The effect mechanism of HCl on chromium removal by CaO sorbent

A combination of experiments and density functional theory (DFT) calculations was conducted to explore the effect mechanism of HCl on Cr adsorption over CaO surface. The experimental results suggested that CaO showed good removal performance for Cr. The best Cr adsorption efficiency was 74.51% at 10...

Full description

Saved in:
Bibliographic Details
Published in:Journal of cleaner production 2023-04, Vol.397, p.136559, Article 136559
Main Authors: Zhang, Aijia, Liu, Jing, Yang, Yingju
Format: Article
Language:English
Subjects:
activation energy
adsorption
adverse effects
calcium oxide
CaO
chromium
Chromium removal
Density functional theory
energy
HCl
oxidation
Reaction mechanism
reaction mechanisms
sorbents
species
volatilization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A combination of experiments and density functional theory (DFT) calculations was conducted to explore the effect mechanism of HCl on Cr adsorption over CaO surface. The experimental results suggested that CaO showed good removal performance for Cr. The best Cr adsorption efficiency was 74.51% at 1000 °C in N2. HCl had an adverse effect on Cr removal due to the competition with Cr for active sites and the promotion effect on Cr volatilization by HCl. O2 can offset the inhibitory effect of HCl on Cr capture by CaO with the coexistence of HCl. The XPS results suggested that Cr capture by CaO contained adsorption and oxidation. The combined action of HCl and O2 can further promote the oxidation of chromium on CaO. DFT calculations demonstrated that HCl, CrCl3, and CrO2Cl2 adsorptions on CaO (001) surface were chemisorptions with the adsorption energies of −170.32, −288.25 and −125.56 kJ/mol, respectively. CrCl3 (Cr(III)) was formed on CaO surface via a five-step reaction pathway (Cr → Cr(ads) → CrCl(ads) → CrCl2(ads) → CrCl3(ads) → CrCl3). CrCl2 formation was the rate-determining step, and the energy barrier was 160.81 kJ/mol. CrO2Cl2 (Cr(VI)) preferred to form via chlorination-oxidation process with four steps (Cr → Cr(ads) → CrCl2(ads) → CrO2Cl2(ads) → CrO2Cl2). The rate-determining step of CrO2Cl2 formation on CaO surface in the pathway was CrCl2(ads) → CrO2Cl2(ads). The activation energy barrier of CrO2Cl2 formation on CaO surface was 238.60 kJ/mol. This study of reaction mechanism contributed to deeply understand the effect of HCl on the transformation of chromium species over CaO surface. •The interaction between Cr and CaO contained adsorption and oxidation.•The combined action of HCl and O2 can strengthen Cr oxidation on CaO sorbent.•Reaction chemistry of CrCl3 and CrO2Cl2 formation was studied by DFT method.•CrCl(ads) .→ CrCl2(ads) was the rate-determining step of CrCl3 formation.•CrCl2(ads) .→ CrO2Cl2(ads) was the rate-determining step of CrO2Cl2 formation.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2023.136559