Figure 8-4 Full Alternative Text 8-5. The gas storage tank is fabricated by bolting together two half cylindrical thin shells and two hemispherical shells as shown. If the tank is designed to withstand a pressure of 3 MPa, determine the required minimum thickness of the cylindrical and hemispherical shells and the minimum required number of longitudinal bolts per meter length at each side of the cylindrical shell. The tank and the 25-mm-diameter bolts are made from material having an allowable normal stress of 150 MPa and 250 MPa, respectively. The tank has an inner diameter of 4 m

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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8.5 

Figure 8-4 Full Alternative Text
8-5. The gas storage tank is fabricated by bolting together two half cylindrical thin shells
and two hemispherical shells as shown. If the tank is designed to withstand a pressure
of 3 MPa, determine the required minimum thickness of the cylindrical and hemispherical
shells and the minimum required number of longitudinal bolts per meter length at each side
of the cylindrical shell. The tank and the 25-mm-diameter bolts are made from material
having an allowable normal stress of 150 MPa and 250 MPa, respectively. The tank has an inner
diameter of 4 m.
8-6. The gas storage tank is fabricated by bolting together two half cylindrical thin shells
and two hemispherical shells as shown. If the tank is designed to withstand a pressure of
3 MPa, determine the required minimum thickness of the cylindrical and hemispherical shells
and the minimum required number of bolts for each hemispherical cap. The tank and the 25-
mm-diameter bolts are made from material having an allowable normal stress of 150 MPa and
250 MPa, respectively. The tank has an inner diameter of 4 m.
Probs. 8-5/6
Transcribed Image Text:Figure 8-4 Full Alternative Text 8-5. The gas storage tank is fabricated by bolting together two half cylindrical thin shells and two hemispherical shells as shown. If the tank is designed to withstand a pressure of 3 MPa, determine the required minimum thickness of the cylindrical and hemispherical shells and the minimum required number of longitudinal bolts per meter length at each side of the cylindrical shell. The tank and the 25-mm-diameter bolts are made from material having an allowable normal stress of 150 MPa and 250 MPa, respectively. The tank has an inner diameter of 4 m. 8-6. The gas storage tank is fabricated by bolting together two half cylindrical thin shells and two hemispherical shells as shown. If the tank is designed to withstand a pressure of 3 MPa, determine the required minimum thickness of the cylindrical and hemispherical shells and the minimum required number of bolts for each hemispherical cap. The tank and the 25- mm-diameter bolts are made from material having an allowable normal stress of 150 MPa and 250 MPa, respectively. The tank has an inner diameter of 4 m. Probs. 8-5/6
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