Airflow Calculation for Baghouse Inlet/Outlet Temp 400F/210F

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The discussion focuses on calculating the actual volume of air in a baghouse with an inlet temperature of 400 F and an outlet temperature of 210 F, with a measured airflow of 10,500 acfm at the fan discharge. The baghouse is in poor condition, and the conditions are dry with no moisture present. A mixing process of process air and inleakage air is considered, leading to calculated values of 5,720 acfm for process air and 4,780 acfm for inleakage air. Participants express confusion about the specific volume being queried and suggest that a diagram could clarify the question. Understanding the airflow dynamics and conditions is crucial for accurate calculations.
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The inlet temperature of a baghouse under negative pressure is 400 F and the outlet temperature is 210 F. The volume of air is 10,500 acfm. (baghouse is in poor condition). How do I determine the actual volume given this information?
 
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Any significant water present? Is the cooling due only to air infiltration? Is the 10,500 acfm measured at the inlet?
 
It is a dry day, no rain, or mositure in the inlet ductwork. The 10,500 acfm is measured at the fan discharge, which is downstream from the baghouse.
 
I considered a simple mixing process of 400F process air and 70F inleakage air. Process air density = 0.0462 lb/ft3. Inleakage air density = 0.075 lb/ft3. Outlet air density = 0.0593 lb/ft3. All air streams heat capacity = 0.25 Btu/lb-F. A material and energy balance gives two equations and two unknowns. I got 5,720 acfm for the process air and 4,780 acfm for the inleakage air. NOTE: Fan power was not included. If known it can be added to the energy balance.
 
I'm having trouble understanding the question. Actual volume of what? The bag house? The airflow through the bag house? A diagram would help too.
 

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