Preecha Kasikamphaiboon, Juntima Chungsiriporn, Charun Bunyakan, and Wisitsree Wiyaratn

pp. 65 - 72

Abstract

The rate of degradation of MEA during CO₂
 and H₂
S absorption in the biogas upgrading process was examined in
four degradation systems, i.e., MEA-CO₂
, MEA-CO₂
-O₂
, MEA-CO₂
-H₂
S and MEA-CO₂
-O₂
-H₂
S. Degradation experiments
were performed in a 800-ml stainless steel autoclave reactor, using MEA concentrations of 3 and 5 mol/L, CO₂
 loadings of 0.4
and 0.5 mol CO2
/mol MEA, O₂
 pressure of 200 kPa, and H2
S concentrations of 84 and 87 mg/L at temperatures of 120 and
140°C. The results showed that, for the MEA-CO₂
 system, an increase in temperature or MEA concentration resulted in
a higher rate of MEA degradation. In contrast, an increase in CO₂
 loading in the MEA-CO₂
-O₂
 system led to a reduction of
MEA degradation. The degradation rate of the system with O₂
 was with 8.3 times as high as that of the system without O₂
.
The presence of H₂
S did not appear to affect the rate of degradation in the MEA-CO₂
-H₂
S system. However, for the system
in which both H₂
S and O₂
 were present, the MEA degradation was additionally induced by H₂
S, thus, resulting in higher
degradation rates than those of the system with O₂
 only. The extent of degradation under the same period of time increased in
the order MEA-CO₂
, MEA-CO₂
-H₂
S < MEA-CO₂
-O₂
 < MEA-CO₂
-O₂
-H₂
S.