TASK 2: Q1 (a) Design of Absorption Tower A mixture of gas containing 80.9 mole % Hydrogen peroxide (H₂O₂) and 19.1 mole % Methanol (CH₂OH) is to be separated. The absorption process is applied to separate the components. The separation is carried out by using acetone (CH,COCH) as a solvent. The H₂O2 - CH₂OH mixture is subjected to enter the absorption tower from the bottom of the column with a flow rate 7000 m/h, at 286K and 1 atm. Acetone enters the column from the top with a flow rate of 7500 kg/h and at 286 K. 88% of methanol is supposed to be recovered. And it is suggested that the gas stream should not exceed a permissible pressure drop of 0.00025 N/mm². Relevant Design data and conditions should be assumed and proper referencing should be provided Number of ideal stages: Flow Parameter; Tower diameter: Mass flow rate of liquid; Height Equivalent Transfer Plate (HETP) Interfacial area of packing per unit volume:

TASK 2: Q1 (a) Design of Absorption Tower A mixture of gas containing 80.9 mole % Hydrogen peroxide (H₂O₂) and 19.1 mole % Methanol (CH₂OH) is to be separated. The absorption process is applied to separate the components. The separation is carried out by using acetone (CH,COCH) as a solvent. The H₂O2 - CH₂OH mixture is subjected to enter the absorption tower from the bottom of the column with a flow rate 7000 m/h, at 286K and 1 atm. Acetone enters the column from the top with a flow rate of 7500 kg/h and at 286 K. 88% of methanol is supposed to be recovered. And it is suggested that the gas stream should not exceed a permissible pressure drop of 0.00025 N/mm². Relevant Design data and conditions should be assumed and proper referencing should be provided Number of ideal stages: Flow Parameter; Tower diameter: Mass flow rate of liquid; Height Equivalent Transfer Plate (HETP) Interfacial area of packing per unit volume:

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

TASK 2:
Q1 (a) Design of Absorption Tower
A mixture of gas containing 80.9 mole % Hydrogen peroxide (H₂O₂) and 19.1 mole % Methanol
(CH₂OH) is to be separated. The absorption process is applied to separate the components. The
separation is carried out by using acetone (CH3COCH3) as a solvent. The H₂O2 - CH3OH mixture
is subjected to enter the absorption tower from the bottom of the column with a flow rate 7000
m/h, at 286K and 1 atm. Acetone enters the column from the top with a flow rate of 7500 kg/h
and at 286 K. 88% of methanol is supposed to be recovered. And it is suggested that the gas
stream should not exceed a permissible pressure drop of 0.00025 N/mm².
Relevant Design data and conditions should be assumed and proper referencing should
be provided
Number of ideal stages:
Flow Parameter;
Tower diameter:
Mass flow rate of liquid;
Height Equivalent Transfer Plate (HETP)
Interfacial area of packing per unit volume;

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Step 1: Design an absorption tower.

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Step 2: Calculate number of ideal stages required.

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Step 3: Calculate flow parameter.

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Step 4: Calculate tower diameter.

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Step 5: Calculate mass flow rate of liquid.

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Step 6: Calculate the HETP.

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Step 7: Calculate the interfacial area.

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