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Uranium Radiation Safety Toolkit v2.0

Double Chamber Model

   Notes:
   
  Input Fields Calculated Fields   
Enter the Rn source term (Bq/s): Rn source term in atoms /s
Enter the volume of the first chamber (m3):    
Enter the ventilation rate in air changes per hour in the first chamber: Air changes per second
or enter the ventilation rate in m3/s : Effective radon removal rate ( /s)
     Atoms of Radon per m3 at equilibrium. 
      Atoms of Po-218 per m3 at equilibrium. 
    Atoms of Pb-214 per m3 at equilibrium. 
    Atoms of Bi-214 per m3 at equilibrium. 
    Bq of Radon per m3 at equilibrium.
    Bq of Po-218 per m3 at equilibrium. 
      Bq of Pb-214 per m3 at equilibrium. 
     Bq of Bi-214 per m3 at equilibrium. 
    WL at equilibrium. 
    at equilibrium. 
Enter the fraction leaking from the first to the second chamber Amount of Radon entering second chamber (Bq/s)
Enter the volume of the second chamber (m3): Amount of Radon entering second chamber (atoms/s)
Enter the ventilation rate in air changes per hour in the second chamber: Air changes per second
or enter the ventilation rate in m3/s : Effective radon removal rate ( /s)
    Atoms of Radon per m3 at equilibrium. 
    Atoms of Po-218 per m3 at equilibrium. 
    Atoms of Pb-214 per m3 at equilibrium. 
    Atoms of Bi-214 per m3 at equilibrium. 
    Bq of Radon per m3 at equilibrium.
    Bq of Po-218 per m3 at equilibrium. 
    Bq of Pb-214 per m3 at equilibrium. 
    Bq of Bi-214 per m3 at equilibrium. 
    WL at equilibrium. 
    at equilibrium. 

 

 

 

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