I am making this reply in hopes of generating a less costlier(as compared to AMINE Treating) way of reducing CO2 in a natural gas well stream. This web source came up indirectly in a GOOGLE search of CO2 removal with caustic. The idea of using caustic was mentioned to me by someone who said he had used it on low flow marginal well however I have not found anything available or discussed that is used commercially.
If someone has any suggestions let me know. The following describes the problem i face which is trying to determine a low cost CO2 reduction process based on the parameter noted and less costlier than the high capital and high operating cost Amine Treating system.
I need to reduce the CO2 level from about 2.8% to 2% for the total concentration of 3 gas wells before the gas will be accepted by the pipeline. While the past production history of these wells illustrate very marginal rates ~ 40 to 50 mcfd total, there is room for improvement and such circumstances as fluid loading, holes in tubing and perforation covered over indicate such improvement can be made. If these problems are fixed I feel that rates of 100 - 300 mcfd may be attainable with ~ .25 to 5 bcf reserves.
The main economic obstacle that I am facing in restoring production on these wells is the potential cost of a standard CO2 reduction sytem (AMINE TREATING UNIT, initial quotes of $75,000 not counting installation)and its high operating cost drain.
I would like to get the wells online without mitigating the production problems noted above and then later tackle them after generating some income. There is no way that this project will move forward if an Amine unit is my only choice to get my gas to meet pipeline specs.
It would be interesting to be able to create the chemical processes, equilibriums and equipment designs that would go on with the reaction of caustic and CO2 in some type of system that would lower CO2 in natural gas streams of marginal production rates noted as opposed to using the standard Amine treatment.
The reality however is that if reaction of CO2 with the NaOH is 1:1(I have read in other forums that if CO2 is gas phase, it may be 1:1), then .8% removal of CO2 from a 50 mcfd rate would still yield a volume of 400 cu ft of CO2 which is just over a mole(400/379ft3 per mole). This would correspond to the need for ~ 50 #/day of NaOH and disposal. for 200 mcfd, ~ 200 #/day NaOH.
At this point I wa tying to find prices for blk Naoh and I am having trouble but if it is under $1/lbs and if disposal of NaHCO3(Sodium Bicarbonate could be near what salt water is then it would definitely cost less than Amine Treatment.
any feedback or commets on the above analysis would be appreciated
will form