Question 2 of 4 View Policies Current Attempt in Progress -/2 ||| Benzene vapor at 491°C is cooled and converted to a liquid at 22.0°C in a continuous condenser. The condensate is drained into 1.75-m³ drums, each of which takes 1.50 minutes to fill. Calculate the magnitude of the rate (kW) at which heat is transferred from the benzene in the condenser. i kW Physical Property Tables Question 3 of 4 < > View Policies Current Attempt in Progress - / 2 E Sulfur dioxide is oxidized to sulfur trioxide in a small pilot-plant reactor. SO2 and 100.0% excess air are fed to the reactor at 451.0 °C. The reaction proceeds to a 75.0 % SO2 conversion, and the products emerge from the reactor at 602 °C. The production rate of SO3 is 131 kg/min. The reactor is surrounded by a water jacket into which water at 30 °C is fed. Physical Property Tables Reactor Feed Calculate the feed rates (in standard cubic meters per second - SCMS) of the SO2 and air and the production rate of SO3. SO2 i SCMS Air i SCMS SO3 i SCMS eTextbook and Media Hint

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Question 2 of 4 View Policies Current Attempt in Progress -/2 ||| Benzene vapor at 491°C is cooled and converted to a liquid at 22.0°C in a continuous condenser. The condensate is drained into 1.75-m³ drums, each of which takes 1.50 minutes to fill. Calculate the magnitude of the rate (kW) at which heat is transferred from the benzene in the condenser. i kW Physical Property Tables

Transcribed Image Text:

Question 3 of 4 < > View Policies Current Attempt in Progress - / 2 E Sulfur dioxide is oxidized to sulfur trioxide in a small pilot-plant reactor. SO2 and 100.0% excess air are fed to the reactor at 451.0 °C. The reaction proceeds to a 75.0 % SO2 conversion, and the products emerge from the reactor at 602 °C. The production rate of SO3 is 131 kg/min. The reactor is surrounded by a water jacket into which water at 30 °C is fed. Physical Property Tables Reactor Feed Calculate the feed rates (in standard cubic meters per second - SCMS) of the SO2 and air and the production rate of SO3. SO2 i SCMS Air i SCMS SO3 i SCMS eTextbook and Media Hint