Handling heat‐stable salts in post‐combustion CO<sub>2</sub> capture: A detailed survey-Reference-Cited by-同舟云学术

Handling heat‐stable salts in post‐combustion CO₂ capture: A detailed survey

Published:2023-09-11 Issue:6 Volume:13 Page:876-904
ISSN:2152-3878
Container-title:Greenhouse Gases: Science and Technology
language:en
Short-container-title:Greenhouse Gases

Author:

Emori Wilfred¹²,Udoh Inime I.²³,Ekerenam Okpo O.²⁴,Ikeuba Alexander I.²⁵,Etim IniIbehe N.²⁶⁷,Njoku Chigoziri N.²⁷⁸,Daniel Enobong F.²⁹,Njoku Demian I.²⁷¹⁰¹¹¹²,Uzoma Paul C.²¹³¹⁴,Kolawole Sharafadeen K.²¹⁵,Olanrele Olajire S.²¹⁶

Affiliation:

1. School of Materials Science and Engineering Sichuan University of Science and Engineering Zigong Sichuan P. R. China

2. Chinese Academy of Sciences (NAAIMCAS) Nigerian Alumni Association of the Institute of Metal Research, Chinese Academic of Sciences (NAAIMCAS) Calabar Nigeria

3. The Hempel Foundation Coatings Science and Technology Center (CoaST), Department of Chemical and Biochemical Engineering Technical University of Denmark (DTU) Lyngby Denmark

4. Department of Biochemistry, School of Natural & Applied Sciences Federal University of Technology Ikot Abasi Akwa Ibom State Nigeria

5. Materials Chemistry Research Group, Department of Pure and Applied Chemistry University of Calabar Calabar Cross River State Nigeria

6. Marine Chemistry and Corrosion Research Group, Department of Marine Biology Akwa Ibom State University Mkpat‐Enin Nigeria

7. Africa Center of excellence in Future Energies and electrochemical systems (ACEFUELS) Federal University of Technology Owerri Nigeria

8. Environmental, Composite and Optimization Research Group, Department of Chemical Engineering Federal University of Technology Owerri Nigeria

9. Shenyang National Laboratory for Materials Science Chinese Academy of Sciences Shenyang Liaoning P. R. China

10. Department of Applied Science, School of Science and Technology Hong Kong Metropolitan University Kowloon Hong Kong

11. Center for corrosion and Protection of Materials Chinese Academy of Sciences Shenyang Liaoning P. R. China

12. Department of Industrial Chemistry Madonna University Elele Rivers State Nigeria

13. ZJU‐UIUC Institute, International Campus Zhejiang University Haining Zhejiang P. R. China

14. Department of Polymer and Textile Engineering Federal University of Technology Owerri Nigeria

15. Mechanical Engineering Department, School of Engineering and Technology Federal Polytechnic Offa Kwara Nigeria

16. Department of Chemical Sciences Mountain Top University Ibafo Ogun Nigeria

Abstract

AbstractThe generation of heat‐stable salts (HSSs) in alkanolamine solutions for CO2 capture processes, which is adapted for power plant technologies, exists irrespective of the class of amine solution used for the capture process. Their presence do not only trigger decrements in the CO2 absorption capacities of the solvents and contribute to further alkanolamine degradation, but also result in foaming and loss of solvents, which impacts system economics and threatens the environment. HSSs also promote the corrosiveness of the metallic structures of capture systems by lowering the pH and increasing the conductivity of the absorbent solutions. Overall, these effects substantially subvert the reliability and integrity of CO2 capture units. This survey affords sufficient background on the existence of HSSs by unraveling the flow process in a typical alkanolamine‐based CO2 capture unit with respect to their formation points and potential threats. Furthermore, the major HSSs removal and alkanolamine reclamation methodologies (electrodialysis, distillation, ion exchange, electromagnetic separation, and solvent extraction) were comprehensively explored. We believe that this review paper will benefit researchers across disciplines as we continue to explore new and complex solvent formulations to minimize the cost of CO2 capture while maximizing efficiency. © 2023 Society of Chemical Industry and John Wiley & Sons, Ltd.

Publisher

Wiley

Subject

Environmental Chemistry,Environmental Engineering

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/ghg.2242

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