Server maintenance is scheduled for Saturday, December 21st between 6am-10am CST.

During that time, parts of our website will be affected until maintenance is completed. Thank you for your patience.

Search
Filters
Close

51312-01288-Effect of Atmospheric Residue-Desulphurizer Unit Revamp On Increased Corrosion In Amine Regeneration

Product Number: 51312-01288-SG
ISBN: 01288 2012 CP
Author: Musaed AL-Arada
Publication Date: 2012
$0.00
$20.00
$20.00
Atmospheric Residue De-sulphurizer (ARDS) Unit in one of the refinery was revamped in year 2004 with a new online catalyst replacement technology process for increasing the operating run length as well as capacity of the unit. This paper describes the effect of the ARDS revamp on the increased corrosion problems in the downstream Amine Regeneration Unit (ARU) where rich amine loaded with acid gas (H2S) from the ARDS is sent for regeneration in to lean amine. The refinery uses Monoethanolamine (MEA) as a absorber media for removal of H2S from the hydrogen recycle gas of ARDS Unit. Lean Amine is sent from ARU to ARDS and after removal of H2S rich amine is sent to ARU for regeneration. At the time of ARDS revamp in year 2004 detailed study of the ARU was carried out from process as well as corrosion point of view. After the study options were proposed to overcome the limitations of the ARU Unit to cater to additional requirement from ARDS after revamp. However due to various constraints execution of those options was deferred. This has resulted in increased and accelerated corrosion of various equipment (e.g. exchangers towers vessels etc.) and piping in ARU. On-stream leaks resulting in Health Safety & Environment (HSE) hazards and increased maintenance costs / shutdown durations. The paper describes in detail the corrosion study carried out and various measures adopted to mitigate and control the corrosion degradations. Keywords Corrosion MEA revamp rich MEA lean MEA maintenance costs on-stream leaks HSE
Atmospheric Residue De-sulphurizer (ARDS) Unit in one of the refinery was revamped in year 2004 with a new online catalyst replacement technology process for increasing the operating run length as well as capacity of the unit. This paper describes the effect of the ARDS revamp on the increased corrosion problems in the downstream Amine Regeneration Unit (ARU) where rich amine loaded with acid gas (H2S) from the ARDS is sent for regeneration in to lean amine. The refinery uses Monoethanolamine (MEA) as a absorber media for removal of H2S from the hydrogen recycle gas of ARDS Unit. Lean Amine is sent from ARU to ARDS and after removal of H2S rich amine is sent to ARU for regeneration. At the time of ARDS revamp in year 2004 detailed study of the ARU was carried out from process as well as corrosion point of view. After the study options were proposed to overcome the limitations of the ARU Unit to cater to additional requirement from ARDS after revamp. However due to various constraints execution of those options was deferred. This has resulted in increased and accelerated corrosion of various equipment (e.g. exchangers towers vessels etc.) and piping in ARU. On-stream leaks resulting in Health Safety & Environment (HSE) hazards and increased maintenance costs / shutdown durations. The paper describes in detail the corrosion study carried out and various measures adopted to mitigate and control the corrosion degradations. Keywords Corrosion MEA revamp rich MEA lean MEA maintenance costs on-stream leaks HSE
Product tags
Also Purchased
Picture for Improve Amine Unit Reliability and Optimize Treating
Available for download

51316-7913-Improve Amine Unit Reliability and Optimize Treating

Product Number: 51316-7913-SG
ISBN: 7913 2016 CP
Author: Scott Waite
Publication Date: 2016
$20.00
Picture for 09334 Failure of Amine Regenerating Column of Amine Treatment Unit
Available for download

09334 Failure of Amine Regenerating Column of Amine Treatment Unit

Product Number: 51300-09334-SG
ISBN: 09334 2009 CP
Author: Nitin D. Raut, V. S. Naik and R. M. Chaudhari
Publication Date: 2009
$20.00