Acid Gas Removal in Geothermal Power Plant in Iceland
Journal article, Peer reviewed
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http://hdl.handle.net/11250/2393205Utgivelsesdato
2016-01Metadata
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Sammendrag
A large part of the energy covering the electricity and heating demands in Iceland is generated in geothermal power plants. The
Hellisheiði power plant, designed for 300 MWe and 133 MWth, is located in close proximity to Reykjavik. The concept of the
plant is to co-generate power for energy-intensive industry and hot water for district heating. The steam at Hellisheiði is not pure
H2O, but also contains H2S, CO2, H2, N2, and CH4. These gases have, for the most part, been emitted to the atmosphere after
separation from the steam. New, emerging environmental regulations in Iceland will limit the emission of H2S. Additionally, the
long-term goal is to decrease CO2 emissions. Therefore, separation of CO2 and H2S from the non-condensable gases in the steam
will be necessary, followed by some measure to store these. In this work, four different acid gas capture systems were selected
and subsequently modelled and simulated: water absorption, amine absorption with MDEA, amine/low temperature hybrid
concept, and stand-alone low-temperature separation. For co-removal of H2S and CO2, low-temperature separation seems to be
an attractive alternative to the conventional water absorption process due to the low power penalty.