Natural gas dehydration by molecular sieve in offshore plants: Impact of increasing carbon dioxide content

[Display omitted] •Simulation of adsorption performance in dehydration of natural gas is presented.•The scenario is of high and increasing carbon dioxide content in the raw gas.•Carbon dioxide, water and methane isotherms on zeolite 4Å are used in simulations.•Crossed impact of pressure and carbon d...

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Bibliographic Details
Published in:Energy conversion and management 2017-10, Vol.149, p.760-773
Main Authors: Santos, Myrlla G.R.S., Correia, Leilane M.S., de Medeiros, José Luiz, Araújo, Ofélia de Queiroz F.
Format: Article
Language:English
Subjects:
Adsorbed water
Adsorption
Beds (process engineering)
Carbon dioxide
Corrosion potential
Dehydration
Dew
Dew point
Emissions control
Enhanced oil recovery
Freezing
Fugacity
Gas pipelines
Moisture content
Molecular chains
Molecular sieves
Natural gas
Offshore drilling rigs
Oil recovery
Petroleum pipelines
Pipelines
Studies
Temperature swing adsorption
Tonic immobility
Transportation
Water content
Water pipelines
Water treatment
Zeolite molecular sieve
Zeolites
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Summary:[Display omitted] •Simulation of adsorption performance in dehydration of natural gas is presented.•The scenario is of high and increasing carbon dioxide content in the raw gas.•Carbon dioxide, water and methane isotherms on zeolite 4Å are used in simulations.•Crossed impact of pressure and carbon dioxide fugacity on performance is evaluated.•Competition of carbon dioxide with water molecules occurs, increasing bed size. Dehydration is a critical operation in natural gas conditioning as it reduces the potential for corrosion, hydrate formation and freezing in process equipment and transportation pipelines. Water dew point adjustment is particularly challenging in the remote ultra-deepwater natural gas reserves of the Brazilian Pre-Salt fields due to their very high carbon dioxide contents – from 30% up to 90% in raw natural gas – which is a consequence from the carbonaceous rock of the reservoir structure and long term elevation of carbon dioxide content due to its injection for early enhanced oil recovery. Under this scenario, the study evaluates the impact of the carbon dioxide content of the natural gas on the performance of water dew point via water adsorption on 4Å Zeolite molecular sieve beds. Process simulation with adsorption simulator Adsim (Aspen Technology, Inc), at varying operation pressures and carbon dioxide contents in raw natural gas, indicated that, although adsorption meets water removal specification in a condensation free operation, the high fugacity of carbon dioxide penalizes the dehydration performance due to probably two facts: (i) higher carbon dioxide fugacity in the humid natural gas imply higher saturation water content in the gas phase, which increases the service of dehydration units; and (ii) higher carbon dioxide fugacity in the humid natural gas establishes a discreet adsorption competition with water resulting in 6.5% increase of adsorbent bed volume for operating pressures of 35bar or higher.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2017.03.005