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51313-02230-Creep and Hydrogen Resistant Grade 91 (9Cr1MoV) Heavy Plates for High Efficiency Refining Reactors

Product Number: 51313-02230-SG
ISBN: 02230 2013 CP
Author: Pillot Sylvain
Publication Date: 2013
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The overall efficiency of refining reactors is strongly linked to process parameters i.e. service temperatures and pressures. For years low alloyed ferritic materials – 125Cr05MoSi 225Cr1Mo(V) and 3Cr1Mo(V) steel grades mainly – are used to build heavy processing reactors thanks to their good mechanical properties at high temperatures and under high hydrogen partial pressures. In particular their good resistance to High Temperature Hydrogen Attack is of major interest for end-users.

Depending on the grades the ASME Code gives limitations in terms of maximum allowable temperature that can limit the use of these low alloys in the case of advanced processes. Moreover when these grades are allowed and above a given temperature maximum allowable stresses are driven by time dependant mechanical properties (i.e. by their creep behaviour) leading to a strong reduction of the considered resistance and then to extra-thickness and weight when considering the vessels.

Many developments have been done in the last decades to increase the efficiency of petrochemical/refining processes. In particular this can lead to increase service temperatures and therefore the actual pressure vessel wall temperatures. Indeed more and more temperatures around 500-510°C are likely to be used leading to a strongly reduced choice in terms of permitted steel grade.

Regarding 225Cr low alloy family the Vanadium enhanced grade is not allowed whereas the usual grade has reduced creep allowable stresses.
With a view to allowing strong improvements in admissible process parameters Industeel developed a V-modified 9Cr1Mo Creep Strength enhanced material with advanced hydrogen resistance and improved toughness. Very thick plates (up to 200mm thick) were produced and tested.

This contribution reports both mechanical and metallurgical assessments performed on these heavy plates. Evaluation of hydrogen resistance (HTHA) as well as creep resistance under high hydrogen pressure is also reported.
 

The overall efficiency of refining reactors is strongly linked to process parameters i.e. service temperatures and pressures. For years low alloyed ferritic materials – 125Cr05MoSi 225Cr1Mo(V) and 3Cr1Mo(V) steel grades mainly – are used to build heavy processing reactors thanks to their good mechanical properties at high temperatures and under high hydrogen partial pressures. In particular their good resistance to High Temperature Hydrogen Attack is of major interest for end-users.

Depending on the grades the ASME Code gives limitations in terms of maximum allowable temperature that can limit the use of these low alloys in the case of advanced processes. Moreover when these grades are allowed and above a given temperature maximum allowable stresses are driven by time dependant mechanical properties (i.e. by their creep behaviour) leading to a strong reduction of the considered resistance and then to extra-thickness and weight when considering the vessels.

Many developments have been done in the last decades to increase the efficiency of petrochemical/refining processes. In particular this can lead to increase service temperatures and therefore the actual pressure vessel wall temperatures. Indeed more and more temperatures around 500-510°C are likely to be used leading to a strongly reduced choice in terms of permitted steel grade.

Regarding 225Cr low alloy family the Vanadium enhanced grade is not allowed whereas the usual grade has reduced creep allowable stresses.
With a view to allowing strong improvements in admissible process parameters Industeel developed a V-modified 9Cr1Mo Creep Strength enhanced material with advanced hydrogen resistance and improved toughness. Very thick plates (up to 200mm thick) were produced and tested.

This contribution reports both mechanical and metallurgical assessments performed on these heavy plates. Evaluation of hydrogen resistance (HTHA) as well as creep resistance under high hydrogen pressure is also reported.
 

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