1.20 Material balance calculations produced the following expected flue gas composition: N₂ = 71%, CO2 = 11%, H₂O = 10%, O₂ = 8%. The calculated temperature and pressure are 300 °F and 1 atm. A combustion model indicates that the HCl concentration will be 35 ppm. Will this flue gas meet the standard of 25 ppm, dry vol- ume, corrected to 7% O2? 1.21 For the flue gas listed in Problem 1.20, if the PM concentration is 30 mg/m³ at flue gas conditions, will it meet the standard of 20 mg/dscm, corrected to 7% O2? 1.22 The flue gas of Problem 1.20 flows out of a 2.0-m diameter stack at a linear velocity of 18 m/s (at stack T and P). If the PM concen- tration just meets the standard of 20 mg/dscm, corrected to 7% O2, what is the emission rate of particulate matter, kg/day?

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1.20 Material balance calculations produced the following expected flue gas composition: N₂ = 71%, CO2 = 11%, H₂O = 10%, O₂ = 8%. The calculated temperature and pressure are 300 °F and 1 atm. A combustion model indicates that the HCl concentration will be 35 ppm. Will this flue gas meet the standard of 25 ppm, dry vol- ume, corrected to 7% O₂? 1.21 For the flue gas listed in Problem 1.20, if the PM concentration is 30 mg/m³ at flue gas conditions, will it meet the standard of 20 mg/dscm, corrected to 7% O2? 1.22 The flue gas of Problem 1.20 flows out of a 2.0-m diameter stack at a linear velocity of 18 m/s (at stack T and P). If the PM concen- tration just meets the standard of 20 mg/dscm, corrected to 7% O2, what is the emission rate of particulate matter, kg/day? ²