Performance improvement of wet scrubbing unit for resin production

Name: Nirut Arnaratana

Organization : Chulalongkorn University. Faculty of Science

Name: Teerawat Sema

Organization : Chulalongkorn University. Faculty of Science

Email : teerawat.se@chula.ac.th

keyword: Wet scrubbing

LCSH: Air quality management

; Resin production

LCSH: Industrial management

LCSH: Chemical engineering

Abstract: Alkyd resin plant is a facility where the resin is produced at larger scale. Around 200,000 tons per year of alkyd resin are produced and used as coatings and finishes in the protective coatings industry. In the resin production process, several waste gases (e.g., toluene and xylene) are emitted. Wet scrubber is therefore implemented to absorb those waste gases aiming at pollution control. The undesired performance of wet scrubber causes unpleasant odor and pollution impact. The studied plant uses water and aqueous solution of 5%wt. sodium hydroxide as an absorbent. Due to the low solubility of some waste gases in the absorbent, unpleasant odor has been experienced. This work aims to improve the performance of wet scrubber unit for alkyd production by a manipulation of the operating conditions. As a result, the waste gas from resin processing to wet scrubber system was simulated using Aspen Plus at waste gas flow rate of 60 kg/hr. Since the knockout drum is a crucial unit that reduces the load of waste gas treatment in the wet scrubber, performance improvement of the knockout drum was preliminary investigated by varying (i) operating temperature (30-50 ๐C) and (ii) nitrogen carrier flow rate 5-20 kg/hr. Simulation result shows that flow rates of xylene and toluene in the discharge gas stream trend to be low when decreasing the temperature and nitrogen flow rate

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2024

Modified: 2025-03-05

Issued: 2025-03-05

บทความ/Article

application/pdf

BibliograpyCitation : In Thai Institute of Chemical Engineering and Applied Chemistry. The 33st Thai Institute of Chemical Engineering and Applied Chemistry International Conference (TIChE 2024) (pp.85-90). Bangkok : Thai Institute of Chemical Engineering And Applied Chemistry

eng

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