
• Caged Ball Adapter is easily installed/removed using a wrench.
• Utilizes a machined Composite Frac Ball with a Specific Gravity
Bridge Plug
of 1.9.
• While on seat, the ball is below the top of the plug in order to
reduce ball bearing effect during mill out.
The Express Series Bridge Plug is converted using a simple composite
“Bridging Pin” that is threaded into the mandrel while sealing in
the Inner Diameter. This plugged ID is drilled out before the top
slip, allowing the upper and lower zones to equalize during drill
Caged Ball Flowback Plug
out. Operating range listed in the specification table refers to the
The Express Series Caged Ball Frac utilizes a simple Ball / Cage Adapter
differential pressure rating from above. The differential pressure rating
that houses a ¾" composite ball in the upper ID of the plug. When
from below is 6,000 psi.
zonal pressure is greater from below the plug, the ball cage allows the
lower and upper zones to comingle. When zonal pressure is greater
from above, the ball seats thus isolating the zones.
• To convert a Ball Drop Frac plug for Flowback applications, a
composite Caged Ball Adapter is threaded into the ID of the top of
the mandrel.
• The Bridging Pin provides a double O-Ring seal in the ID of the
mandrel, thus blocking the flow from both above and below.
• Pin is drilled out before the top slip so that the zones equalize
before the slip is removed and released from the casing.
• Pin is easily installed/removed using a screwdriver.
3
Express Series Plug Specifications
CASING
CASING WT.
Min ID
Max ID
Tool O.D.
Tool ID
Drop Ball
Size
Caged Ball ID
Caged Ball
Size
Operating
Range
3 ½"
9.3-10.2#
2.827"
2.992"
2.725"
.625"
1.250"
.375"
.625"
10K, 300°F
4 ½"
15.1-17.1#
3.650"
3.826"
3.440"
.750"
1.688"
.500"
.750"
8K 275°F
10K 300°F
4 ½"
9.5-13.5#
3.826"
4.090"
3.609"
.750"
1.688"
.500"
.750"
6K 250°F
8K 275°F
10K 300°F
10K 350°F
5"
18-23.2#
3.919"
4.276"
3.688"
.750"
1.688"
.500"
.750"
10K 300°F
5 ½"
13-20#
4.580"
5.044"
4.425"
1.000"
2.000"
.500"
.750"
6K 250°F
8K 275°F
10K 300°F
10K 350°F
5 ½"
23-26#
4.423"
4.670"
4.188"
1.000"
2.000"
.500"
.750"
10K 300°F
7"
23-32#
5.830"
6.366"
5.635"
1.500"
2.250"
1.000"
1.250"
7"
17-23#
6.276"
6.538"
6.005"
1.500"
2.250"
1.000"
1.250"
Custom O.D.s available
Other sizes under development
4
8K 275°F
10K 300°F
8K 275°F
10K 300°F
Quality Assurance
At Forum Completion Products we understand that our plug design,
composite technology and quality directly correlate to the optimal
well completion. To ensure consistent reliability of our plugs we have
stringent quality assurance and testing procedures for all threaded
components on our plugs.
1% of all Critical Component Raw Material
Shear Tested to Destruction
Critical female threaded components
sectioned for visual inspection
100% Traceability of every critical
component of our plugs
100% Thread Gauging of every male and
female thread
Destructive Thread Testing of
1% of Critical Components
5
Performance Verification Data 5 ½" 10K
300 Degrees
The setting force required to set the plug was approximately 29,385
lbs. The plug was witnessed shearing in the test fixture inside the well
at 3,000 PSI on the calibrated gauges on pressure control manifold.
The curve in Figure 5b shows the setting action of the plug in
approximately 1 minute and 30 seconds.
0:10:51
0:10:21
0:09:52
0:09:22
0:08:52
0:08:23
0:07:53
0:07:24
0:06:54
0:06:24
0:05:55
0:05:25
0:04:56
0:04:26
0:03:56
0:03:27
0:02:57
0:02:28
0:01:58
0:01:28
0:00:59
Time
300
290
280
270
260
250
0:00:29
Temp in Deg °F
Temperature on Plug Sample A
During Set 7-29-13
Figure 5a
Setting Plug Sample A 7-29-13
Pressure (PSI)
3500
3000
2500
2000
1500
1000
500
Time
Figure 5b
6
0:00:08
0:00:16
0:00:25
0:00:33
0:00:42
0:00:50
0:00:58
0:01:07
0:01:15
0:01:24
0:01:32
0:01:40
0:01:49
0:01:57
0:02:06
0:02:14
0:02:22
0:02:31
0:02:39
0:02:46
0:02:56
0:03:04
0:03:13
0:03:21
0:03:30
0:03:38
0:03:46
0:03:55
0:04:03
0:04:12
0
2:07:35
2:01:47
1:55:59
1:50:11
1:44:23
1:38:35
1:32:47
1:26:59
1:21:11
1:15:23
1:09:35
1:03:47
0:57:59
0:52:11
0:46:23
0:40:35
0:34:47
0:28:59
0:23:11
0:17:23
0:11:35
0:05:47
310
305
300
295
290
285
280
275
Time
Temperature in Deg°F
Heat Up After Set on Plug Sample A
During Cycles 7-29-13
Figure 6a
2:08:41
2:03:55
1:59:09
1:54:23
1:49:37
1:44:51
1:40:05
1:35:19
1:30:33
1:25:47
1:21:01
1:16:15
1:11:29
1:06:43
1:01:57
0:57:11
0:52:25
0:47:39
0:42:53
0:38:07
0:33:21
0:28:35
0:23:49
0:19:03
0:14:17
0:09:31
0:04:45
14000
12000
10000
8000
6000
4000
2000
0
Time
Pressure (PSI)
Cycle at Temperature Above Plug Sample A
7-29-13
Figure 6b
Performance Verification Data 5 ½" 10K
300 Degrees
The 5 ½" - 20# - 10,000K composite plug successfully tested to
10,000 PSI and 300°F from annulus above. The plug was successfully
set with approximately 29,385 lbs. of force at 275°F and held 8,000
PSI from above for 5 minutes at 275°F. Once the plug successfully
completed the 8,000 PSI hold, temperature was increased while
maintaining 8,000 PSI above the plug. Once 300°F was reached,
pressure was increased to 10,000 PSI. Once this hold was completed,
pressure was increased to 11,000 PSI, and was held for 5 minutes.
Finally, continuous pressure was applied to the plug in attempt to
achieve a safety factor failure. This failure did occur at a pressure of
12,500 PSI from annulus above.
7
Temperature In Deg °F
Temperature On Plug During Set Test 2 5-29-12
270
260
250
240
230
220
1
35
69
103 137 171 205 239 273 307 341 375 409 443 477 511 545 579
Time in Minutes - 3.8 mins
Figure 7a
Setting Plug Test 2 5-29-12
Pressure (PSI)
5000
4000
3000
2000
1000
0
-1000
1
9
17
25
33
41
49
57
65
73
81
89
Time in Seconds - 48 secs
Figure 7b
Performance Verification Data 7"
10K 300 Degrees
The composite plug was lowered into the hot oil bath. The oil bath
had stabilized at 250°F (+/-10°). The plug was allowed to soak at
temperature for approximately 30 minutes. The temperature is
shown to be 250°F the last 1/3 of the curve, and that is when the
plug was set. (See Figure 7a)
The setting force in the plug was approximately 41,118 lbs. The plug
was witnessed shearing in the test fixture inside the well at 4,200 PSI
on the calibrated gauges on the pressure control manifold. The curve
on Fugure 7b shows the setting action of the plug. In the curve the
first two peaks indicate slips breaking between 1,000 and 2,000 PSI.
8
97
105
113
121
Temperature In Deg °F
Temperature On Plug During Cycles Test 2 5-29-12
350
300
250
200
1
166
331
496
661
826
991 1156 1321 1486 1651 1816 1981 2146
Time in Hours - 2.12 hrs
Figure 8a
1st Pressure Cycles Above Plug Test 2 5-29-12
Pressure (PSI)
12000
10000
8000
6000
4000
2000
0
-2000
1
136
271
406
541
676
811
946 1081 1216 1351 1486 1621 1756
Figure 8b
Performance Verification Data 7"
10K 300 Degrees
The curve in Figure 8a shows the temperatures being 245°F up to
307°F during the 1st pressure cycle above the bridge plug. The curve in
Figure 8b shows the observed results of the test with applied pressure
from above during the 1st pressure cycle @ 245°F up to 307°F.
9
+10K - +300F Pressure Dwell 5-29-12
12000
!!
!!
!!
8000
6000
4000
2000
0
-2000
!!
!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
Pressure (PSI)
10000
1
!
!!
98
195
292
389
486
583
680
777
874
971
1068 1165
Figure 9a
Performance Verification Data 7" 10K
300 Degrees
10
The plug was taken to the target testing pressure of 10K PSI, and
maintained a 3 minute pressure dwell at 244°F. Once the pressure
The plug was taken to 10,000 PSI and 250°F, as shown in the
dwell was completed the heating system was fired to increase
curve in Figure 8b. The plug maintained each pressure dwell of 3
temperature up to +300°F, while maintaining the 10K above
minutes up to the target testing pressure of 10K. After successfully
the plug during the heat up. In the curve above you can see as
completing the last 3 minute pressure hold at 10k and 250°F,
temperature rises the pressure was increasing, resulting in the need
pressure would be held at 10K and temperature was increased up
to bleed off pressure in increments of -500 PSI five times, in order
to 300°F. Pressure kept increasing during the heat up period, as it
to keep the testing pressure within the tolerance of the testing
did, pressure was bled off in increments of -500 PSI, to stay within
procedure requirements. Wireline Solutions decided to stop bleeding
the tolerances of the test procedure requirements during the 10K
pressure until pressure reached 11,000 PSI. At 11K the plug saw
pressure dwell. The curve on Figure 9a shows the observed results
temperatures up to 307°F, where after a hold time of 1.37 hours
of the test with applied pressure from above during the 10K – 11K
was reached, a failure occurred and pressure equalized between
pressure dwell @ 244°F up to 307°F.
annulus above and annulus below.
Multi-Configuration
• By utilizing simple accessories, a single composite plug can be
easily converted in the field from a Ball Drop Frac Plug to either a
Solid Bridge Plug or a Caged Ball Flowback Plug.
• This can be easily accomplished in the field using a flathead
screwdriver for the Bridging Pin or wrench for the Caged Ball
Adapter.
• With the exception of the spring and aluminum spring seat, there
is no other addition of metallic components needed to convert
the plugs.
• The Bridging Pin and Caged Ball Adapter housing are constructed
entirely from composite.
• No metal in mandrel ID whatsoever.
Plug Removal
• Plugs can be drilled using conventional or coiled tubing.
• Slips are hardened to wicker depth only for ease of drill out.
• Utilizes unique “Lug” design on the top and muleshoe bottom
ensuring that the plugs do not spin during drill out. Lug shoe
bottom also available on 4 ½" and 5 ½" Sizes.
• Field proven mill times of 10-20 minutes or less.
11
Plug Millout Returns
12
Plug Millout Case History 1
DATE: May 5, 2012
PLUG TYPE: 5 1/2" 10K Ball Drop Frac (ECFP-5500-002)
QUANTITY: 24
WELL DETAILS: 5 1/2" 17# Casing, Approximately 14,000’ ft with
7300’ lateral
B.H.T: 170 Degrees Fahrenheit
FRAC DETAILS: 100 bbls/minute at approximately 8,500 psi
MILL DETAILS: JZ Rock Bit w/ CT Agitator on 2" Coiled Tubing
Klbs
AVERAGE PLUG MILL TIME: 22 minutes
6
60
5
50
4
40
3
30
2
20
1
10
0
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
WOB (lbs)
2.5 2.5 1.5 2
Pump Rate (bpm)
2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 2.5 3
2 2.5 2.5 2.5 2.5 2.5 0.5 1 1.5 1
3
3
3
1
1
1
1
2
2
5
5
3
2
3
3
3 2.8 2.8 3
3
3
3
3
0
Mill out time (mins) 13 16 21 53 13 32 15 13 15 37 12 8 10 14 13 14 10 35 47 25 13 21 43 44
Plugs - 5.5 10K Ball Drop Frac (ECFP-5500-002)
13
Plug Millout Case History 2
PLUG TYPE: 5 1/2" 6K Bridge (ECBP-5500-000)
LOCATION: Permian Basin
WELL DETAILS: Vertical wells Milled w/ Coiled Tubing
14
#
Date
Casing
Grade
BHT
Fluid
Plug
Depth
Fluid
Level
Surface
PSI
Max Frac
Pressure
Mill
Date
Mill Type
Coil
WOB
RPM
Rotary/
Motor
Mill
Time
Fluid
Type
Fluid
Weight
Flow
Rate
Fwd/
Rev
1
03/08/12
5 1/2
N80
160
Slick
10,567
full
3100
4800
3-Apr
butterfly
2" CT
2500
383
Motor
7 min
fresh
8.33
2.5 bbls
fwd
2
03/08/12
5 1/2
N80
160
Slick
10,307
full
2700
4800
3-Apr
butterfly
2" CT
2500
383
Motor
12 min
fresh
8.33
2.5 bbls
fwd
3
03/08/12
5 1/2
N80
160
Slick
10162
full
2900
4800
3-Apr
butterfly
2" CT
2500
383
Motor
15 min
fresh
8.33
2.5 bbls
fwd
4
03/08/12
5 1/2
N80
160
Slick
9962
full
3000
4800
3-Apr
butterfly
2" CT
2500
383
Motor
7 min
fresh
8.33
2.5 bbls
fwd
5
03/09/12
5 1/2
N80
160
Slick
9587
full
2600
4500
3-Apr
butterfly
2" CT
2500
383
Motor
17 min
fresh
8.33
2.5 bbls
fwd
6
03/09/12
5 1/2
N80
160
Slick
9,372
full
2400
4200
3-Apr
butterfly
2" CT
2500
383
Motor
14 min
fresh
8.33
2.5 bbls
fwd
7
03/09/12
5 1/2
N80
160
Slick
9177
full
2100
4200
3-Apr
butterfly
2" CT
2500
383
Motor
8 min
fresh
8.33
2.5 bbls
fwd
1
04/18/12
5 1/2
N80
160
Slick
9540
full
4300
4800
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
2
04/18/12
5 1/2
N80
160
Slick
9270
full
4000
4800
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
3
04/18/12
5 1/2
N80
160
Slick
9080
full
3780
4800
26-Apr
butterfly
2" CT
2500
425
Motor
2 min
fresh
8.33
3 bbls
fwd
4
04/19/12
5 1/2
N80
160
Slick
8690
full
3500
4500
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
5
04/19/12
5 1/2
N80
160
Slick
8502
full
3200
4500
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
6
04/19/12
5 1/2
N80
160
Slick
8175
full
2700
4100
26-Apr
butterfly
2" CT
2500
425
Motor
4 min
fresh
8.33
3 bbls
fwd
7
04/19/12
5 1/2
N80
160
Slick
7900
full
2400
4200
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
8
04/19/12
5 1/2
N80
160
Slick
7,670
full
2100
3500
26-Apr
butterfly
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
9
04/20/12
5 1/2
N80
160
Slick
7,422
full
1800
3500
26-Apr
butterfly
2" CT
2500
425
Motor
2 min
fresh
8.33
3 bbls
fwd
10
04/20/12
5 1/2
N80
160
Slick
7190
full
1700
3500
26-Apr
butterfly
2" CT
2500
425
Motor
4 min
fresh
8.33
3 bbls
fwd
11
04/20/12
5 1/2
N80
160
Slick
6700
full
1200
3500
26-Apr
butterfly
2" CT
2500
425
Motor
2 min
fresh
8.33
3 bbls
fwd
1
04/30/12
5 1/2
N80
160
Slick
10322
full
4000
4800
7-May
roller cone
2" CT
2500
425
Motor
10 min
fresh
8.33
3 bbls
fwd
2
04/30/12
5 1/2
N80
160
Slick
10117
full
3400
4800
7-May
roller cone
2" CT
2500
425
Motor
8 min
fresh
8.33
3 bbls
fwd
3
04/30/12
5 1/2
N80
160
Slick
9927
full
3500
4500
7-May
roller cone
2" CT
2500
425
Motor
21 min
fresh
8.33
3 bbls
fwd
4
04/30/12
5 1/2
N80
160
Slick
9467
full
3400
4500
7-May
roller cone
2" CT
2500
425
Motor
7 min
fresh
8.33
3 bbls
fwd
5
04/30/12
5 1/2
N80
160
Slick
9307
full
3300
4500
7-May
roller cone
2" CT
2500
425
Motor
10 min
fresh
8.33
3 bbls
fwd
6
04/30/12
5 1/2
N80
160
Slick
9127
full
3600
4500
7-May
roller cone
2" CT
2500
425
Motor
11 min
fresh
8.33
3 bbls
fwd
7
04/30/12
5 1/2
N80
160
Slick
8937
full
3200
4500
7-May
roller cone
2" CT
2500
425
Motor
7 min
fresh
8.33
3 bbls
fwd
8
05/01/12
5 1/2
N80
160
Slick
8717
full
2500
3500
7-May
roller cone
2" CT
2500
425
Motor
8 min
fresh
8.33
3 bbls
fwd
9
05/01/12
5 1/2
N80
160
Slick
8462
full
2000
3500
7-May
roller cone
2" CT
2500
425
Motor
17 min
fresh
8.33
3 bbls
fwd
10
05/01/12
5 1/2
N80
160
Slick
8091
full
1050
3200
7-May
roller cone
2" CT
2500
425
Motor
10 min
fresh
8.33
3 bbls
fwd
1
04/17/12
5 1/2
N80
160
Slick
10177
full
3900
4800
8-May
roller cone
2" CT
2500
425
Motor
5 min
fresh
8.33
3 bbls
fwd
2
04/17/12
5 1/2
N80
160
Slick
9977
full
3700
4800
8-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
3
04/18/12
5 1/2
N80
160
Slick
9817
full
2600
4500
8-May
roller cone
2" CT
2500
425
Motor
4 min
fresh
8.33
3 bbls
fwd
4
04/18/12
5 1/2
N80
160
Slick
9657
full
2600
4500
8-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
5
04/18/12
5 1/2
N80
160
Slick
9477
full
2800
4500
8-May
roller cone
2" CT
2500
425
Motor
5 min
fresh
8.33
3 bbls
fwd
6
04/18/12
5 1/2
N80
160
Slick
9047
full
2500
4500
8-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
7
04/18/12
5 1/2
N80
160
Slick
8877
full
1900
4200
8-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
8
04/18/12
5 1/2
N80
160
Slick
8727
full
2200
3500
8-May
roller cone
2" CT
2500
425
Motor
2 min
fresh
8.33
3 bbls
fwd
9
04/19/12
5 1/2
N80
160
Slick
8562
full
1900
3500
8-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
1
04/10/12
5 1/2
N80
160
Slick
8410
full
3100
4500
3-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
2
04/10/12
5 1/2
N80
160
Slick
8200
full
2800
4500
3-May
roller cone
2" CT
2500
425
Motor
4 min
fresh
8.33
3 bbls
fwd
3
04/10/12
5 1/2
N80
160
Slick
8035
full
2500
4200
3-May
roller cone
2" CT
2500
425
Motor
3 min
fresh
8.33
3 bbls
fwd
Plug Millout Case History 3
Well Name: Blackstone McMahon B28 #1H
County: San Augustine
Work String: 2" CT
Motor Type: NOV
Motor Size: 2.875"
Fluid Type: Fresh
BHT: 225 Degrees °F
DATE
TIME
01/31/14
0600
1700
1720
1730
1745
1800
2200
0035
0048
0107
0122
0202
0212
0242
0300
0335
0420
0517
0541
0120
0631
0657
0710
0752
0835
0847
0920
1110
1150
1301
1307
1319
1334
1353
1408
1422
1730
1735
1743
1757
1857
1903
1931
1
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
3.5
1800
1800
1800
1800
1900
1850
1900
1850
1850
1850
1850
1800
1800
1600
1600
1800
1800
1700
1800
1800
1800
1800
1500
1600
1600
1600
1500
1600
1600
1600
4100
4100
4100
4100
4200
4200
4400
4400
4400
4000
4250
4250
4400
4400
4130
4150
3900
4200
4100
4100
4000
3900
4000
3900
4000
3800
3900
3900
4200
2.5
2.5
2.5
2.5
2.5
2.5
3.5
3.5
3.5
3.5
3.5
3.5
1500
1500
1500
1500
1550
1500
3700
3700
3900
4200
4200
4200
0015
1.75
1.75
1500
3200
0021
0330
0500
0510
2.5
02/01/14
02/01/14
02/02/14
0520
0900
1735
1900
PUMP RATE
RETURN RATE
WELL PSI
2
PUMP PSI
2700
2600
COMMENTS
Standby, waiting for frac to move out & ctu move in rig up
put on etc and pull test to 20 & 25k , load coil, drf ted ctc, dual
flapper & jars with 15/16" ball, drifted disconnect with ¾" ball
AOL relieve Heath
MU BHA, test BHA to 2bpm CP 2700psi
Rigging up riser to BOP. remove BOP mill will not pass. (pressure lock) during BOP tes
Open well, RJH
Tag plug #1 @ 9572ft.
Plug #1 gone 13min. Plug 5bbl gel sweep
Tag plug #2 @ 10054ft.
Plug #2 gone 15min. Plug 5bbl gel sweep
Tag #3 @ 10355ft.
Plug #3 gone 10min. Plug 5bbl gel sweep
Tag plug #4 @10827ft
Plug #4 gone 18min. Plug 20bbl gel sweep
Tag plug #5 @ 11071ft short trip to 7800ft.
RIH
Tag plug #5@ 11071ft
plug 5 gone, 5 bbl sweep (24 minutes)
11312 tag plug 6
plug 6 gone! 5 bbl sweep (11 minutes)
11502 tag plug 7
plug 7 gone, 20 bbl sweep (13 minutes)
11764 tag plug 8, SIT
10135 pulling trash~ithout motor action, rih 1 oo·
10135 pump 10 bbl sweep
9996 hole sUII trashy. pump 80 vis sweep
7200 top of SlT eire bottoms up from here
rih
10758 tag plug 8
plug 8 gone, 5 bbl sweep (6 minutes)
12045 tag plug 9
plug 9 gone, 10 bbl sweef? {15 minutes)
12319 tag plug 10
plug 10 gone, 20 bbl sweep (15 minutes)
tag plug 11, S/T
AOL relieve Heath
RIH
Tag plug #11 @ 12600ft
Plug #11 gone 24m in plug bbl gel sweep 24 minutes
Tag plug #12 @ 13017ft
Plug #12 gone 6min plug 5bbl gel sweep 6 minutes
Believe we tagged #13 changed rates, milling methods 3X gel sweeps no progress
Company Man Cal S. wants to POOH check BHA/mill 4hrs w no progress trying different milling
methods, CP rates, coil tubing speeds, may be spinning on plug slips or mill worn on RDV.
POOH
At surface
MU coH co,nnector pull test 25K then 20K
Test BHA
Heath aol, looked at bit and job logs and WBD and determined we had been
milling on the initiator sleeve, had conference call with Cal & Lex & all
agreed drill out was complete & we would go ahead & run the packet
rih with packer, providing coil connevtor and back pressure valve
ooh
leave location
15
Composite Material
Slips
• Materials used in construction conducive to a wide range of
• Traditional Gray Cast iron slips.
environments.
• No need for metallic material to be used in mandrel for burst/
collapse reinforcement.
• Ability to thread Bridging Pin / Caged Ball Adapter directly into
mandrel ID w/o utilizing brass/aluminum.
• High Thread Strength.
• No need for pins/bond to strengthen the bottom mandrel / shoe
connection.
16
• Heat treated to wicker depth only.
• 50-60 HRC with a case depth of .040-.050".
• Holes drilled entirely through slip segments, which allows segment
to break into smaller pieces during millout.
• Sets securely in up to P110 casing.
• Cast Segmented Slips also available.
Express Series Setting Equipment
Express Series Plugs are set using a rugged and durable universal
Setting Sleeve and Shear Sleeve Adapter. Setting kits are designed
to be run on any wireline setting tool or tubing run hydraulic setting
tool with either Baker #10, Baker #20 or 3 ½" G.O. connections.
• The Shear Sleeve Adapter is placed over the top of the plug
and secured using steel shear screws while the Setting Sleeve is
installed over the Shear Adapter.
• The Setting Assembly utilizes an Adjuster Nut that mates the
directly to the setting tool. The Setting Sleeve is allowed to be
threaded upwards past the Adjuster Nut and secured onto the
setting tool.
Non-Preset Feature
• Each Setting Sleeve has drilled and tapped holes (Fig. A)
that when made up on the Setting Tool, line up with the
shear groove on the O.D. of the Shear Adapter (Fig. B).
• Two provided Brass screws (1,800 lbs shear ea.), can be
installed in the holes on the Setting Sleeve until they
bottom out in the shear groove on the Shear Adapter.
• This feature prohibits the Setting Sleeve from moving
downward and applying force on the plug, which can result
in a plug pre-set, as the two brass shear screws have to be
sheared before the Sleeve can begin downward motion.
B
A
Setting Shear Pins
• Steel setting pins with a shear value of 4,600# min – 4,700# max,
are used to set plugs sized 4 ½" and larger.
4 ½" – 6 pins
5" – 7 pins
5 ½" – 7 pins
7" - 10 pins
• Brass setting pins with a shear value of 1200# are used for 3 ½"
(5 pins) and smaller sized plugs.
• Setting pins are used so that the ID is left open and available for
plug conversion.
17
1
2
3
5
4
BAKER No. 05 E-4 W.L.P.S.A.
Baker No. 05 Setting Adapter Kit
Tool Size - 3 ½" x 9.3-10.2#
Wireline Adapter Kit EWST-3500
18
Item
Qty
Description
Part Number
1
1
Adjuster Bushing
EWST-3500-BK05-185
2
2
Socket Set Screw
¼-20 X ¼ lg
3
1
Setting Sleeve
EWST-3500-BK05-180
4
1
Shear Sleeve
EWST-3500-BK05-175
5
5
Shear Screw
ECFP-3500-080
1
3
2
4
5
6
7
8
9
No. 10 E-4 W.L.P.S.A.
Baker No. 10 Setting Adapter Kit
Tool Size
Setting Kit
4 ½" x 15.1-17.1#
4 ½" x 9.5-15.1#
5" X 18-23.2#
5 ½" x 13-23#
EWST-4400
EWST-4500
EWST-5100
EWST-5500
Item
Qty
Description
Part Number
Part Number
Part Number
Part Number
1
1
Adjuster Bushing
EWST-BK10-179
EWST-BK10-179
EWST-BK10-179
EWST-BK10-205
2
1
Socket Set Screw
¼-20 X 3/16 lg
¼-20 X 3/16 lg
¼-20 X 3/16 LG
¼-20 X .31 lg
3
2
Socket Set Screw
¼-20 x .31 lg
¼-20 x .31 lg
3/8-24 X .31 LG
3/8-16 x .31 lg
4
1
Setting Sleeve
EWST-44BK10-181
EWST-BK10-181
EWST-5BK10-181
EWST-BK20-205
5
1
Extension Rod
NOT REQUIRED
NOT REQUIRED
NOT REQUIRED
EWST-BK10-207
6
1
Lock Spring
ECFP-BK10-000
ECFP-BK10-000
ECFP-BK10-000
ECFP-BK10-000
7
2
Non-Preset Screw
054-5360-123
054-5360-123
054-5360-123
054-5360-123
8
1
Shear Sleeve
EWST-44BK10-180
EWST-BK10-180
EWST-5BK10-180
EWST-BK10-203
9
Noted
Shear Screw
ECFP-5500-028 (6)
ECFP-5500-028 (6)
ECFP-5500-028 (7)
ECFP-5500-028 (7)
19
1
2
3
4
5
6
7
8
9
10
BAKER No. 20 E-4 W .L.P .S.A.
20
Tool Size
5 ½" x 13-23#
7" x 23-32# & 7" x 17-23#
Setting Kit
EWST-5500
EWST-7000
Item
Qty
Description
Part Number
Part Number
1
1
Socket Set Screw
¼-20 x 3/16 lg
¼-20 x 3/16 lg
2
2
Socket Set Screw
3/8-16 x .31 lg
3/8-16 x .31 lg
3
1
Adjuster Bushing
EWST-BK20-208
EWST-BK20-218
4
1
Socket Set Screw
3/8-16 x .38 lg
3/8-16 x .38 lg
5
1
Setting Sleeve
EWST-BK20-205
EWST-BK20-220
6
1
Adjuster Sub
0660020035
0660020035
7
1
Lock Spring
ECFP-BK20-000
ECFP-BK20-000
8
4
Non-Preset Screw
054-5360-123
054-5360-123
9
1
Shear Sleeve
EWST-BK20-202
EWST-BK20-215
10
Noted
Shear Screw
ECFP-5500-028 (7)
ECFP-5500-028 (10)
1
2
3
4
5
6
7
8
No. 10 E-4 W .L.P .S.A.
“GO” 3625 Setting Adapter Kit
Tool Size
3 ½" x 9.3-10.2#
4 ½" X 9.513.5#
5" X 18.23.2#
5 ½" X 13-23#
7" X 23-32# &
7" X 17-23#
Setting Kit
EWST-3500
EWST-4500
EWST-5100
EWST-5500
EWST-7000
Item
Qty
Description
Part Number
Part Number
Part Number
Part Number
Part Number
1
Noted
Socket Set
Screw
¼-20 x 5/16 lg (1)
¼-20 x 5/16 lg (1)
¼ x 5/16 lg
¼-20 x 3/16 lg (2)
¼-20 x .38 lg (2)
2
2
Socket Set
Screw
3/8-16 x 5/16 lg
3/8-16 x 5/16 lg
3/8-16 x 5/16 lg
3/8-16 x 5/16 lg
3/8-16 x 5/16 lg
3
1
Adjuster
Bushing
EWST-3500-1687-185
Not Required
NOT REQUIRED
EWST-3625-189
EWST-7-3625-222
4
1
Setting
Sleeve
EWST-3500-1687-180
EWST-3625-181
EWST-5HW-3625-181
EWST-3625-186
EWST-BK20-220
5
1
Jam Nut
052-5303-019
052-5303-019
052-5303-019
052-5303-019
052-5303-019
6
1
Shear Sleeve
EWST-3500-1687-175
EWST-3625-190
EWST-3625-180
EWST-7-3625-224
7
2
Non-Preset
Screw
054-5360-123
054-5360-123
054-5360-123
054-5360-123
054-5360-123
8
Noted
Shear Screw
ECFP-3500-080(5)
ECFP-5500-028(6)
ECFP-5500-028(7)
ECFP-5500-028(7)
ECFP-5500-028(10)
21
Plug / Setting Tool Assembly
Plug / Setting Tool Inspection
used on the 4.5). Make sure pins are made up tight into the plug
• Confirm plug is appropriate and qualified for the particular casing
and Shear Sleeve Adapter.
weight and ID of the well.
• Confirm that the correct setting tool and setting equipment are
being utilized and all is in working order. Setting tools should
• Fix appropriate Tension Spring or “GO” Lock Nut onto the Shear
Sleeve Adapter.
• Thread the Shear Sleeve Adapter into the Setting Tool (or Adjuster
be cleaned and maintained according to the manufacturers
Sub/Donkey Tail) of the Setting Tool until approximately 3 threads
instructions. When in doubt, do not use a setting tool with
are left.
questionable working order.
• Use only ProDrill setting kits. Do not attempt to set Express Series
plugs using another manufacturers setting kits.
• Visually inspect the composite plug to verify that all components
• At this point, the Setting Sleeve should be approximately .100.200 from the top of the top slip of the plug. Install and secure
the Setting Sleeve into the OD groove of the Shear Sleeve Adapter
using two of the provided Brass Shear Screws. It is recommended
are in working order and show no signs of cracks, punctures, or
that two of these screws are used. Shear value of each screw is
other damage.
approximately 1,800 lbs.
• If there is a gap in the Setting Tool between the Lock Ring and the
Plug / Setting Tool Makeup
Crosslink Sleeve, thread the Setting Sleeve down turning to the left
• Thread the Sleeve Adjuster Nut, which is already made up and
until the gap closes.
secured onto the Setting Sleeve, onto the Crosslink (Bottom) of the
Setting Tool. Using the pre-installed ¼-20 Set Screw, secure the
Sleeve Adjuster Nut onto the Setting Tool.
• If using a #20 Setting Tool, thread the Adjuster Sub (Donkey Tail)
onto the Setting Mandrel of the Setting Tool if there is not one
already installed. If using #10 or 3.5 “GO”, proceed to the next
step.
• Place the appropriate Shear Sleeve Adapter onto the plug and
secure with the provided shear pins (7 pins used on the 5.5 / 6 pins
22
• Plug is ready to run.
Running in Hole
• Casing should be cemented and removed of scale by use of a
casing scraper prior to running composite plugs.
• A gauge ring should be utilized to confirm that the casing ID is
large enough for the appropriate plug to be run.
• Do not rest the tool string weight on the plug and make sure plug
is aligned with the setting tool during installation.
• Use standard or fast burning power charges.Slow burning power
charges are not recommended.
• Thoroughly flush the wellbore of sand at the appropriate setting
depth and wait three to four hours after fracturing before running
the next plug.
• Never set a plug in a casing collar.
• Do not set plugs with 25 feet of the target perforation zone.
Running in Hole – Wireline in a Vertical Well
• A running speed of 150-175 FPM or less is recommended until
the fluid level is reached to avoid risk of pre-setting the plug when
reaching fluid or sand.
• After the fluid level has been reached, a running speed of 250300 FPM or less is recommended. Once the setting tool has been
fired, wait 60-90 seconds to ensure that the plug is fully set.
• Note: If plug is configured as a Ball Drop Frac Plug, resting the
Running in Hole – Wireline in a Horizontal Well
• A running speed of 150-175 FPM or less is recommended until
the fluid level is reached to avoid risk of pre-setting the plug
when reaching fluid or sand.
• After the fluid level has been reached, a running speed of 250300 FPM or less is recommended.
• If extreme areas of deviation, restrictions, or areas of concern are
present, adjust run speed accordingly.
• While approaching the kick off point, decrease the run speed to
approximately 125-150 FPM.
• Begin pumping fluid at 1-2 barrels per minute.
• As the deviation become greater, gradually increase the fluid
pump rate at no more than 2 BPM increments.
• It is recommended to not exceed a pump rate of 15 BPM or run
speed of 300 FPM.
• At approximately 250-300ft from the desired set depth, slow run
speed to approximately 100 FPM in order to release slack from
the line.
• Once the setting tool has been fired, wait 60-90 seconds to
ensure that the plug is fully set.
• Note: If plug is configured as a Ball Drop Frac Plug, resting the
bottom hole assembly or tagging the plug may cause damage to
bottom hole assembly or tagging the plug may cause damage to
the ball seat at the top of the plug.
the ball seat at the top of the plug.
23
Plug Removal:
• Bits/Mills - Many styles of bits and mills can be used to remove
the ProDrill plug. The most common are the 5 Blade Junk Mill,
Butterfly Mill, Flat Bottom Mill, and the Tri-Cone Rock Bit. The
flat bottom mill will provide the smallest returns but at a cost of
a bit trip after approximately 10-12 plugs. The other bits/mills
mentioned will provide more longevity.
• The mill/bit should have a minimum shank length of four inches
with a fishable diameter within the tubing being used. For a
bladed junk mill, an inward tapered mill will reduce the possibility
of damaging the casing and it should have one blade that extends
across the face of the mill approximately 70% to minimize coring
of the plug.
• Recommended O.D. of bit/mill is at least 90% of the casing ID
Using a smaller O.D. will increase the possibility of sticking pipe or
coring the plug.
choice in most cases. If drilling under balance, ensure a float is
installed in the bit sub.
• Use of drill collars for weight and centralization is recommended.
• Run in hole with the drill assembly to a depth approximately
30-35’ above the plug, pick up the power swivel and make up
circulating equipment. If conventional circulation and under
balance method are used, ensure a screen is installed in the pump
line to prevent debris from being pumped down and clogging up
the bit. Establish circulation to ensure fluid or foam/air has been
pumped to the bit before moving down to the plug.
• Start Rotation with the power swivel, and make sure torque is
properly set to the recommend range of 50-150 RPM. If operating
in deviated wells, a lower RPM range of 60-80 RPM’s may be all
that is available due to increased drag and torque. With safety
in mind, rotate the pipe as fast as torque and weight limits will
allow.
• Once rotation and circulation are established, slowly lower tubing
to contact the plug. A pump rate of .5 - 3bbl/m is recommended
24
Jointed Pipe General Practices
if returns are possible. A junk basket is recommended to
• Make up the proper size bit or mill on a bit release sub or
if circulation cannot be achieved. Maintain approximately 1000
prevent large cuttings from settling on the plug during drilling
standard bit sub. A medium tooth roller bearing bit that is at least
to 4000-lb. weight on bit. Observe weight indicator and torque
92-95% of casing drift diameter provides the quickest drill time
gauge and adjust weight on bit according to drill off. If swivel
in standard reverse units or snubbing operations and is the bit of
stalls, pick up on tubing string to allow the tubing to rotate freely,
lower the tubing and engage the plug again. Repeat these steps
motor size. The weight on bit should only be increased if rotation
until the composite plug is drilled and tubing can be lowered
starts to occur.
without turning the swivel. Drill rates will vary according to weight
on bit, circulation rates, velocity around the bit, or bit tracking.
If torque reading indicates bit tracking, raising and lowering the
pipe while rotating will change the cutting area.
• When the bit reaches the rubber elements a decrease in weight
• The flow rate should be between 2–3 bbl./min depending on
motor size.
• Establish flow rate before making contact with the plug. Start
milling using minimum to mid-range flow rate. Higher flow rates
tend to hydraulically lift the milling assembly off of the plug. More
on bit may be needed to reduce excessive torque. This will allow
weight on bit can correct this. The weight on bit will fluctuate so
the element to be drilled into smaller pieces instead of tearing the
try to keep differential pressure reading constant.
rubber into large pieces.
• If drilling multiple plugs, allow circulations of at least one tubing
• If plug stops milling at a constant rate, pick up off of plug and
set back down weight to establish new cutting pattern on plug.
volume after drill out of each plug before beginning drill out of
Proceed slowly through the first twelve inches to allow the
next plug. This will allow bit clean up and ensure fluid mixture is
pressure to equalize. There may be a drastic difference in pressure
at the bit before continuing drilling operations. After drill up of
above and below the plug.
a plug, move up hole 30-100’ and use a gel sweep to circulate
debris from bit and wellbore.
• When drilling multiple plugs, circulate at least the volume of
tubing between plugs to allow clean up and establish good fluid
at bit before drilling next plug.
Coiled Tubing General Practices
• Motor RPM should be in the 250–600 range based on motor
size although the motor company should be consulted on topics
regarding motor speed.
• Weight on bit should be between 1500–3000lbs depending on
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Flow Control Completion Products
• Tubing Mounted Flow Control Equipment is made up and run in
conjunction with the completion packer system. The equipment
is part of the completion string and is considered packer system
accessories.
• Tubing Mounted Flow Control Equipment serves two purposes:
– A receptacle for Flow Control accessories
– To provide communication between the tubing and casing
zone
• To provide communication between the tubing and casing zone
• Specialized alloys and premium threads available upon request.
• Flow Control Equipment Available:
– Landing Nipples
– Circulating Sleeves
– T-2 On/Off Tools
– Pump Out Plugs
– Wireline Re-Entry Guides
– Bypass Blanking Plugs
– Equalizing Check Valves
– Crossovers
– Shear Out Safety Joints
– Wireline Service Tools
Our goal is to become the leading provider of mission critical oilfield products and related
services in terms of customer satisfaction, safety and financial performance.
Our experienced management team and employees are dedicated to solving our
customers’ problems. We invest in long term relationships and cooperate on product
development with our clients, we consider them our partners.
OUR CORE VALUES
Integrity: In everything we do, in every interaction, both internally
and externally, we strive to operate with the upmost integrity and
mutual respect.
Long-term view: We are building our company for the long-term,
a company that we can be proud of.
Open communication: We believe partnerships with our customers
and co-workers must be based on trust, professionalism and
transparency.
Customer focused: Our products enhance our customer’s
performance and we listen to their needs and work with them to
solve their challenges.
Good place to work: We are committed to creating a workplace
that fosters innovation, teamwork and pride. Every team member is
integral to our success and is treated equally and fairly.
No one gets hurt: The safety of our employees and customers is
our first priority coupled with a healthy respect for the environment.
Downhole Technologies Headquarters
10344 Sam Houston Park Drive, Suite 300
Houston, TX 77064
713.351.7900
f-e-t.com / Downhole
DWN 1008
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