Answer:
1752.14 tonnes per year.
Explanation:
To solve this exercise it is necessary to apply the concepts related to power consumption and power production.
By conservation of energy we know that:
[tex]\dot{P} = \bar{P}[/tex]
Where,
[tex]\dot{P} =[/tex] Production of Power
[tex]\bar{P} =[/tex] Consumption of power
Where the production of power would be,
[tex]\dot{P} = m \dot{E}\eta[/tex]
Where,
m = Total mass required
[tex]\dot{E} =[/tex] Energy per Kilogram
[tex]\eta =[/tex]Efficiency
The problem gives us the aforementioned values under a production efficiency of 45%, that is,
[tex]\dot{P} = \bar{P}[/tex]
[tex]m \dot{E}\eta = \bar{P}[/tex]
Replacing the values we have,
[tex]m(8*10^13)(0.45) = 2*10^{12}[/tex]
Solving for m,
[tex]m = \frac{ 2*10^{12}}{(8*10^13)(0.45)}[/tex]
[tex]m = 0.0556 \frac{kg}{s}[/tex]
We have the mass in kilograms and the time in seconds, we need to transform this to tons per year, then,
[tex]m = 0.556\frac{kg}{s}*(\frac{3.1536*10^7s}{1year})(\frac{1ton}{1000kg})[/tex]
[tex]m = 1752.14[/tex]tonnes per year.
