Ningaloo Vision Fire Water System

Client: Apache Energy
Capex: $500 million AUD
Location: Exmouth Sub-Basin, Western Australia
Completion Date: 2014

The Ningaloo Vision Upgrade Project comprises modifications to the Ningaloo Vision Floating Production, Storage and Offloading vessel (FPSO), which is operating on the Van Gogh oilfield, and development of the neighbouring Coniston and Novara oilfields which will be tied into the existing Van Gogh subsea infrastructure.

Ningaloo Vision Fire Water System Project Details:

The Ningaloo Vision is serviced by two 100% capacity fire pumping systems, each system consisting of a lift pump and a pressure pump. The pressure delivered by these pumps is now about 1 bar lower than their original rated pressure at the rated capacity. Investigations to remedy this drop in pressure have improved performance but have not been able to achieve design capacity.

Ningaloo Vision Fire Water System Project Highlights & Challenges:

The fire fighting system is extensive and covers 22 zones; twelve of which are serviced by firewater & foam. The project required re-modeling of the majority of existing pipework. The analysis enabled limiting the necessary changes to modifying orifice plates and changing a minimal number of spray nozzles in affected areas.

DBM Vircon's Scope of Work:

DBM Vircon was requested to perform a pipe network analysis, to determine the impact of the lower pressure, for the rate determining case of Zone 14 (Module 1A) plus adjacent modules, foam system and hydrants. The scope of the report was to:
  • confirm that the analytical model aligns with current fire system test data
  • provide calculated flows for modules & components at current pumping capability
  • propose modifications to achieve minimum pressures/flow rates to all nozzles at current pumping capability
  • determine the minimum test pressure reading to achieve the minimum required flows.
  • resulting from the issue of drafts of the report
DBM Vircon was subsequently requested to investigate:
  • modifications necessary to achieve the minimum required flow at all nozzles in zone 16 (module 2) the effect of the lower pressure on zones 4, 10 & 17 and necessary modifications to orifice plates the effect of the lower pressure on zones 9, 19, 21 & 22 and necessary modifications