I have posted this topic in the piping and fluid mechanics section, but I was hoping to locate a standard to refer to:
Can anyone help me locate a standard or similar that will guide me in determining the dynamic forces exerted by a gas flowing through a circular duct.
I do have access to most British and European standards, but only a few American standards if anyone is able to point me to a particular standard.
The conditions are:
Duct Size: DN1000
Duct Material: Carbon Steel to BS EN 10025 S275
Duct wall thickness: 8 mm
Flue gas pressure: -0.5 barg
Flue gas flow rate including water vapour: 32318 kg/h
Solids in flue gas: 1250 kg/h
The duct starts at a waste heat boiler (WHB) and feeds to an electro static precipitator (ESP). Between the WHB and ESP, the duct undergoes two directional changes of 45 degrees each in the Z plane, separated by a straight section of duct approximately 2 metres. There are expansion joints (Bellows) located at both WHB and ESP.
I did a quick calc on the forces exerted by the flue gas at one of the 45 degree mitred bends (Made of 5 sections) and have come up with 118 N in the horizontal direction and 49 N in the vertical direction.
Please note that these calculations may not be spot on as I have assumed a gas density of 0.657 kg/m^3 and a velocity of 18 m/s.
(I took a bit of help from this website: )
Thanks in advance
Paul Hearn
Can anyone help me locate a standard or similar that will guide me in determining the dynamic forces exerted by a gas flowing through a circular duct.
I do have access to most British and European standards, but only a few American standards if anyone is able to point me to a particular standard.
The conditions are:
Duct Size: DN1000
Duct Material: Carbon Steel to BS EN 10025 S275
Duct wall thickness: 8 mm
Flue gas pressure: -0.5 barg
Flue gas flow rate including water vapour: 32318 kg/h
Solids in flue gas: 1250 kg/h
The duct starts at a waste heat boiler (WHB) and feeds to an electro static precipitator (ESP). Between the WHB and ESP, the duct undergoes two directional changes of 45 degrees each in the Z plane, separated by a straight section of duct approximately 2 metres. There are expansion joints (Bellows) located at both WHB and ESP.
I did a quick calc on the forces exerted by the flue gas at one of the 45 degree mitred bends (Made of 5 sections) and have come up with 118 N in the horizontal direction and 49 N in the vertical direction.
Please note that these calculations may not be spot on as I have assumed a gas density of 0.657 kg/m^3 and a velocity of 18 m/s.
(I took a bit of help from this website: )
Thanks in advance
Paul Hearn