Gas Plants

Pyramid E&C provides complete natural gas treatment solutions comprising of Compreassion, Dehydration, Sweetening and contaminant removal systems to recover liquids and deliver gas to the specification. Standard packages available in 30, 60, 120 and 200 MMSCFD sizes.

The complexity of the unit is decided based on the required reparation of heavier products in the dew-pointing section of the gas plant. We offer three levels of complexity based on the project’s recovery requirements:

JOULE THOMSON UNITS

This unit uses a simple JT valve to cool the natural gas and reduce its the dewpoint, recover valuable hydrocarbon liquids, and control its calorific value to sales specifications.

Recovery

C3 50% | C4 80% | C5+ 90%

REFRIGERATION PLANTS

In addition to the JT valve, this unit uses mechanical refrigeration with freon or propane to further chill the gas and increase the recovery of valuable heavier hydrocarbons. 

Recovery

C3 80%  | C4 94%  | C5+ 98%

CRYO EXTRACTION PLANTS

The natural gas is cooled to an even lower temperature using JT valves and turboexpander to separate ethane from methane and recover almost all propane as from stream.

Recovery

C2 98% | C3 99% | C4+ 100%

Gas Plants

Pyramid E&C offers standard as well as custom-built modular design  for  conventional Gas Plants complete with compression and pre-treatment train in all geographies include the arctic. We offer following technologies depending on the desired condensate recovery and dew point requirements.

  • Joule Thompson (JT) units
  • Refrigeration System
  • Cryogenic recovery of propane and ethane 

Cryo Extraction Units

In certain situations, recovering Ethane from Natural gas stream is commercially attractive, it becomes possible by reducing the  temperature of natural gas low enough to liquefy Ethane. This process ensures total recovery of Propane and near complete recovery of Ethane.

Pyramid E&C offers compact modular Cryogenic extraction units capable of recovering complete Propane and 98%+ Ethane in single train size ranging from 30 to 300 MMSCFD.  These key advantages are:

  • Flexibility to operate in Ethane recovery or rejection mode
  • Modular construction helps easy transportation and quicker installation.
  • Higher liquids recovery
  • Lower power requirement
  • Rapid installation and re-deployment of plant mitigates long term project risks.

The process comprises of following steps:

Feed gas Conditioning: Feed gas  will first pass through a coalescing filter/separator designed to remove solid particles and liquid droplets carried over from upstream processes. If the gas is sour, it is treated in gas sweetening unit for removal of acid compounds in an absorption process. Then the feed gas is compressed, unless it is already at required pressure.

Dehydration: Gas is dried to avoid ice and hydrate formation in the cryogenic section of the process, the water content of the gas is reduced to an acceptable level through adsorption in molecular sieve desiccant beds. Downstream of the adsorption beds, the gas passes through a dust filter to remove any particulate carryover before subsequent processing. The regeneration of molecular sieve beds is achieved by heated gas.

Feed Cooling & Separation: Dehydrated gas flows into the cold section of the plant, where cooling of inlet gas takes place by exchanging heat with the cold residue gas in a brazed aluminum plate-fin heat exchanger. Condensed liquid is separated from gas in cold separator. The liquid from cold separator is sent to lower section of demethanizer column. Gas from the cold separator is partially sent to turbo expander and remaining gas flows through reflux exchanger. The expansion of gas cools it further and results in additional condensation. The cold gas from expander is sent to the de-methanizer column. Cooled gas from reflux exchanger is expanded via J-T valve and send to reflux separator. Liquid from the bottom of reflux separator is sent to de-methanizer column. All cooled gas and liquid streams are fed to de-methanizer column. The cold streams are fed to column at different sections depending on temperatures. The expansion turbine used in the process is also configured to recompress the gaseous methane effluent, to lower energy consumption. The plant produces condensate  rich in C2, C3, C4 and higher hydrocarbons from bottom, and  residual gas from the top of demethanizer column. Condensate (NGL) is fractionated into Ethane, Propane, Butane and C5+ as per market requirement.

OIL AND GAS BROCHURE


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