Figure 1 shows a hot gas stream at 500 °C being cooled to 300 °C by transferring heat to the liquid water that enters at 20 °C and exits at temperature Tout (C). Assume that the heat exchanger is...

Figure 1 shows a hot gas stream at 500 °C being cooled to 300 °C by transferring heat to the liquid water that enters at 20 °C and exits at temperature Tout °C). Assume that the heat exchanger is insulated. The cooling water does not mix with the gas. Calculate the amount of heat (in kilojoules) that has been absorbed by the cold water.

Extracted text: Figure 1 shows a hot gas stream at 500 °C being cooled to 300 °C by transferring heat to the liquid water that enters at 20 °C and exits at temperature Tout (C). Assume that the heat exchanger is insulated. The cooling water does not mix with the gas. Calculate the amount of heat (in kilojoules) that has been absorbed by the cold water. Water (20 °C), mm (kg) Hot gas (500 °C) 100 kmol Cool gas (300 °C) Heat Exchanger Ycoz mol CO/mol YN2 mol N/mol Усни тol CH/mol yH2o mol H;O/mol 0.2 mol CO/mol 0.1 mol N/mol 0.3 mol CH/mol 0.4 mol H2O/mol Water (Tout "C), maut (kg)