3.9 Article

Controlled Carbonization Heating Rate for Enhancing CO2 Separation Based on Single Gas Studies

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出版社

BUDAPEST UNIV TECHNOLOGY ECONOMICS
DOI: 10.3311/PPch.14397

关键词

CO2; carbonization; molecular sieve; permeation; heating rate

资金

  1. Ministry of Higher Education
  2. Universiti Sains Malaysia [1001/PJKIMIA/8045035]

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The development of carbon membranes for efficient CO2 separation has shown promise in various applications such as landfill gas purification. By adjusting the heating rate during carbonization process, membrane separation properties can be enhanced, with the most optimal selectivity and permeability achieved with a heating rate of 1 K/min. It is crucial to carry out carbonization at slow heating rates to prevent significant loss of selectivity in the derived carbon membranes.
Concerns about the impact of greenhouse gas have driven the development of new separation technology to meet co, emission reduction targets. Membrane-based technologies using carbon membranes that are able to separate CO2 efficiently appears to be a competitive method. This research was focused on the development of carbon membranes derived from polymer blend of polyetherimide and polyethylene glycol to separate CO2 rendering it suitable to be used in many applications such as landfill gas purification, CO2 removal from natural gas or flue gas streams. Carbonization process was conducted at temperature of 923 K and 2 h of soaking time. To enhance membrane separation properties, pore structure was tailored by varying the carbonization heating rates to 1, 3, 5, and 7 K/ min. The effect of carbonization heating rate on the separation performance was investigated by single gas permeabilities using CO2, N-2, and CH4 at room temperature. Carbonization heating rate of 1 K/min produced carbon membrane with the most CO2 /N-2 and CO2/CH4 selectivity of 38 and 64, respectively, with the CO2 permeability of 211 barrer. Therefore, carbonization needs to be carried out at sufficiently slow heating rates to avoid significant loss of selectivity of the derived carbon membranes.

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