| TRACERCO Diagnostic™ - Wellbore Study
Completion
| Stimulation
| Chemical Treatment
Completion
The Tracerco Diagnostics™ Wellbore Study tracer techniques
have been developed in response to our customers needs to
provide a reliable method of monitoring the progress and
effectiveness of a range of completion operations on their
reservoirs. The completion tracer services available are:
- Cement squeeze and grouting position determination
- Perforation Confirmation
- Oil Flow Determination
Cement Squeeze and Grouting Position Determination
In the case of grouting or cement squeeze operations, a
tracer may be added to the cement material at surface. Following
cement setting, a logging tool can be lowered downhole and
an accurate profile obtained of the cement position. Unlike
conventional temperature or electronic surveys, this technique
can be used when more than one steel tube wall lies between
the cement and the logging system.
Perforation Confirmation
This techniques allows the perforation location to be established
together with confirmation that all of the expected charges
have triggered. This allows definitive data on the success
of the perforating operation to be gathered quickly and
safely. In addition, this technique has also been used to
assess the level of subsidence over time within a reservoir
zone.
Flow Determination
This patented tracer application has been developed in order
to obtain oil flow verification from a well upon clean up
and first production. The principle of the technology involves
the positioning of a number of different tracer materials,
each to specific locations along the length of tubing prior
to lowering downhole. The tracers are selected to be soluble
only in crude oil. Upon well start up samples are taken
at the surface over a short period of time. Samples are
subjected to analysis to determine tracer presence. The
presence of one or a combination of unique tracers within
the oil and the known location of each tracer downhole allows
a qualitative profile to be generated of oil flow. For further
information please refer to our Flow Profile Tracers page.
Stimulation
Tracerco has developed a number of tracer techniques to
allow our customers to accurately profile both the solid
and the liquid phases during stimulation operations:
- Sand fracturing, gravel pack and acid solid/fluids
positioning.
- Confirmation of correct acid placement.
Stimulation - Fracturing, Gravel Pack
Tracerco can provide our customers with tracers for
both the fluid and solid phases in a typical operation so
as to obtain the movement and final positions of both the
injection fluid and proppant. It allows an accurate determination
of vertical fracture height, changes in solid positioning
during the fracturing programme and the presence of solids
slumping.
Stimulation - Acid
When using acid to stimulate a well, the use of a tracer
allows the confirmation of correct acid placement during
different phases of the programme as well as the effectiveness
of injected diverting agents.
Chemical
Treatment
Tracerco has developed a tracer technique that allows corrosion
and scale inhibitor chemical position to be monitored to
acheive the most effective treatment conditions:
- Determine drop time in batch treatments
- Erosion rates from production
- Position/distribution within production tubing
- Mass balance following squeeze operations
Chemical Treatment
A variety of effect chemicals such as corrosion and scale
inhibitors are added to wells either by continuous or batch
injection methods. Our tracer is manufactured by the attachment
of a gamma emitting isotope to the unsaturated hydrocarbon
tail of the molecule. This allows the material to be traced
whilst maintaining its chemical properties. Following the
addition of the tagged material to a batch of chemical,
a downhole logging tool or surface sampling of production
fluids can be used to determine parameters such as: Chemical
drop time in batch treatments, Chemical erosion rates from
production tubing, Position and distribution of chemical
within production tubing and Mass balance of chemical following
squeeze operations.
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