Can I get a step by step on how to answer? Given the conditions below of a power plant, determine the concentration of SO2 at a point 5 km downwind on an overcast summer afternoon and 0.3 km perpendicular to the plume centerline (y = 0.3 km) if there is an inversion with a base height of 388 m. Assume SO2 emission as 1,645 g/s and wind speed as 3.5 m/s. Stack parameters: Height = 220.0 m, Diameter =2.20 m Exit velocity = 12.0 m/s , Temperature 315°C Atmospheric conditions: Pressure 98.0 kPa; Temperature 25.0°C Use Cu/Q equation and Graphs from FE Exam Handbook to solve this problem.
Can I get a step by step on how to answer? Given the conditions below of a power plant, determine the concentration of SO2 at a point 5 km downwind on an overcast summer afternoon and 0.3 km perpendicular to the plume centerline (y = 0.3 km) if there is an inversion with a base height of 388 m. Assume SO2 emission as 1,645 g/s and wind speed as 3.5 m/s. Stack parameters: Height = 220.0 m, Diameter =2.20 m Exit velocity = 12.0 m/s , Temperature 315°C Atmospheric conditions: Pressure 98.0 kPa; Temperature 25.0°C Use Cu/Q equation and Graphs from FE Exam Handbook to solve this problem.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Can I get a step by step on how to answer?
Given the conditions below of a power plant, determine the concentration of SO2 at a point 5 km downwind on an overcast summer afternoon and 0.3 km
perpendicular to the plume centerline (y = 0.3 km) if there
is an inversion with a base height of 388 m. Assume SO2 emission as 1,645 g/s and wind speed as 3.5 m/s.
Stack parameters:
Height = 220.0 m, Diameter =2.20 m
Exit velocity = 12.0 m/s , Temperature 315°C
Atmospheric conditions:
Pressure 98.0 kPa; Temperature 25.0°C
Use Cu/Q equation and Graphs from FE Exam Handbook to solve this problem.
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