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Australian Energy Producers Journal Australian Energy Producers Journal Society
Journal of Australian Energy Producers
RESEARCH ARTICLE (Non peer reviewed)

DeepStar case study: flowline burial for insulation*

Tommy Golczynski
+ Author Affiliations
- Author Affiliations

Multiphase Solutions 16300 Katy Freeway, Suite 300, Houston TX 77094 USA. Email: Tommy.Golczynski@multiphase.com

The APPEA Journal 50(2) 684-684 https://doi.org/10.1071/AJ09048
Published: 2010

Abstract

Canyon Offshore, Multiphase Solutions and ASGM Engineering recently completed a study for DeepStar to assess flowline burial for insulation for oil and gas deepwater subsea tiebacks with high-pressure/high-temperature (HPHT) reservoir characteristics. The primary goal of the study was to document the scope of application, added value and schemes for successful implementation of burial for insulation of deepwater HPHT flowlines.

The prize in oil production is the extended cool-down time (three plus days), which can potentially reduce the number of occasions where flowline cold shut-in preparations are necessary. The principal prize in gas production is ability to deliver high water-rate gas production, by removing the need for continuous hydrate inhibitor and extending production beyond the point where inhibitor delivery is inadequate.

Lateral and upheaval buckling analyses assessed the expected interaction between flowline, soil and movements associated with expansion due to temperature. Controlled installation sequencing to allow for lateral buckling during the initial startup phase was evaluated to mitigate the risk of excessive bending strains and upheaval buckling in the flowline from thermal expansion. The results indicate installation methodologies can achieve reduced bending strains and avoid upheaval buckling.

Net present value (NPV) calculations were tabulated for the various tieback scenarios to assess the economic merits of flowline burial versus non-burial. The results of the study indicate that burial provides improved thermal insulation characteristics and yielded positive NPV, compared to unburied flowlines. The risk of thermal-induced lateral and upheaval buckling can be mitigated using identified techniques during the installation phase of the work to avoid undesired high bending strains.

Keywords: burial, U-value, flow assurance, cooldown time, soil, NPV, buckling, deepwater, HPHT

Tommy Golczynski is Vice-President of Flow Assurance Services for Multiphase Solutions. He provides management and technical support for a range of flow assurance-related issues, including: production chemistry; system design; and, field operability.

Mr Golczynski has been a part of project engagements on a global scale, including several of the large deepwater projects off the North West Shelf and various others throughout the Asia-Pacific. He holds a Chemical Engineering Degree from the University of Michigan.