Suppose that the initial concentration of SO₂ in the flue gas of a coal-fired powerplant is 1000 ppmv. If the flue gas is passed through a sorbent material at a flow rate of 3600 N m³/h, which is 100% effective at capturing the SO₂ from the gas stream, what mass of sulfur would be captured by the sorbent material each day? Notes: N m³/h is a unit of measurement indicating the volumetric flow rate at 0°C and 101.325 kPa. For the purposes of this question, assume that this situation can be modelled as an ideal gas. Edit: To clarify, 1 N m³/h has (SI units) of m³/s (or m³/h), the N indicates that these are "normal" cubic meters, not a unit of Newtons. O 123.6 kg O 5.14 kg O 24.7 kg O 12.4 kg

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Suppose that the initial concentration of SO₂ in the flue gas of a coal-fired powerplant is 1000 ppmv. If the flue gas is passed through a sorbent material at a flow rate of 3600 N m³/h, which is 100% effective at capturing the SO₂ from the gas stream, what mass of sulfur would be captured by the sorbent material each day? Notes: N m³/h is a unit of measurement indicating the volumetric flow rate at 0°C and 101.325 kPa. For the purposes of this question, assume that this situation an ideal gas. Edit: To clarify, 1 N m³/h has (SI units) of m³/s (or m³/h), the N indicates that these are "normal" cubic meters, not a unit of Newtons. O 123.6 kg O 5.14 kg O 24.7 kg O 12.4 kg be modelled as