Many important metals occur as sulfide, arsenide, and antimonide minerals, especially in the Sudbury
mineral complex. The first step in processing these ores involves “roasting” the ore in air to produce the metal
or metal oxide, along with nonmetal oxides that can be serious pollutants if not trapped.
Suppose that you roast 2.00 kg of the mineral polymidite, Ni3S4. The balanced equation for the reaction
is:
2 Ni3S4 + 11 O2 -> 6 NiO + 8 SO2
(a) How many kg of NiO can be produced?
(b) How many kg of the pollutant SO2 can be produced?
(c) How many liters of air at 25°C are required for roasting? Assume that air contains 23% O2 by mass,
and that the density of air at 25°C is 1.2 g/L.
Molar masses: Ni3S4 304.3 g/mol NiO 74.69 g/mol SO2 64.06 g/mol
Here is my work:
(a)
2.00kg Ni3S4 * (1000g / 1kg) * (1 mole Ni3S4 / 304.3g/mole) * (6 mole NiO / 2 mole Ni3S4) * (74.69g/mol / 1 mole NiO) * (1kg / 1000g) = 1.47kg
(b)
2.00kg Ni3S4 * (1000g / 1kg) * (1 mole Ni3S4 / 304.3g/mole) * (8 mole SO2 / 2 mole Ni3S4) * (64.06g/mol / 1 mole SO2) * (1kg / 1000g) = 1.68kg
(c)
Not sure how to approach this problem. Any suggestions are welcome. I will try and reason my way through it if I don't get help within a few hours and see if my logic is correct.
How do a-b look, do they seem logical?
Thakns for reading.
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