Installations Around the World

map of installationsCanadaUSAMexicoTrinidad and TobagoBrazilNigeriaGabonSouth AfricaAustraliaIndonesiaMalaysiaThailandKazakhstanIranUAEOmanSaudi ArabiaEgyptItalyFranceNetherlandsDenmarkUnited KingdomNorway

Select an area on the map above for further project information.

United Kingdom

DateLocationEquipmentApplicationDescription
2014OffshoreSurface Jet PumpFlare gas RecoveryOptimised system to boost flare gas from 3 to 5.5barg
2014OffshoreSurface Jet PumpProduction BoostingCarbon Steel body with Inconel weld overlay and Super Duplex silencers. Boosting 36mmscfd
2013OffshoreSurface Jet PumpFlare gas RecoveryFPF1: LP flare gas recovery using SJP technology
2013OffshoreSurface Jet PumpSeparator Pressure ReductionLowered separator pressure using HP gas from compressor re-cycle gas to increase production. LP gas pressure was boosted by 5 bar and delivered gas back to LP compressor suction line.
2012OffshoreSurface Jet PumpPressure BoostingAvoided LP well back out in presence of HP wells. The production from LP well was boosted by 8 bar.
2011OffshoreSurface Jet PumpFlare Gas RecoveryRecovered LP flash gas at 10.5 barg, discharged at 25.5 barg.
2011OffshoreSurface Jet PumpBack-out PreventionAllowed LP wells to produce at sustainable rates in presence of new HP well.
2011OnshoreWellcom® SystemPressure BoostingUsing gas from HP well as motive source, the backed out LP wells started to produce. A pressure boost of 7 bar was achieved.
2010OffshoreSurface Jet PumpSeparator Pressure ReductionLowered LP separator pressure using HP gas from compressor recycle gas to increase production. LP gas was boosted by 7.5 bar and delivered back to LP compressor suction line.
2010OffshoreSurface Jet PumpPressure BoostingBoost of up to 7.5bar using HP well as motive source. Caltec standard 10" rental unit
2009OnshoreSurface Jet PumpCompressor Replacement1st stage compressor was replaced by a SJP using re-cycled gas from HP compressor to draw in LP gas flow from offshore platforms. A pressure boost of 110% was achieved, plus saving on the fuel gas and compressor maintenance costs.
2008OffshoreSurface Jet PumpBack-out PreventionHP wells were backing out incoming LP gas wells. Back-out of LP stream was minimised allowing the LP streams to produce with 25% pressure boost.
2008OffshoreSurface Jet PumpPressure BoostingUsing HP well as the motive source for a SJP, the pressure of LP well was boosted by 100%.
2007OffshoreNew SJP InternalsSeparator Pressure ReductionLowered LP separator pressure, using HP gas from the compressor re-cycle gas to increase production.
2007OffshoreSurface Jet PumpBack-out PreventionSJP allowed increased production and boosted the LP pressure by 15 bar.
2006OffshoreSurface Jet PumpSlurry TransportSlurry discharge with HP water as motive. Hardended Carbon Steel
2006OffshoreSurface Jet PumpPressure BoostingBoosted pressure of LP gas by 8 bar, with boosted gas used as fuel gas for compressors.
2006OffshoreNew SJP InternalsPressure BoostingNew HP nozzle to boost pressure by 7 bar of back out LP wells.
2006OffshoreSurface Jet PumpPressure BoostingGas SJP for maximizing production allowed the LP wells to continue production, utilising HP gas from the compressor as motive flow.
2005OffshoreSurface Jet PumpProduction BoostingThree gas SJPs (10", 12" & 14") to operate using HP gas from the existing compression system for pressure/production boosting and lowering the backpressure on LP wells from different satellites. 20% production boost was achieved with backpressure reduction of 8 bar. Rewheeling of compressors was avoided.
2005OffshoreSurface Jet PumpProduction BoostingGas SJP used HP well for pressure and production boosting from three rapidly declining LP wells. Production gain was 110% and deliquification was also achieved.
2005OffshoreSurface Jet PumpPressure BoostingTwo gas SJPs to kick start wells and to increase production from the LP wells. Pressure boost of 50% was achieved.
2004OffshoreSurface Jet PumpSlurry TransportWellhead desanding cyclone used HP water to remove separated sand as a slurry. Hardened Carbon Steel
2004OffshoreSurface Jet PumpSlurry TransportSlurry discharge with HP water as motive. Hardended Carbon Steel
2003OnshoreSurface Jet PumpSlurry TransportWellhead desanding cyclone used HP water to remove separated sand as a slurry. Hardened Carbon Steel
2001OffshoreSurface Jet PumpPressure BoostingGas SJP used to increase LP gas pressure by 9 bar.
2001OffshoreSurface Jet PumpPressure BoostingSJP boosted the pressure of gas received from nearby Shell wells by a factor of 44%, thus increasing oil and gas production and debottlenecked the existing compression train. Eliminated the need for a new 1st stage compressor and re-wheeling of the existing one.
2000OffshoreCompact SeparationUnder-balanced DrillingI-SEP/HI-SEP compact separator used on offshore Platform for underbalanced drilling operation, with the operating pressure of up to 2000 psig - Design pressure 5,000 psig. System handled gas, liquids and drill cutting solids. Well was drilled in shorter time, with downstream chokes undamaged.
2000OffshoreSurface Jet PumpPressure BoostingGas SJP used to increase LP gas pressure by 15 bar.
1999OffshoreSurface Jet PumpFlare Gas RecoveryGas SJP boosted the pressure of 15mmscfd of gas from Alba field by 115%, preventing flaring.
1997OnshoreI-SEPGas-sand SeparationI-SEP for removal of sand from gas stream.
1987OffshoreSurface Jet PumpProduction BoostingTwo applications - achieved increases in gas production of 25% and 41%. Systems in use for 10 years without maintentance. SPE Paper 26684.

Norway

DateLocationEquipmentApplicationDescription
2007OffshoreWxOil-water SeparationWx technology based on I-SEP inline compact separation technology for lab and field trials to remove gas and bulk of water from oil.
2007OffshoreSurface Jet PumpSeparator Pressure ReductionLP gas pressure was boosted by 83%, the operating pressure of the 2nd stage production separator was lowered.

Denmark

DateLocationEquipmentApplicationDescription
2009OffshoreCompact SeparationMeteringI-SEP/HI-SEP and metering system rated to ANSI 1500# for new satellite platform in the North Sea.

Netherlands

DateLocationEquipmentApplicationDescription
2013OffshoreNew SJP InternalsProduction BoostingNew nozzle and diffuser for existing SJP for new flow conditions.
2013OffshoreSurface Jet PumpPressure BoostingUsing HP gas from compressor, boosted LP gas pressure by 160%, thus increasing gas production.
2012OffshoreNew SJP InternalsProduction BoostingNew nozzle and diffuser for existing SJP, to cater for changing process conditions.
2012OnshoreSurface Jet PumpProduction BoostingPowered by HP well; lowered LP wells pressure by 9 bar, thus increasing production and deliquifying the well.
2011OnshoreSurface Jet PumpPressure BoostingOne of Caltec’s standard rental units was moved from the HP well (which had declined pressure) to the compression station, using recycle gas (wasted and available energy). The unit was optimised for these new conditions and further lowered the operating pressure of all the LP gas leading to production gains and extended field life of the wells.
2010OffshoreSurface Jet PumpProduction BoostingCompression gas on recycle – Caltec SJP installed to use this wasted energy to lower the back pressure of LP wells whilst still delivering the gas at the required delivery pressure; lead to significant production benefits, lower CAPEX and accelerated deployment.
2009OnshoreSurface Jet PumpBack-out PreventionHP gas well was backing out LP wells flowing into the same line. With SJP, the dead LP well produced 140,000 Nm³/d, using energy from HP well. The total production was fed directly to HP compression suction line, thus allowing LP compressor to be switched off, thus saving additional fuel gas.
2008OffshoreNew SJP InternalsProduction BoostingNew internals for Gas SJP to allow increased production from the declining LP wells. Pressure was boosted by 10 bar under the new conditions.
2007OffshoreSurface Jet PumpProduction BoostingGas SJP for boosting production on the Ameland platform, utilising available HP compressor gas. This solution removed the need for 1st stage compressor.
2006OffshoreSurface Jet PumpProduction BoostingGas SJP was used to allow increased production from the declining LP wells, using new HP wells wasted energy as the motive flow. Up to 18 bar backpressure reduction on the LP well was achieved.
2004OnshoreSurface Jet PumpPressure BoostingGas SJP used gas from a rapidly declining HP gas well to draw additional gas from a LP part of the reservoir and boosting the LP pressure by 100% With this configuration, the existing compression system was also de-bottlenecked.
1998OffshoreSurface Jet PumpPressure BoostingGas SJP used to boost LP gas pressure by 40%.
1996OffshoreSurface Jet PumpPressure BoostingGas SJP to boost LP gas pressure by 35%, using gas from a HP well. 316SS with NiSiC coating on nozzle and mixing tube.

Mexico

DateLocationEquipmentApplicationDescription
2013OnshoreSurface Jet PumpVent Gas RecoveryRecovered 0.5mmscfd vent gas from storage tank, returned to process at 5barg.
2013OnshoreSurface Jet PumpVent Gas RecoveryStorage tank vent gas recovered & returned to process.

Malaysia

DateLocationEquipmentApplicationDescription
2013OffshoreNew SJP InternalsProduction BoostingNew nozzle and diffuser for existing SJP, to cater for changing process conditions.
2012OffshoreWellcom® SystemProduction BoostingUsed to boost production from LP multiphase wells, with booster pump for liquid phase separated by I-SEP.
2012OffshoreSurface Jet PumpBack-out PreventionTwo SJPs (6" and 12") and a liquid pump for well revival and minimising LP wells production back out when a new HP well was brought on-line. 2500# HP connection with 900# discharge.
2011OffshoreSurface Jet PumpProduction BoostingUsed to boost pressure and production from LP manifold and bring 16 closed LP wells back into production. HP gas came from injection compressor used as motive flow. A pressure boost of up to 13 bar was achieved.
2009OffshoreWellcom® SystemWell RevivalUsing Wellcom® Oil system by which flow from multiphase HP well was used to bring in closed LP multiphase well. Lowered the flowing BHP of the LP well by 140 psi, thus maintaining & boosting production.
2003OffshoreSurface Jet PumpSlurry TransportWellhead desanding cyclone used HP water to remove separated sand as a slurry. Hardened Carbon Steel.
2003OffshoreSurface Jet PumpSlurry TransportWellhead desanding cyclone used HP water to remove separated sand as a slurry. Hardened Carbon Steel.
2002OffshoreWellcom® SystemPressure BoostingTwo systems on offshore platforms. Boosted production from existing oil wells by 35%, utilising Wellcom® systems with liquid pumps. Available HP lift gas was used as the motive flow. Pressure boost of up to 8 bar achieved.
1997OffshoreSurface Jet PumpSeparator Pressure ReductionUsed available booster pump to provide HP oil as the motive flow for the SJP to lower the separator pressure and to help to reduce back pressure on LP wells.

Indonesia

DateLocationEquipmentApplicationDescription
2013OffshoreNew SJP InternalsPressure BoostingWellcom® gas system for LP well pressure and production boosting.
2012OffshoreWelcom® SystemProduction BoostingUsed to boost production from liquid loaded LP gas wells, using HP gas from Multiphase well. A pressure boost of 9 bar achieved, allowing LP wells to produce.
2003OffshoreSurface Jet PumpCompressor DebottleneckingTwo gas SJPs for pressure boosting of 150% with drawing-in some of the LP gas and feeding it to the second stage compressor, thus debottlenecking 1st stage compressor.
1998OffshoreSurface Jet PumpSeparator Pressure ReductionUsed available booster pump to provide HP oil as the motive flow for the SJP to lower the separator pressure and to help to reduce back pressure on LP wells.

Egypt

DateLocationEquipmentApplicationDescription
2013OffshoreNew SJP InternalsBack-out PreventionBoosted production from LP wells. New internals for existing SJP.
2013OffshoreSurface Jet PumpPressure BoostingBoosted LP pressure using an HP well as motive source, as well as unloading 1000bbld/day liquids in the LP well.

Saudi Arabia

DateLocationEquipmentApplicationDescription
2013OnshoreSurface Jet PumpProduction BoostingTen SJP skidded units: production boosting from multiple wells, aka Velocity Spool technology.

Trinidad & Tobago

DateLocationEquipmentApplicationDescription
2013OffshoreSurface Jet PumpProduction BoostingTo boost LP wells from 895 psig to a discharge of 1010 psig using flow from HP wells.

Oman

DateLocationEquipmentApplicationDescription
2010OnshoreSurface Jet PumpFlare Gas RecoveryTwo SJPs: using recycled gas from compression system – utilised wasted energy to remove the need for a 1st stage flash gas compressor.
2009OnshoreCompact SeparationMeteringCompact separator to undertake gas-liquid separation for well test packages.

Nigeria

DateLocationEquipmentApplicationDescription
2008OnshoreMultipleComplete ProcessComplete processing and production boosting facility, using Caltec Inline separation and production boosting technology.
2007OnshoreSJP (Liquid Gas)Flare Gas RecoveryLiquid/gas SJPs for flare gas recovery applications using HP injection water as the motive source.
2006OnshoreSJP (Liquid Gas)Flare Gas RecoverySkidded liquid/gas SJPs for flare gas recovery applications, using existing spare oil pump as the motive source.

Gabon

DateLocationEquipmentApplicationDescription
2007OnshoreI-SEPGas-liquid SeparationCompact inline separator to de-bottleneck the existing process train - Production is mature and the operating pressure has decreased considerably, which has resulted in the gas expanding and the existing trains not being able to handle all the production. Due to removal of this debottlenecking effect, an extra 1000 bbl/d of oil was recovered and also increased site flow rate capacity.

United Arab Emirates

DateLocationEquipmentApplicationDescription
2007OnshoreSurface Jet PumpProduction BoostingTwo SJPs, using HP gas to reduce backpressure on the LP well.

Iran

DateLocationEquipmentApplicationDescription
2007OnshoreSurface Jet PumpFlare Gas RecoveryAllowed recovery of very low pressure gas and eliminated the need for a 1st stage compressor. SJP also saved on fuel gas and compressor maintenance requirements.

Australia

DateLocationEquipmentApplicationDescription
2007OffshoreSurface Jet PumpSlurry TransportSlurry discharge with HP water as motive. Hardended Carbon Steel.

United States

DateLocationEquipmentApplicationDescription
2006OffshoreSurface Jet PumpWell DeliquificationFast track production boosting gas SJP to maximise production, manufactured and supplied in six weeks. Backpressure reduction of 340psi was achieved on three subsea wells 27 miles away. A total of around 3bcf of gas, otherwise likely to be stranded and lost, was recovered. This approach also removed liquid built up in wells and also accumulated in the pipeline.
2004OffshoreSurface Jet PumpPressure BoostingGas SJP for LP gas pressure boosting by 105% and debottlenecking the existing compression system, motive provided by compressor recycle gas.
2003OnshoreSurface Jet PumpProduction BoostingFour gas SJPs for pressure/production boosting & deliquification of the LP string on a Dual String Wellhead; production gain was over 300%.

Canada

DateLocationEquipmentApplicationDescription
2006OnshoreSurface Jet PumpPressure BoostingLP pressure was boosted by 50% with gas SJP to meet the required pipeline pressure.
2005OnshoreSurface Jet PumpPressure BoostingGas SJP for pressure boost of 45%.
2003OnshoreSurface Jet PumpPressure BoostingFGas SJP increased LP well production by 25%.
2003OnshoreSurface Jet PumpPressure BoostingGas SJP which increased LP well production by 35%.
2001OffshoreCompact SeparationUnder-balanced DrillingI-SEP/HI-SEP compact separator for underbalanced drilling operation with ceramic lined internals and design pressure of 5000psig. Handled gas, liquids and drill cutting solids.

Kazakhstan

DateLocationEquipmentApplicationDescription
2004OnshoreSurface Jet PumpVent Gas RecoveryCompressor seal/vent gas recovery system, enabling LP gas to be recovered using available HP motive gas. Five-fold pressure boosting achieved.
2003OnshoreI-SEPGas-liquid SeparationI-SEP separator for removal of free/dissolved gas from oil, mud and H2S from water.

Thailand

DateLocationEquipmentApplicationDescription
2003OffshoreSurface Jet PumpProduction BoostingSJP for boosting Oil Production via production separator. A pressure boost of 44% was achieved and the system also revived a dead well by lowering the imposed back pressure on the wellhead.

France

DateLocationEquipmentApplicationDescription
2000OnshoreI-SEPMeteringGas-liquid I-SEP separator for well testing.

Brazil

DateLocationEquipmentApplicationDescription
1998OnshoreI-SEPGas-liquid SeparationCompact system for use in well testing and pre conditioning for multiphase metering.

Italy

DateLocationEquipmentApplicationDescription
1996OnshoreWellcom® SystemPressure BoostingTwo WELLCOM systems generated a pressure boost of up to 11 bar and 350bbl/d of additional oil while handling full multiphase flow from HP and LP wells.
1996OnshoreSurface Jet PumpPressure BoostingOil production increased by 30% with a boost in pressure of 3 bar.
1995OnshoreSurface Jet PumpWell RevivalWell de-liquification with SJP. Increased LP gas pressure up to 55% and associated production using a near-by HP gas well as the motive source.
1995OnshoreSurface Jet PumpPressure BoostingHave used seven SJPs in onshore and offshore applications in gas production. In all cases payback was achieved in only a few weeks.

South Africa

DateLocationEquipmentApplicationDescription
1998OnshoreSurface Jet PumpPressure BoostingSJP used HP gas to boost the pressure of LP gas by 25%.