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98410 DEVELOPMENT OF A NON-TOXIC CORROSION INHIBITOR FOR MEA PLANTS

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Product Number: 51300-98410-SG
ISBN: 98410 1998 CP
Author: S. Tebbal, R.D. Kane, B.N. Al-Shumaimriari, P.K. Mukhopadhyay
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A non-toxic comosion inhibitor based on organic compounds was developed to replace a heavy metal toxic inhibhor in MEA plants. The tasks involved in the development program are presented in this paper. A search for non-toxic organic chemicals with potential inhibitive properties was pertlormed first followed by the preliminary screening tests. The best three chemicals were then tested in stimed autoclave at severrd concentrations. Slow strain rate runs were also performed to test the susceptibdity of welded as well as non-welded carbon steel specimens to stress comosion cracking. The single best performing chemical was then tested under turbulent and laminar flow condhions in a flow loop. High alloys materials typically found in amine plants were also tested in an autoclave setting to determine if they were compatible with the inhibitor. The single best performing inhibhor was then finally tested in a refinery gas plant for 18 months. The corrosion rates data, analytical results and physical inspection of the field equipment showed that the non-toxic corrosion inhibitor was very effective in reducing corrosion. Based on the results of the laboratory and field testing program, it was decided to replace the previous toxic corrosion inhibitor by the newly developed non-toxic corrosion inhibitor. Keywords: gas plant corrosion, amine plant corrosion, corrosion inhibitor, non-toxic corrosion inhibitor, corrosion inhibitor testing.
A non-toxic comosion inhibitor based on organic compounds was developed to replace a heavy metal toxic inhibhor in MEA plants. The tasks involved in the development program are presented in this paper. A search for non-toxic organic chemicals with potential inhibitive properties was pertlormed first followed by the preliminary screening tests. The best three chemicals were then tested in stimed autoclave at severrd concentrations. Slow strain rate runs were also performed to test the susceptibdity of welded as well as non-welded carbon steel specimens to stress comosion cracking. The single best performing chemical was then tested under turbulent and laminar flow condhions in a flow loop. High alloys materials typically found in amine plants were also tested in an autoclave setting to determine if they were compatible with the inhibitor. The single best performing inhibhor was then finally tested in a refinery gas plant for 18 months. The corrosion rates data, analytical results and physical inspection of the field equipment showed that the non-toxic corrosion inhibitor was very effective in reducing corrosion. Based on the results of the laboratory and field testing program, it was decided to replace the previous toxic corrosion inhibitor by the newly developed non-toxic corrosion inhibitor. Keywords: gas plant corrosion, amine plant corrosion, corrosion inhibitor, non-toxic corrosion inhibitor, corrosion inhibitor testing.
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98411 COMPATIBILITY OF A CORROSION INHIBITOR WITH GAS SWEETENING AGENTS

Product Number: 51300-98411-SG
ISBN: 98411 1998 CP
Author: M. Ramirez, J. L. Morales, M. E. Afonso, A. Viloria
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98426 PERFORMANCE OF SELECTED MATERIALS IN FLUE GAS ENVIRONMENT

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ISBN: 98426 1998 CP
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98417 TITANIUM AS REACTOR MATERIAL FOR SCWO APPLICATIONS.FIRST EXPERIMENTAL RESULTS

Product Number: 51300-98417-SG
ISBN: 98417 1998 CP
Author: N. Boukis, C. Friedrich, E. Dinjus
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