Crude oil is fractioned by two separating columns. The incoming crude oil is composed of, in weight fractions, 0.0500 gas, 0.240 gasoline, 0.100 kerosene, 0.120 diesel, 0.110 heating oil, 0.100 lubricating oil, and the rest solids. The crude oil is fed into the first column at m₁ = 1435 kg/h, producing a stream of gas, a 5:1 gasoline to kerosene stream, a stream containing kerosene and diesel, and a ms = 753 kg/h stream of the bottoms. The bottoms, containing diesel, lubricating oil, heating oil, and solids, is fed into a second distillation column that separates the components into three streams. The top stream contains diesel and heating oil. The middle stream contains heating oil and lubricating oil, and the bottom stream contains the solids. To produce my = 207 kg/h of the stream containing heating and lubricating oil, find 1. The flow rate, m3, of the gasoline and kerosene stream. 2. The composition of the heating oil and lubricating oil stream. 3. The composition of the diesel and heating oil stream.

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Macmillan Learning heating oil lubricating oil solids m3 = Xheating oil = What is the flow rate, m3, of the gasoline and kerosene stream coming off the first column? Xlubricating oil = m, kg/h bottoms diesel heating oil lubricating oil solids W Separation m, kg/h column 2 What is the composition of m7, the heating oil and lubricating oil stream coming off the second column? × P heating oil lubricating oil m, kg/h solids I kg/h le hoating oil/kg Enter numeric value kg lubricating oil/kg 86°F Mostly sunny

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© Macmillan Learning Crude oil is fractioned by two separating columns. The incoming crude oil is composed of, in weight fractions, 0.0500 gas, 0.240 gasoline, 0.100 kerosene, 0.120 diesel, 0.110 heating oil, 0.100 lubricating oil, and the rest solids. The crude oil is fed into the first column at m₁ = 1435 kg/h, producing a stream of gas, a 5:1 gasoline to kerosene stream, a stream containing kerosene and diesel, and a m5 = 753 kg/h stream of the bottoms. The bottoms, containing diesel, lubricating oil, heating oil, and solids, is fed into a second distillation column that separates the components into three streams. The top stream contains diesel and heating oil. The middle stream contains heating oil and lubricating oil, and the bottom stream contains the solids. To produce m7 = 207 kg/h of the stream containing heating and lubricating oil, find 1. The flow rate, m3, of the gasoline and kerosene stream. 2. The composition of the heating oil and lubricating oil stream. 3. The composition of the diesel and heating oil stream. m, kg/h crude oil gas gasoline kerosene diesel heating oil lubricating oil solids m₂ kg/h gas Separation column 1 m, kg/h gasoline kerosene m, kg/h kerosene diesel m, kg/h bottoms diesel heating oil lubricating oil m, kg/h diesel heating oil Separation m, kg/h column 2 heating oil lubricating oil B 86°F Mostly sunny