A 2L container has 1 L water and 1 L air headspace. The headspace has a total pr

Question

A 2L container has 1 L water and 1 L air headspace. The headspace has a total pressure of 1 atm. The temperature of both water and air is 298K. 1 mg of formaldehyde (HCHO) was added into the water. Since formaldehyde is a volatile compound, some formaldehyde will escape into the air. The Henry’s constant (KH) for formaldehyde is 6300 M?atm-1. What is the mass concentration of formaldehyde in the water after the equilibrium between the air and the water has been reached? What is the molar fraction of formaldehyde (YHCHO) in the air headspace at equilibrium? A 2L container has 1 L water and 1 L air headspace. The headspace has a total pressure of 1 atm. The temperature of both water and air is 298K. 1 mg of formaldehyde (HCHO) was added into the water. Since formaldehyde is a volatile compound, some formaldehyde will escape into the air. The Henry’s constant (KH) for formaldehyde is 6300 M?atm-1. What is the mass concentration of formaldehyde in the water after the equilibrium between the air and the water has been reached? What is the molar fraction of formaldehyde (YHCHO) in the air headspace at equilibrium? A 2L container has 1 L water and 1 L air headspace. The headspace has a total pressure of 1 atm. The temperature of both water and air is 298K. 1 mg of formaldehyde (HCHO) was added into the water. Since formaldehyde is a volatile compound, some formaldehyde will escape into the air. The Henry’s constant (KH) for formaldehyde is 6300 M?atm-1. What is the mass concentration of formaldehyde in the water after the equilibrium between the air and the water has been reached? What is the molar fraction of formaldehyde (YHCHO) in the air headspace at equilibrium?

Explanation / Answer

yP=xKH

y/x = 6300

where

y is mole fraction of formaldehyde in air haedspace

x is mole fraction of formaldehyde in water

M=molar mass of formaldehyde =30

m=mass of formaldehyde =1 mg

n=moles of formaldehyde =0.033 mmol

y/x = 6300

6301X =0.033

X=5.2372*10-6 formaldehydemoles in liquid phase

6300X =0.03299436 formaldehyde moles in gas phase

moles of water in 1 L

density of water is 1 kg/L

so moles of water in 1 L = 1/18 = 0.055 kmol

moles of air in 1 L space at 1 atm 298K

PV =nRT

101.325 *0.001 =n *8.314 *298

n=4.08*10-5 kmol =0.0408 mole of air

so

mole fraction of formaldehyde in water = 5.2372*10-6/(0.055*1000+5.2372*10-6) =9.52218 *10-8

mole fraction of formaldehyde in air = 0.03299436 /(0.0408+0.03299436 ) =0.4471

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