Methanol is produced by reacting CO and H2. A fresh feed stream containing CO and H2joins...
Methanol is produced by reacting CO and H2. A fresh feed stream containing CO and H2joins a recycle stream, and the combined stream is fed to a reactor. A portion of the methanol leaving the reactor is condensed, and the unconsumed CO and H2and uncondensed methanol are recycled. The stream going from the reactor to the condenser flows at a rate of 275 mol/min and contains 63.1 mole% H2, 27.4 mole% CO and 9.53 mole% CH3OH. The mole fraction of methanol in the recycle stream is0.004. Calculate the molar flow rates of CO and H2in the fresh feed and the production rate of liquid methanol.
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Methanol is produced by reacting CO and H2. A fresh feed stream
containing CO and H2joins...
i beed help calculating from wt% to moles in the reactor outlet stream. the reactor outket...
i
beed help calculating from wt% to moles in the reactor outlet
stream. the reactor outket shows a molar flow rate but the
percentages of the reactor outlet are in weight %. see the note in
parenthesis in the question. thanks
3. Methanol is produced by reacting carbon monoxide and hydrogen. A fresh feed stream containing CO and Hjoins a recycle stream and the combined stream is fed to a reactor. The reactor outlet stream flows at a rate of...
In methanol production. CO + 2 H2 → CH3OH Fresh feed gas containing 65.5 % H2,...
In methanol production. CO + 2 H2 → CH3OH Fresh feed gas containing 65.5 % H2, 32.0 % CO and 2.5 % inserts A is used. The product gas is cooled that completely separates the methanol and the unreacted gas including inert is recycled. A purge stream was provided to remove the inserts. The gas entering the converter (Fresh feed and Recycle) contains 24.0 % CO, while the gas leaving the cooler/separator contains 20.0 % CO. What is the efficiency...
In the production of methanol. CO + 2 H2 à CH3OH Fresh feed gas containing...
In the production of methanol. CO + 2 H2 à CH3OH Fresh feed gas containing 66.5 % H2, 31.0 % CO and 2.5 % inserts A is used. The product gas is cooled that completely separate the CH3OH and the unreacted gas including inert is recycled. A purge stream was provided to remove the inerts. The gas entering the converter (Fresh feed and Recycle) contains 24.0 % CO, while the gas leaving the cooler/separator contains 20.0 % CO. What...
In the production of methanol. CO + 2 H2 CH3OH Fresh feed gas containing 66.5...
In the production of methanol. CO + 2 H2 CH3OH Fresh feed gas containing 66.5 % H2, 31.0 % CO and 2.5 % inserts A is used. The product gas is cooled that completely separate the CH3OH and the unreacted gas including inert is recycled. A purge stream was provided to remove the inerts. The gas entering the converter (Fresh feed and Recycle) contains 24.0 % CO, while the gas leaving the cooler/separator contains 20.0 % CO. What is...
A synthesis gas stream consisting of 65.30% H2, 34.30% CO, and 0.400% CH4 (by mole) is...
A synthesis gas stream consisting of 65.30% H2, 34.30% CO, and 0.400% CH4 (by mole) is fed into the process described below at a rate of 100 mol/hour. The effluent stream from the reactor is fed into a separator where the methanol is completely removed, and the unconverted reactants are recycled to the reactor. To avoid the buildup of methane, a portion of the recycled stream is purged. At present operating conditions, the CO conversion over the entire process is...
Carbon monoxide and hydrogen react catalytically to produce methanol. CO + 2HZ rightarrow CH_3OH The fresh...
Carbon monoxide and hydrogen react catalytically to produce methanol. CO + 2HZ rightarrow CH_3OH The fresh feed (100 moles/min) composition is 30 mole% carbon monoxide, a stoichiometric proportion of hydrogen and 10 mole% inert (nitrogen). A condenser (operates at 0 degree C and 1 atm) separates the unreacted gases and inert from the liquid product methanol. Part of the gas stream is recycled back into the main feed line to the reactor and the rest purged. The recycle ratio is...
Problem 4.80 Methanol Synthesis Methanol is synthesized from carbon monoxide and hydrogen in a catalytic reactor....
Problem 4.80 Methanol Synthesis Methanol is synthesized from carbon monoxide and hydrogen in a catalytic reactor. The fresh feed to the process contains 32.0 mol% CO 64.0 mol% H2 and 4.00 mol% N2: This stream is mixed with a recycle stream in a ratio of 10.00 mol recycle / mol fresh feed to produce th feed to the reactor, which contains 12.0 mol% N2 The reactor effluent goes to a condenser from which two streams emerge: a liquid product stream...
Methanol is synthesized from carbon monoxide and hydrogen (H2) in a catalytic reactor. CO + 2H2...
Methanol is synthesized from carbon monoxide and hydrogen (H2) in a catalytic reactor. CO + 2H2 → CH3OH The fresh feed to the process contains 32.0% mol of CO, 64% of H2 and 4% N2. This stream is mixed with a recirculation stream at a ratio of 5 mol recirculation / 1 mol fresh feed to the process. The mixture of these streams forms the feed stream to the reactor, which contains 13.0 mol% of N2. Low conversion is achieved...
Fresh air containing 5.00 mole % water vapor is to be cooled and dehumidified to a...
Fresh air containing 5.00 mole % water vapor is to be cooled and dehumidified to a water content of 2.13 mole % H2O. A stream of fresh air is combined with a recycle stream of previously dehumidified air and pass through the cooler. The blended stream entering the unit contains 2.88 mole % H2O. In the air conditioner, same of the water in the feed stream is condensed and removed as liquid. A fraction of the dehumidified air leaving the...
PROBLEM 10 Methyl iodine can be produced by reacting hydriodic acid with an excess of methanol...
PROBLEM 10 Methyl iodine can be produced by reacting hydriodic acid with an excess of methanol via the reaction HI+CH,OHCH,I+H2O A typical process for large-scale production of methyl iodine is indicated in the figure. The process conditions are: The fresh feed contains 1 mole of HI (stream #1] (Calculating Basis) Fresh methanol (stream #3) is fed 300% in excess with respect to the fresh feed of HI. 3. The overall conversion of Hl is 70% The stream (#7) exiting the...
i
beed help calculating from wt% to moles in the reactor outlet
stream. the reactor outket shows a molar flow rate but the
percentages of the reactor outlet are in weight %. see the note in
parenthesis in the question. thanks
3. Methanol is produced by reacting carbon monoxide and hydrogen. A fresh feed stream containing CO and Hjoins a recycle stream and the combined stream is fed to a reactor. The reactor outlet stream flows at a rate of...
In methanol production. CO + 2 H2 → CH3OH Fresh feed gas containing 65.5 % H2, 32.0 % CO and 2.5 % inserts A is used. The product gas is cooled that completely separates the methanol and the unreacted gas including inert is recycled. A purge stream was provided to remove the inserts. The gas entering the converter (Fresh feed and Recycle) contains 24.0 % CO, while the gas leaving the cooler/separator contains 20.0 % CO. What is the efficiency...
Carbon monoxide and hydrogen react catalytically to produce methanol. CO + 2HZ rightarrow CH_3OH The fresh feed (100 moles/min) composition is 30 mole% carbon monoxide, a stoichiometric proportion of hydrogen and 10 mole% inert (nitrogen). A condenser (operates at 0 degree C and 1 atm) separates the unreacted gases and inert from the liquid product methanol. Part of the gas stream is recycled back into the main feed line to the reactor and the rest purged. The recycle ratio is...
Problem 4.80 Methanol Synthesis Methanol is synthesized from carbon monoxide and hydrogen in a catalytic reactor. The fresh feed to the process contains 32.0 mol% CO 64.0 mol% H2 and 4.00 mol% N2: This stream is mixed with a recycle stream in a ratio of 10.00 mol recycle / mol fresh feed to produce th feed to the reactor, which contains 12.0 mol% N2 The reactor effluent goes to a condenser from which two streams emerge: a liquid product stream...
PROBLEM 10 Methyl iodine can be produced by reacting hydriodic acid with an excess of methanol via the reaction HI+CH,OHCH,I+H2O A typical process for large-scale production of methyl iodine is indicated in the figure. The process conditions are: The fresh feed contains 1 mole of HI (stream #1] (Calculating Basis) Fresh methanol (stream #3) is fed 300% in excess with respect to the fresh feed of HI. 3. The overall conversion of Hl is 70% The stream (#7) exiting the...
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