As per API 650,
5.7.4.3 When the shell material is Group IV, IVA, V, or VI, all opening connections requiring reinforcement in a shell
plate or thickened insert plate more than 13 mm (1/2 in.) thick shall be prefabricated into the shell plate or thickened
insert plate, and the prefabricated assembly shall be thermally stress relieved within a temperature range of 600 °C to
650 °C (1100 °F to 1200 °F) for 1 hour per 25 mm (1 in.) of thickness prior to installation
Question: -
Material used - ASTM A 516 Gr 70 N - Group V of thickness 14 mm
PHWT not performed in prefabricated condition due to orientation problem
Bottom shell course erected and PWHT planned.
But in the tank foundation Bitucell (Bitumen impregnated fiber board for expansion joint filler on precast concrete components)
There may be possibility of fire or burn out on Bitucell in concrete during shell course nozzle PWHT.
Can any one suggest the way to skip PWHT at this situation, since the cost & time of rework is more.
5.7.4.3 When the shell material is Group IV, IVA, V, or VI, all opening connections requiring reinforcement in a shell
plate or thickened insert plate more than 13 mm (1/2 in.) thick shall be prefabricated into the shell plate or thickened
insert plate, and the prefabricated assembly shall be thermally stress relieved within a temperature range of 600 °C to
650 °C (1100 °F to 1200 °F) for 1 hour per 25 mm (1 in.) of thickness prior to installation
Question: -
Material used - ASTM A 516 Gr 70 N - Group V of thickness 14 mm
PHWT not performed in prefabricated condition due to orientation problem
Bottom shell course erected and PWHT planned.
But in the tank foundation Bitucell (Bitumen impregnated fiber board for expansion joint filler on precast concrete components)
There may be possibility of fire or burn out on Bitucell in concrete during shell course nozzle PWHT.
Can any one suggest the way to skip PWHT at this situation, since the cost & time of rework is more.