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100 Jobs and counting!

July 11, 2018

Ziebel Celebrates Milestone With 100th Z-Rod® Intervention


HOUSTON, Texas -- December 2, 2015 -- Ziebel, the market leader in composite rod well intervention, has completed its 100th Z-Rod® distributed fiber optic sensing job.  The Z-Rod system consists of a 6500m carbon fiber composite rod with embedded fiber optic lines that make it possible to deploy both distributed temperature and distributed acoustic sensing along the complete wellbore.  With a diameter of only 15 mm, the rod is injected into the well from coil tubing-like surface equipment and can travel up to 1,800m along the horizontal section of a well. Unlike traditional logging tools that can only survey a few inches of the well at a time, sensing provides a complete wellbore profile that is captured several times per second.
 
The 100th job was performed for ConocoPhillips in the United States to determine the flow profile of zones within a fracked unconventional well.
 
“As operators of unconventional wells strive to improve recovery factors and reduce well costs, the data to enable this is becoming more critical,” said Francis Neill, CEO of Ziebel.  “Ziebel’s ability to deliver this data across the reservoir is driving our increased activity levels.  Our 100th job is a milestone that reflects the repeat work and value that our data provides.”
 
The Z-Rod’s small diameter results in significantly reduced choking effects versus traditional coil tubing, enabling the Z-Rod to determine which perforated zones along the length of the wellbore are actually contributing to production.  This information allows unconventional field operators to optimize their completion strategies.  
 
The 100 jobs were carried out using both land and offshore units in Norway, Denmark, Oman, Abu Dhabi, and the United States.  Applications ranged from the evaluation of flow in unconventional wells to well integrity diagnosis, monitoring water injection schemes, gas lift optimization, and understanding inter-well communication and interference.