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There are a lot of formulas being used her, to finally calculate two results the Reynolds number and the HTC of pipes. All the calculated values are individually displayed using the print command for reference. I would like to display the Re and HTC values back into the user interface which collects the variables for the required calculations on clicking the 'Temperature' button which acts like a calculate button to run the function.


import tkinter as tk 
import math

 ## all required fields in the output form 

fields = ('Inlet fluid Temperature (\N{DEGREE SIGN}C)','Outlet Fluid temperature (\N{DEGREE SIGN}C)','Volume flow rate (L/min)','Pipe Hydraulic Diameter (mm)','Fluid Specific Heat (KJ/Kg.K)','Fluid Density (Kg/m^3)','Specific Roughness','Reynolds Number','HTC Rough Surface') 

## calculations 
def Temperature(entries): 
    #all input temperatures Inlet and Outlet 

    IT = float(entries['Inlet fluid Temperature'].get()) 

    print("IT",IT) 

    OT = float(entries['Outlet Fluid temperature'].get()) 

    print("OT",OT) 

    #Average temperature calculation 

    Avg_temp = (IT + OT)/2 

    Avg_temp = ("%8.2f" % Avg_temp).strip() 

    print("Average temp =",Avg_temp) 

     

    #Volumetric flow rate and fluid velocity 

    PD =  float(entries['Pipe Hydraulic Diameter'].get()) 

    PHD = PD/1e3 

    print("Pipe Hydraulic Diameter = ",PHD) 

    Area = (PHD **2* 3.14)/4 #Cross sectional area 

    print("Area = ",Area) 

    VFR = float(entries['Volume flow rate'].get()) 

    V_FR = VFR/6000 

    print("Flow rate",V_FR) 

    Avg_Velocity = V_FR/Area  

    print("Avg Velocity = ",Avg_Velocity) 

     

    #Fluid Viscosity 
    AVGT = (IT + OT)/2
    FV = 0.00002414 *  10 ** (247.8 / (AVGT + 273-140 ))

    print("Fluid Viscosity = ",FV) 
  

    #Fluid thermal conductivity (FTC) 

    K1 = -0.575 + 0.006937 * (AVGT + 273) + (-8.15) - (0.6 * (AVGT + 273) ** 2) 

    K2 = K1/1000 

    K3 = K2 * 3600 


    #Prandt Number (Pr)
    FSH = float(entries['Fluid Specific Heat'].get())
    Pr = (FV * FSH)/K2
    print("Prandtl Number =",Pr)
    
    #Reynolds Number(Re)
    FAV = V_FR/Area
    FD = float(entries['Fluid Density'].get())
    Re = PHD * FAV * FD/FV
    print("Reynolds Number =",Re) 
    
    #Smooth pipe friction factor (sff)
    sff = (0.79 * math.log(Re) - 1.64) ** (-2)
    print("Friction factor = ",sff)
    
    #Nusselt Number (Nu)
    Nu_1 = ((sff/8) * (Re - 1000) * Pr) / (1 + (12.7 * (sff/8) ** 0.5) * (Pr ** (2/3)-1))
    print("Nusselt Number for smooth pipes =",Nu_1)
    
    ## For smooth pipes
    # Co efficient of Heat transfer        
    HTC_1 = Nu_1 * K3 / PHD
    print("Heat Transfer co eff 1=", HTC_1)       
    
    SmoothHTC_2 = (HTC_1 * 1000/3600)
    
    ## For Rough pipes
    # Relative surface roughness
    PSR = float(entries['Specific Roughness'].get())
    RSR = PSR/PHD
    print("Relative Surface Roughness is =",RSR)
    
    #Rough friction factor
    rff = 0.25/(math.log((RSR/3.75 + 5.74 / Re ** 0.9),10)**2)
    print("Rough Friction Factor =",rff)
    
    KP = RSR * Re * ((rff/8)**0.5)
    Nu_Rough = 1.15 * Nu_1 * (Pr)**0.14 * (1-0.106* KP ** 0.25) * rff/ sff
    
    HTC_Rough = Nu_Rough * K1 / PHD
    print ("HTC of Rough pipes =",HTC_Rough)

## trying to create the required user interface 
    
def makeform(root, fields): 
    entries = {} 
    for field in fields: 
        print(field) 
        row = tk.Frame(root) 
        lab = tk.Label(row, width=22, text=field+": ", anchor='w') 
        ent = tk.Entry(row) 
        ent.insert(0, "0") 
        row.pack(side=tk.TOP,  
                 fill=tk.X,  
                 padx=5,  
                 pady=5) 
        lab.pack(side=tk.LEFT) 
        ent.pack(side=tk.RIGHT,  
                 expand=tk.YES,  
                 fill=tk.X) 
        entries[field] = ent 
    return entries 

## buttons for calculations
if __name__ == '__main__': 
    root = tk.Tk() 
    ents = makeform(root, fields) 
    b1 = tk.Button(root, text='Temperature',command=(lambda e=ents: Temperature(e))) 
    b1.pack(side=tk.LEFT, padx=5, pady=5)    
    root.mainloop() 

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