Stoichiometry Problem - Material Balance, 21

Category: Chemical Engineering Math, Algebra

"Published in Newark, California, USA"

After a crystallization operation, the solution of calcium chloride in water contains 60 g of CaCl₂ per 100 g of water. Calculate the amount of this solution necessary to dissolve 200 kg of CaCl₂·6H₂O crystals at a temperature of of 298K (25°C). The solubility of CaCl₂ at 298K (25°C) is 819.2 g of CaCl₂ per 1000 g of water. (Atomic Weights: Ca = 40, Cl = 35, O = 16, H = 1)

Solution:

The given word problem is about mixing of calcium chloride crystals with enough calcium chloride solution to dissolve the crystals completely which involves the principles of Stoichiometry. The total amount of a substance in the reactants or incoming ingredients must be equal to the total amount of a substance in the final products. In short, the Law of Conservation of Mass must be followed all the time.  To illustrate the given problem, it is better to draw the flow diagram as follows

Photo by Math Principles in Everyday Life

Basis: 200 kg of CaCl₂·6H₂O Crystals

Let x = be the amount of CaCl₂ Solution

      y = be the amount of Final Solution

Molecular Weight Data:

CaCl₂ = 110
CaCl₂·6H₂O = 218
H₂O = 18

Overall Material Balance of Mixer:

Consider CaCl₂ Solution:

Consider CaCl₂·6H₂O Crystals:

Consider Final Solution:

Material Balance of CaCl₂:

Substitute the value of x to the first equation, we have

Substitute the value of y to the first equation, we have

Therefore,

The amount of CaCl₂ Solution is 144.1887 kg.

Stoichiometry Problem - Material Balance, 20

Category: Chemical Engineering Math, Algebra

"Published in Newark, California, USA"

One hundred milliliters per minute of 5M NaOH solution (sp. gr. = 1.18) is mixed with 10M NaOH solution (sp. gr. = 1.37). It is desired to produce a solution containing 11.7 % mole NaOH. Calculate the required volumetric flow rate (ml/min) of 10M NaOH solution. Also, calculate the volumetric flow rate at the final solution. (Atomic Weights: Na = 23, O = 16, H = 1)

Solution:

The given word problem is about mixing of two NaOH solutions with different concentrations to produce a desired NaOH solution which involves the principles of Stoichiometry. The total amount of a substance in the reactants or incoming ingredients must be equal to the total amount of a substance in the final products. In short, the Law of Conservation of Mass must be followed all the time.  To illustrate the given problem, it is better to draw the flow diagram as follows

Photo by Math Principles in Everyday Life

Basis: 100 ml/min of 5M NaOH Solution

Let x = be the volumetric flow rate of 10M NaOH in ml/min

Molecular Weight Data:

NaOH = 40
H₂O = 18

Consider 5M NaOH Solution:

 

 

Consider 10M NaOH Solution:
 

 

 

 

 

 

 

 

 

 

 

The total moles of NaOH from the two solutions is equal to
 

The total moles of H₂O from the two solutions is equal to

Hence, the % mole of NaOH is equal to

Material Balance of NaOH:

Therefore, the volumetric flow rate of 10M NaOH Solution is 78.2 ml/min.

The volumetric flow rate of Final Solution is 100 ml/min + 78.2 ml/min = 178.2 ml/min.