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Solvent Degradation Studies

Gas treating solvents used in the separation of CO₂ break down as a result of long exposure or repeated use because of side reactions with CO₂, O₂, SO₂, dissolved metals and other contaminants. This process is called degradation and products formed as a result of degradation are termed degradation products. Formation of degradation products will eventually result in a loss of capacity and give rise to a number of operating problems including corrosion and foaming. In the case of severe degradation, the solvent will need to be replaced and the degraded solvent must be disposed of in an environmentally acceptable manner. This is why it is highly desirable to prevent or at the very least to minimize solvent degradation.

Although it is well known that amines undergo severe degradation in the presence of O₂, this gas is usually not present in a typical natural gas stream. As such, there has been no practical incentive to study amine degradation caused by O₂. Therefore, although a number of studies have been carried out on degradation of different solvents due to CO₂, very limited information is available on solvent degradation with O₂. However, since flue gases contain O₂ and the desire to separate CO₂ from flue gas streams is gaining momentum, there is an urgent need to develop a better understanding of degradation of gas treating solvents with O₂. The main objective of conducting this type of study is to develop an understanding of the mechanism of degradation and use this knowledge to formulate a degradation prevention strategy. Degradation prevention becomes important since it implies that any suitable solvent can be used repeatedly without the economic and operational burden imposed by loss of CO₂ removal capacity that occurs as a result of severe degradation. The strategy will be as follows:

Identifying the degradation products.
Determining the overall rate of degradation of single and mixed solvents in the presence of CO₂ O₂, SO₂ and dissolved metals.
Postulating reaction mechanisms for degradation of single and mixed solvents in the presence of CO₂ and O₂.
Verifying the reaction mechanisms.
Formulating degradation prevention strategies for single and mixed solvents.

The degradation prevention strategy will likely include the addition of other components aimed at minimizing degradation. It will also look at the role of the operation of the stripping column and other high temperature sections of a typical CO₂ extraction plant in causing degradation. All the strategies developed at bench scale will be tested at pilot plant scale.

Research Consortium of International Test Centre for CO₂ Capture Sponsored By:

SaskPower, EnCana, HTC Purenergy, E.ON|UK, Saudi Aramco, Research Institute of Innovative Technology for the Earth (RITE), Alberta Energy Research Institute (AERI), RWEnpower, Babcock & Wilcox, Natural Resources Canada, and Saskatchewan Energy & Resources

Other support also provided by:

Canada Foundation for Innovation (CFI), Natural Sciences and Engineering Research Council of Canada, Western Economic Diversification Canada, Government of Saskatchewan, Alberta Research Council, Natural Resources Canada, University of Waterloo, and University of Regina.