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Oil and gas wells are highly corrosive environments because they contain H2S and CO2. The 13Cr martensitic stainless steel is widely used in the oil and gas industry because of high good corrosion resistance in CO2 gas wells. Generally, the addition of Mo increases the passivity of steel. However, the role of Mo in passive films has not been completely clarified.
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This paper will address both existing and new air barrier technology. Manufacturers, engineers, architects, trade professionals, and testing agencies will learn essential features of this emerging industry. Manufacturers will learn about the material properties and product performance requirements of air barrier coatings. Engineers and architects will learn basic building science principals required to create an air barrier utilizing coatings.
Coating practitioners are aware that single coat, thick film solvent-free epoxy linings have gained acceptance for their promise of productivity benefits which include a potential quick return to service for newly applied tank linings. From the vantage point of owners, applicators, inspectors and coating manufacturers this paper examines productivity and performance issues associated with a tandem approach of using a thin film solvent borne epoxy holding primer (especially over pitted steel) with a coat of solvent-free epoxy lining as opposed to using a single coat of a solvent-free lining applied direct to metal.
There is a tremendous need for the protection of assets during processing, shipment and storage. Critical spares must be readily available and easy to place into service with minimal impact to the operation of equipment. The proven technology of VCIs (Vapor Corrosion Inhibitors) has long been used to preserve many of these assets using traditional mechanisms such as papers and films.