3.3. The specific gravity of gasoline is approximately 0.70 (a) Estimate the mass (kg) of 50.0 liters of gasoline. (b) The mass flow rate of gasoline exiting a refinery tank is 1150 kg/min. Estimate the volumetric flow rate in liters/s. (e) Estimate the average mass flow rate (lbm/min) delivered by a gasoline pump. (d) Gasoline and kerosene (specific gravity 0.82) are blended to obtain a mixture with a specific ravity of 0.78. Calculate the volumetric ratio (volume of gasoline/volume of kerosene) of the two compounds in the mixture, assuming Vblend Vgasoline + Vkerosene

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3.3. The specific gravity of gasoline is approximately 0.70
(a) Estimate the mass (kg) of 50.0 liters of gasoline.
(b) The mass flow rate of gasoline exiting a refinery tank is 1150 kg/min. Estimate the volumetric flow
rate in liters/s.
(e) Estimate the average mass flow rate (lbm/min) delivered by a gasoline pump.
(d) Gasoline and kerosene (specific gravity 0.82) are blended to obtain a mixture with a specific
ravity of 0.78. Calculate the volumetric ratio (volume of gasoline/volume of kerosene) of the two
compounds in the mixture, assuming Vblend Vgasoline + Vkerosene
Transcribed Image Text:3.3. The specific gravity of gasoline is approximately 0.70 (a) Estimate the mass (kg) of 50.0 liters of gasoline. (b) The mass flow rate of gasoline exiting a refinery tank is 1150 kg/min. Estimate the volumetric flow rate in liters/s. (e) Estimate the average mass flow rate (lbm/min) delivered by a gasoline pump. (d) Gasoline and kerosene (specific gravity 0.82) are blended to obtain a mixture with a specific ravity of 0.78. Calculate the volumetric ratio (volume of gasoline/volume of kerosene) of the two compounds in the mixture, assuming Vblend Vgasoline + Vkerosene
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