BEYOND EFFICIENCY IN OIL RECOVERY

Increase recovery rates. Shorten stimulation activity from days to hours. Reduce fluid and chemical usage by over 95%. Achieving exceptional efficiency and improved safety is possible with the unique Fishbones Multilateral Stimulation Technology (MST) delivered by Duta Klasik in exclusive partnership with Fishbones AS.

FIELD-PROVEN TO RAISE PRODUCTION, REDUCE RESOURCES

Fishbones MST is an openhole liner completion system connecting the well with the reservoir that is ready to run in-hole like a standard liner. The difference is in titanium tubes called needles housed in the liner which extend outwards into carbonite, sandstone or coal beds, carving out a fish bone network of laterals. Through these laterals, which can number up to 200, recovery rates are increased and reservoirs depleted faster. Fishbones MST requires less than 5% of fluids and chemicals typically used in fracturing, significantly reducing the cost and environmental impact of reservoir stimulation activities. See how it works.

LESS MAN HOURS, SIMPLIFIED OPERATIONS, REDUCED LTI

The system delivers speed and simplicity without compromising accuracy, offering a safer, more efficient alternative to fracturing. Ease of integration and operation mean fewer man hours are needed to complete reservoir stimulation. A process that typically takes days now only requires hours to complete, greatly reducing the risk of lost-time injury (LTI).

WE DELIVER FISHBONES MST AND ITS ADVANTAGES

Duta Klasik is the appointed sole agent for the Fishbones MST in Malaysia. This partnership with a leading-edge company in optimized well stimulation technology delivers a cost-effective alternative to fracturing for oil & gas operators around the region. Duta Klasik provides technology and expertise direct from Fishbones AS which enable operators to:

  • Increase well production
  • Increase injector performance
  • Increase contact points where permeability is low
  • Connect stratified or naturally fractured reservoirs
  • Circumvent permeability barriers
  • Stimulate target reservoirs accurately
  • Tap into sweet spots and lenses
  • Conduct well stimulation according to varying pressure regimes
  • Ensure uninterrupted flow by reducing drawdown and coning