cost impact, X field artificial lift strategy was agreed and initiated by pilot
phase before going for full field implementation. A total of 4 candidate wells were selected to
implement two artificial lift systems namely; ESP and Gas Lift systems.
were installed in two wells (I-10 and I-15). In 2012 and Gas Lift systems were
installed in 2 wells (II-6 & II-9) in 2014 based on the following criteria:
Well Location – Utilizing existing X field gas
injection network for Gas Lift and existing overhead lines for ESP.
Well Integrity – Operating pressure should not
exceed 80% of the MAASP
Different Reservoir Pressures and wells
All the wells are inactive due to water
breakthrough from the injectors.The
reservoir study for the X field showed that, by implementing of artificial lift
strategy will increase oil recovery and extend the field oil production
plateau. In addition, the project has to meet the following objectives:·
Recover bypassed oil due to water breakthrough.·
Reduce the number of inactive wells due to high
water cut and improve well performance.
Extend high water cut wells ‘running life.X Field
gas lift completions consist of 3-1/2″ tubing completion, equipped with side
pocket mandrels with 1-1/2″ IPO gas lift valves. The production casing is a
combination of 9-5/8″ from surface, follow by 7″ liner and 6″ open hole. In
some cases, 7″ tie-back to surface is utilized if the integrity of 9-5/8″
casing is doubtful. The threads of both tubing and casing must be gas tight.
These wells (II- 6 & II- 9) were commissioned in Jan 2014; as per Figure-9.
Considering that the wells have high GOR and will be producing below bubble
point pressure, gas handlers were installed in all the ESP strings. This is to
handle the free gas that will be produced. In order to have access to the
reservoir, Y-tool is necessary in 9-5/8″ casing completion but not desirable
for 7″ casing due to less clearance and the ESP will be even smaller.
Therefore, reservoir accessibility will be an issue for well completed with 7″
casing. These ESP wells were commissioned in 2014/2015 (I-10 & I-15).The ESP
completion was installed and commissioned in March 2012 in (Zone – I). This
well was producing about 1,700 bopd against a target of 700 bopd at water cut
of 70%. The ESP had a motor failure in April 2013 due to human error. The
cumulative oil production by ESP was about 22,000 bbls and the production
testing results as in figure-10.The ESP completion was
installed and commissioned in April 2012 in (zone – I). This well was producing
about 2,000 bopd against a target of 700 bopd at water cut of 75%. The ESP
failed in Jan 2013 due to electrical failure. The cumulative oil production by
ESP was about 18,000 bbls and the production testing results as in figure-11.The gas
lift system was also installed in 2012 to produce from (Zone – II). It was
commissioned in Jan 2014 with an average rate = 800 BOPD, 80% WC. The well is
currently shut-in due to high GOR constraint at the surface facilities.
Well II – 9
Lift system was installed 2012 to produce from (Zone – II). It was shut-in
during commissioning in 2014 due to SAP-B. In 2015, alternative solutions were
explored to revive the well, but they were abandoned due well integrity/ safety
For the ESP pilot stage to be completed the
failed ESPs must be retrieved from the wells and a detailed failure analysis
has to be carried out on them. The outcome of the analysis will help to make
any required changes such as equipment metallurgy or installation procedure
that will improve future installations.
Chemical injection skids should be activated
Well completions must have provision for
All ESP wells must be completed with an annular
packer that has a minimum temperature rating of 300oF
No gassy effect was observed during the
operation of the ESP due to installed gas handler (Poseidon).
Reduce time between identifying AL candidates
and commissioning. This will enable us to produce the oil before the well
To extend the run life of the ESP, only trained
personnel should attempt to troubleshoot ESP wells.
X field operation personnel need to be trained
on ESP/ or GL operations
The selected wells must have the capability to
transmitting real time monitoring & surveillance data remotely.
Wells in high GOR areas should not be selected
for gas lift or ESP candidates in the future.