Menu
Search
Filters
Close
Menu

Improving Life Cycle Cost Using High Alloyed Stainless Steels for Hydrochloric Acid Localized Condensation in Heat Exchangers

Picture for Improving Life Cycle Cost Using High Alloyed Stainless Steels for Hydrochloric Acid Localized Condensation in Heat Exchangers
Available for download

Equipment can have an important impact on the production at a refinery, petrochemical, or chemical plant. Change of equipment will often have a negative impact since it can disrupt the production with shutdowns, which will lead to production losses. In the long term, these short lifetimes for the equipment will cause many shutdowns, which will give a higher production cost. One example of equipment is the shell-and-tube heat exchanger.

Product Number: 51323-19274-SG
Author: Johan Salwén
Publication Date: 2023
$0.00
$20.00
$20.00

Heat exchangers are crucial within process industries such as refineries, petrochemical, and chemical plants. They are necessary to decrease or increase the temperature of the process stream. The most common type of industrial heat exchanger is the shell-and-tube type.
The process fluids in the heat exchangers can be highly corrosive and proper material selection is critical for reducing failures, maintenance, and repair costs. A corroding heat exchanger can also cause contamination, which can lead to expensive purification of the products.


A petrochemical plant was using super-austenitic alloy UNS S31254 seamless tubes for a heat exchanger cooling a stream with heavy hydrocarbons. Condensation of hydrochloric acid caused rapid corrosion of the tubes, which gave a lifetime in the range of 6-12 months for the tube bundle. Austenitic UNS N08028 has a better resistance against hydrochloric acid when compared to UNS S31254 and was therefore suggested as a better material solution for the tube bundle. After two years of service, the N08028 tubes showed no signs of corrosion and the process stream after the heat exchanger showed almost no detectable levels of metal ion contamination.


This paper will compare the corrosion properties of UNS S31254 and UNS N08028 in hydrochloric acid and the long-term cost savings achieved by changing tube material in the heat exchanger.

Heat exchangers are crucial within process industries such as refineries, petrochemical, and chemical plants. They are necessary to decrease or increase the temperature of the process stream. The most common type of industrial heat exchanger is the shell-and-tube type.
The process fluids in the heat exchangers can be highly corrosive and proper material selection is critical for reducing failures, maintenance, and repair costs. A corroding heat exchanger can also cause contamination, which can lead to expensive purification of the products.


A petrochemical plant was using super-austenitic alloy UNS S31254 seamless tubes for a heat exchanger cooling a stream with heavy hydrocarbons. Condensation of hydrochloric acid caused rapid corrosion of the tubes, which gave a lifetime in the range of 6-12 months for the tube bundle. Austenitic UNS N08028 has a better resistance against hydrochloric acid when compared to UNS S31254 and was therefore suggested as a better material solution for the tube bundle. After two years of service, the N08028 tubes showed no signs of corrosion and the process stream after the heat exchanger showed almost no detectable levels of metal ion contamination.


This paper will compare the corrosion properties of UNS S31254 and UNS N08028 in hydrochloric acid and the long-term cost savings achieved by changing tube material in the heat exchanger.

Product tags
Also Purchased
Picture for 00579 RECENT EXPERIENCES WITH STAINLESS
Available for download

00579 RECENT EXPERIENCES WITH STAINLESS STEELS IN FLUE GAS DESULFURIZATION PLANTS

Product Number: 51300-00579-SG
ISBN: 00579 2000 CP
Author: R. Zauter, T. L. Ladwein
$20.00
Picture for 00582 Experience With the New Ni-Cr-Mo alloy
Available for download

00582 Experience With the New Ni-Cr-Mo alloy UNS N06200 in Flue Gas Desulfurization (FGD) Systems

Product Number: 51300-00582-SG
ISBN: 00582 2000 CP
Author: Larry VanGansbeke
$20.00
Picture for 00583 A 6% Mo STAINLESS STEEL FOR
Available for download

00583 A 6% Mo STAINLESS STEEL FOR FLUE GAS DESULFURIZATION

Product Number: 51300-00583-SG
ISBN: 00583 2000 CP
Author: John F. Grubb, James D. Fritz, Barry W. Parks, and Ronald E. Polinski
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support