Expro executes multiple well unload and clean-up with zero flaring

Well Flow Management

Customer challenges

Expro were recently approached by our customer, Brunei Shell Petroleum (BSP) to support in designing a 2 well clean-up campaign – with zero flaring of hydrocarbons, as part of a greater objective of reducing Green House Gas emissions during well operations

Primary objectives of the project were to:

Unload both wells via a temporary well test package, prior to permanent commissioning of the wells
Flow the wells at a sufficiently high, solids-free rate to clean them before handing-over to production
Record the initial gas and liquid rates for reservoir/production modelling
Avoid the conventional practice of wastefully combusting hydrocarbons at the wellsite during the operations

Expro Excellence

To achieve zero flaring, Expro were able to design a well test process between the platform jacket and rig which:
Captured all produced solids from the well, protecting sensitive downstream equipment
Directed flow through a well test separator; removing all liquids from the gas, which was subsequently produced into the platform header
Diverted the captured liquids to a surge tank for additional de-gassing; then sending these ‘dead’ liquids to a ‘tank farm’ consisting of 4 x 20,000L ISO Tanks, and subsequently transported them back to shore-base for safe disposal
Interfaced the well test Emergency Shut-Down (ESD) system with the Production Platform Shut-Down (PSD) system - for unified safety process control
Included the design of a ‘Separator blow-down system’ – to allow the Well Test package to be depressurized manually or automatically- in case of fire
Coflex hoses were installed between the rig and platform jacket to accept production from the well to the well test package. An additional hose returned separated gas to a production header on the jacket
All Well Test data was collected and logged with Expro’s versatile EDGE data acquisition platform and transmitted in real-time using our web-based Data to Desk system

Value to client

Installation of the well test equipment was conducted almost entirely ‘off-line’, with minimal impact to ‘critical path’ activity
Well testing clean-up operations were able to commence only six hours after well completion operations had concluded
Both wells were successfully unloaded without HSE incident or any non-productive time (NPT)
The wells were completely cleaned of completion fluids and solids, allowing them to be immediately brought online for production
The client expressed appreciation for the data quality and speed, received with real-time transmission via Data to Desk
The overall efficiency achieved for the customer was an estimated avoidance of 3,731 Tonnes of CO2 e emissions during well clean-up operations on the two wells

Customer challenges

Expro were recently approached by our customer, Brunei Shell Petroleum (BSP) to support in designing a 2 well clean-up campaign – with zero flaring of hydrocarbons, as part of a greater objective of reducing Green House Gas emissions during well operations

Primary objectives of the project were to:

Unload both wells via a temporary well test package, prior to permanent commissioning of the wells
Flow the wells at a sufficiently high, solids-free rate to clean them before handing-over to production
Record the initial gas and liquid rates for reservoir/production modelling
Avoid the conventional practice of wastefully combusting hydrocarbons at the wellsite during the operations

Expro Excellence

To achieve zero flaring, Expro were able to design a well test process between the platform jacket and rig which:
Captured all produced solids from the well, protecting sensitive downstream equipment
Directed flow through a well test separator; removing all liquids from the gas, which was subsequently produced into the platform header
Diverted the captured liquids to a surge tank for additional de-gassing; then sending these ‘dead’ liquids to a ‘tank farm’ consisting of 4 x 20,000L ISO Tanks, and subsequently transported them back to shore-base for safe disposal
Interfaced the well test Emergency Shut-Down (ESD) system with the Production Platform Shut-Down (PSD) system - for unified safety process control
Included the design of a ‘Separator blow-down system’ – to allow the Well Test package to be depressurized manually or automatically- in case of fire
Coflex hoses were installed between the rig and platform jacket to accept production from the well to the well test package. An additional hose returned separated gas to a production header on the jacket
All Well Test data was collected and logged with Expro’s versatile EDGE data acquisition platform and transmitted in real-time using our web-based Data to Desk system

Value to client

Installation of the well test equipment was conducted almost entirely ‘off-line’, with minimal impact to ‘critical path’ activity
Well testing clean-up operations were able to commence only six hours after well completion operations had concluded
Both wells were successfully unloaded without HSE incident or any non-productive time (NPT)
The wells were completely cleaned of completion fluids and solids, allowing them to be immediately brought online for production
The client expressed appreciation for the data quality and speed, received with real-time transmission via Data to Desk
The overall efficiency achieved for the customer was an estimated avoidance of 3,731 Tonnes of CO2 e emissions during well clean-up operations on the two wells

Contact

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