Volume 17, Issue 2 (9-2024)
ijhe 2024, 17(2): 359-376 |
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Ramezan Behtash H, Tahmasebpoor M. Evaluation of the structure modification of mineral limestone sorbent on its performance in CO2 capture during the calcium looping process. ijhe 2024; 17 (2) :359-376
URL: http://ijhe.tums.ac.ir/article-1-6882-en.html
URL: http://ijhe.tums.ac.ir/article-1-6882-en.html
1- Department of Chemical Engineering, Faculty of Chemical & Petroleum Engineering, University of Tabriz, Tabriz, Iran
2- Department of Chemical Engineering, Faculty of Chemical & Petroleum Engineering, University of Tabriz, Tabriz, Iran ,tahmasebpoor@tabrizu.ac.ir
2- Department of Chemical Engineering, Faculty of Chemical & Petroleum Engineering, University of Tabriz, Tabriz, Iran ,
Abstract: (259 Views)
Background and Objective: One of the major challenges in the calcium looping process is the loss of CO2 capture capacity of calcium-based sorbents during consecutive cycles due to increased sintering mechanism. This article aims to improve the performance of carbonation conversion in different cycles by employing hydration and acidification methods.
Materials and Methods: Following the preparation of both CaO-based and modified sorbents, scanning electron microscopy, X-ray diffraction, and Brunauer-Emmett-Teller analyses were employed to verify the proper preparation of the sorbents and examine their structures. Subsequently, the adsorption performance of different samples was assessed using a thermogravimetric analyzer device .
Results: The results of the carbonation reaction showed that the effective conversion rates for the raw and modified sorbents, employing acidification and hydration methods, at the end of the first cycle were 75%, 86%, and 73%, respectively. By the twentieth cycle, these rates decreased to 24%, 38%, and 26%, respectively. This decline indicates an improvement in the sorbent's capture capacity, attributed to the formation of calcium acetate, resulting in a more stable and porous structure. The findings from utilizing raw limestone sorbents and their modified versions through acidification and hydration techniques demonstrated a decrease in sorbent capture capacity by 69, 58, and 67% across twenty cycles. This highlights the enhanced sorbent stability achieved with the acidification method.
Conclusion: Based on obtained results, acidification method can be considered as one of the most efficient approaches for improving the performance of calcium oxide sorbents.
Materials and Methods: Following the preparation of both CaO-based and modified sorbents, scanning electron microscopy, X-ray diffraction, and Brunauer-Emmett-Teller analyses were employed to verify the proper preparation of the sorbents and examine their structures. Subsequently, the adsorption performance of different samples was assessed using a thermogravimetric analyzer device .
Results: The results of the carbonation reaction showed that the effective conversion rates for the raw and modified sorbents, employing acidification and hydration methods, at the end of the first cycle were 75%, 86%, and 73%, respectively. By the twentieth cycle, these rates decreased to 24%, 38%, and 26%, respectively. This decline indicates an improvement in the sorbent's capture capacity, attributed to the formation of calcium acetate, resulting in a more stable and porous structure. The findings from utilizing raw limestone sorbents and their modified versions through acidification and hydration techniques demonstrated a decrease in sorbent capture capacity by 69, 58, and 67% across twenty cycles. This highlights the enhanced sorbent stability achieved with the acidification method.
Conclusion: Based on obtained results, acidification method can be considered as one of the most efficient approaches for improving the performance of calcium oxide sorbents.
Type of Study: Research |
Subject:
Air
Received: 2023/12/29 | Accepted: 2024/05/13 | Published: 2024/09/16
Received: 2023/12/29 | Accepted: 2024/05/13 | Published: 2024/09/16
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