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InFlow Control Devices and InFlow/Interval Control Valves working together on the Troll Field Frank Eriksen – Intelligent Production Systems IPS Baker Hughes - Norway Geomarket SPE Smart Energy – Aberdeen June 10th. 2009

InFlow Control Devices InFlow Interval Control Valves Troll Field - IPS BH

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Page 1: InFlow Control Devices InFlow Interval Control Valves Troll Field - IPS BH

InFlow Control Devices and InFlow/Interval Control Valves working together on the Troll Field

Frank Eriksen – Intelligent Production Systems IPS Baker Hughes - Norway Geomarket

SPE Smart Energy – Aberdeen June 10th. 2009

Page 2: InFlow Control Devices InFlow Interval Control Valves Troll Field - IPS BH

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Content  Abstract / Introduction to the Troll Field  Challenges  Technical solutions  Production optimalization results   Installation update

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3

Troll

UK

60°45’

3°40’

Troll Field - History   Since the early days of the Troll field

in mid 1990’s, long horizontal completions have been the norm. In some wells up to 13 500 meters of reservoir contact has been achieved.

  The last decade has seen the introduction of newer technologies like Multilaterals, Inflow Control Devices (ICD) and Inflow Control Valves (ICV).

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Challenges – Decreasing Control Lines, Increasing Functionallity

 Valve Design – Reliability – Functionallity

 Requirement for increased number of zones – Limited number of control lines available – Stretching the limits / thinking ”outside the box”

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Hydraulic valve (ICV) priciples

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The “2 x 1” architecture provides operation of 2 downhole control valves with 1 tubing hanger penetration (2 valves x 1 penetration). The system is designed with a single control line attached from surface to the Baker Oil Tools Single Line Switch (SLS). The open and close lines of the upper valve are connected to the SLS. The close port of the lower valve is connected to the close port of the upper valve and the open port of the lower valve is connected to the open circuit of the upper valve by use of a “Y-Block”.

Hydraulic Control Lines Required for Remote Flow Control Valve operation

Hydraulic Tubing Hanger Penetrations 1

Number of Packer Penetrations 1

Number of control lines 1

Functionality Synchronized valve movement

Technical Solution for 1 available control line

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Technical Solution for 2 available control lines

Hydraulic Control Lines Required for Remote Flow Control Valve operation

Hydraulic Tubing Hanger Penetrations 2

Number of Packer Penetrations 2

Number of control lines 2

Functionality Independent Control

The “2 x 2” architecture provides operation of 2 downhole control valves with 2 tubing hanger penetrations (2 valves x 2 penetrations). The system is designed where a control line is attached to the close port of the upper valve and is shared with the close port of the lower valve. Additionally, the control line that is attached to the open port of the upper valve is shared with the open port of the lower valve by use of a “Y-Block.”

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Technical Solution - Logic Table Troll Pos No.: 1 2 3 2 4 2 7 2 8 2 9 2 10 2

Upper Valve Home Position = 100% Open

Lower Valve Home Position = 100% open

1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 - Up Dwn Up Dwn Up Dwn Up Dwn Up Dwn Up Dwn Up Dwn

Close 100% 27.1% 100% 27.1% 100% 27.1% 100% 2% 100% 5% 100% Close 100% Close

1

-

Close

2

Up

100%

3

Dwn

2%

4

Up

100%

5

Dwn

5%

6

Up

100%

7

Dwn

Close

8

Up

100%

9

Dwn

27.1%

10

Up

100%

11

Dwn

27.1%

12

Up

100%

13

Dwn

27.1%

14

Up

100%

1

Dwn

Close

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Troll Completion Schematic

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Production optimalization results  Valve operation frequency? The flow control valves are operated at varying intervals. The purpose of operating the valves can be well testing, production

optimization or preventive maintenance. Well tests of individual branches are carried out every six months and for some wells more frequently. Flow Control valves

are operated to open/close/choke branches to optimise production based on well test results.

 Optimized production? A major benefit is that a bad producing branch (high GOR and/or high water cut) can be choked/closed allowing the other

branch to produce better and therefore increase production.

 Benifits of IWS completions on Troll? Flow Control Valves are considered an important tool in production optimization at Troll and therefore all multilateral wells

are planned with such valves. Huge benefits are seen both at the clean up stage and thoughout the lifetime of the well

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Installation update  The IWS technology is here to stay.

For new project developments this technology is more the rule than the exception.

 Baker Hughes Norway has to date 34 IWS installations in the North Sea since year 2000, 8 of which have been on the Troll Field. With 90 zones remotely operated, 88,89% are still in operation.

Page 12: InFlow Control Devices InFlow Interval Control Valves Troll Field - IPS BH

InFlow Control Devices and InFlow Control Valves working together on the Troll Field

Frank Eriksen – IPS Baker Hughes - Norway Geomarket

SPE Smart Energy – Aberdeen June 10th. 2009

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