The total plume height of a boiler exhaust plume is 170 m at a distance of...

Module 4: Dispersion of Pollutants 1. Most equations for predicting plume rise contain two terms that...

Module 4: Dispersion of Pollutants 1. Most equations for predicting plume rise contain two terms that account for different physical reasons for the rise. What is the nature of these two terms? 2. Is it justifiable to use a constant value for the effective plume rise for a given situation, or should one in reality, adjust for the distance downwind from the stack? Discuss. 3. Sulfur dioxide is being emitted in a rural area at a rate of 0.90 kg/s...

Estimate the plume rise of CO2 from a factory stack which has an effective height, 20...

Estimate the plume rise of CO2 from a factory stack which has an effective height, 20 m, internal diameter, 0.8 m; smoke exit velocity, 9 m/s, and smoke temperature, 300oC. Assume the wind speed is 6 m/s, the is 20oC, and the atmospheric pressure is 1.013 bar.

   1. A stack emitting 80 g/s of NOx has an effective stack height of 100...

   1. A stack emitting 80 g/s of NOx has an effective stack height of 100 m. The wind speed is 4 m/s. It is a clear summer day with the sun nearly overhead. The emission is near a human inhabited area. Estimate the ground-level NOx concentration (µg/m3) for the following scenarios:        (a) directly downwind at a distance of 2 km. (b) at the point downwind where the NOx, is a maximum. (hint: use diagram on slide 59). What...

On an afternoon with moderate incoming solar radiation and an average wind speed of 2.5 m/s...

On an afternoon with moderate incoming solar radiation and an average wind speed of 2.5 m/s at a height of 10 m above the ground surface, a power plant emits sulfur dioxide at a rate of 1 kg/s. The effective height of stack is 130 m. The wind speed at the effective stack height is 2.8 m/s. Calculate the concentration (in μg/m3) of sulfur dioxide at ground elevation, directly 3 km downwind from the stack (show hand calculation for this...

Suppose the following atmospheric altitude vs. temperature data have been collected. Altitude (m) Temperature (oC) 0...

Suppose the following atmospheric altitude vs. temperature data have been collected. Altitude (m) Temperature (oC) 0 20 100 18 200 16 300 15 400 16 500 17 600 18 700 19 (a) The temperature of a plume of smoke from a smoldering campfire (at ground elevation) is 21.5 oC. Determine the mixing height. b) A weather anemometer at 10 m height measures the wind speed to be 2.6 m/s, determine the the wind speed at one-half the mixing height. Assume...

On a clear winter night, a wind speed of 2.5 m/s was measured on a 10-m...

On a clear winter night, a wind speed of 2.5 m/s was measured on a 10-m pole. The centerline ground-level concentration of SO2 was found to be 198 μg/m3 at a point 2.8 km downwind from a coal-fired power plant. The effective stack of the power plant is 85 m. a.Determine the atmospheric stability category of the day. b. Estimate the windspeed at 85 m (in m/s). c. Determine the SO2 emission rate (kg/s) of the power plant in kg/s...

Doo not copy The context for the set of questions below is a gas-fired industrial boiler....

Doo not copy The context for the set of questions below is a gas-fired industrial boiler. Continuous emission monitoring requires that the flow of combustion gases be quantitated to allow for estimation of the total mass of each constituent emitted from the stack. Assume that the duct leading from the combustion chamber is exposed to outside air in a vertical run as it leaves the combustion chamber. Velocity of flow is to be measured within the outlet duct of the...

1. Two objects (A and B) are at rest and separated by a distance of 1200...

1. Two objects (A and B) are at rest and separated by a distance of 1200 meters. At the same moment, they accelerate towards each other. The magnitude of the acceleration of A is 6 m / s2, while the magnitude of the acceleration of B is 2 m / s2. Eventually the objects collide, as illustrated. Determine the speed of each object at the time of the crash 2. A person throws a ball upwards from a height of...

a ball is shot from the ground into the air. at a height of 9 m...

a ball is shot from the ground into the air. at a height of 9 m it’s horizontal velocity is 8m/s and vertical velocity is 6 m/ a. to what maximum does the ball rose b. total horizontal distance does the b-ball travel c. what are the magnitudes and direction of the bball's velocity before it hits the ground

Determine the stopping distance for a skier moving down a slope with friction with an initial...

Determine the stopping distance for a skier moving down a slope with friction with an initial speed of 19.0 m/s . Assume that θ = 5.62 deg, g=9.81 m/s2, and that the coefficient of kinetic friction between the skier and the slope is 0.289. Suppose the temperature drops by 2 degrees C and the skier waxes her skis; the coefficient of kinetic friction drops to 0.173. What is now the stopping distance, for the same initial velocity?