Title :
Ion implantation of stainless steel heater alloys for anti-fouling applications
Author :
Nejim, A. ; Jeynes, C. ; Zhao, Q. ; Müller-Steinhagen, H.
Author_Institution :
Sch. of Electron. Eng., Surrey Univ., Guildford, UK
Abstract :
Ion implantation of fluorine and silicon ions into stainless steel heater alloys inhibits the accumulation of CaSO4 deposits when used in an saturated aqueous solution of 1.6 g/l concentration. This anti-fouling action leads to an increase in the heat transfer coefficient by more than 100% under a heat flux of 200 kW/m2 and 200% under a heat flux of 100 kW/m2 when compared to unimplanted heater elements. Heat transfer data indicate that following a heating cycle of 4000 minutes a thick layer of CaSO4 deposit remain on unimplanted heater surfaces. Similar CaSO4 deposits also formed on the implanted alloys initially but did not remain after 1000 minutes causing a significant recovery in the heat transfer coefficient. Ion implanting these alloys leads to surface energy reduction and hence the anti-fouling action observed
Keywords :
calcium compounds; fluorine; heat transfer; ion implantation; protection; silicon; stainless steel; surface energy; surface treatment; 4000 to 1000 min; CaSO4; CaSO4 deposit; CaSO4 deposits; anti-fouling action; anti-fouling applications; fluorine; heat flux; heat transfer; heat transfer coefficient; heating cycle; ion implantation; saturated aqueous solution; silicon ions; stainless steel heater alloys; surface energy reduction; Coatings; Costs; Economic indicators; Heat transfer; Ion implantation; Iron alloys; Resistance heating; Steel; Surface resistance; Thermal conductivity;
Conference_Titel :
Ion Implantation Technology Proceedings, 1998 International Conference on
Conference_Location :
Kyoto
Print_ISBN :
0-7803-4538-X
DOI :
10.1109/IIT.1998.813806
