2. A power plant emits 300 kg of SO2 per hour into a neutral atmosphere with a wind speed of 2 m/s. The ơy and o, value...
2. A power plant emits 300 kg of SO2 per hour into a neutral atmosphere with a wind speed of 2 m/s. The ơy and o, values are assumed to be 100m and 30m, respectively. Taken into consideration of the ground reflection effects: 1). what will the ground level concentration of SO2, expressed in ug/m3, if the town is 2 km off the plume centerline and the plant has a stack that produces an effective stack height of 20 meter?...
A power plant burns coal with 2 % sulfur. Emissions occur through a 70-m tall 02. stack with a diameter of 1.5 m. The exit velocity and temperature are 15 m/s and 340°C, respectively. The atmospheric conditions are temperature of 28°C and pressure of 90 kPa. On a clear summer aftemoon with a wind speed of 2.8 m/s at 10-m level, the ground level SO concentration is measured to be 143 ug/m at a point 2.5 km downwind and 300...
6. A power plant emits SO2 at a concentration of 1.00 g/m3 as S. In the atmosphere, SO2 reacts with water vapors to form H2SO3 and H;SO4. Assuming that a 40.0% of the emitted SO2 reacts to form H2SO3 and the rest of it reacts to form H2SO. a. Calculate the concentration of H2SO3 and of H2SO4. Express your answer in mol/m3 and g/m3 as S. b. Calculate the sum of the concentrations of H2SO; and H2SO4 Express your answer...
6. A power plant emits SO2 at a concentration of 1.00 g/mas S. In the atmosphere, SO2 reacts with water vapors to form H2SO3 and H2SO4. Assuming that a 40.0% of the emitted SO2 reacts to form H2SO3 and the rest of it reacts to form H2SO4 a. Calculate the concentration of H2SO3 and of H2SO4. Express your answer in mol/m and g/mas S. b. Calculate the sum of the concentrations of H2SO3 and H2SO, Express your answer in gimas...
It is a clear night with a surface wind speed of 2 m/s. There is 100 g/s of a nonreactive pollutant that is released from a stack in a rural area. The physical stack height is 50 meters and there is a heat emission rate of .005 MW. A) Find the plume rise. (delta h) B) Find the ground level concentration 700m directly downwind at ground level.
URGENT!! A rural power plant with no fly ash removal equipment burns 300 tons of coal per day. Using the emission rate given in the table 1 for a coal containing 9 percent ash and fired on a spreader stoker, determine the deposition rate for 50 um particles having a density of 1.5 g/cm3 at distances of 1 and 3.5 km downwind from a stack assuming that 10 percent of the emissions are approximately 50 um in diameter. The effective...