CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles
The calcium-based honeycomb used in thermochemical energy storage (TCES) is promising for industrial applications, but its energy storage performance needs to be further improved. In this work, a novel MgO/ZnO co-doped calcium-based honeycomb for thermochemical energy storage was fabricated by extru...
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sg-ntu-dr.10356-1705562023-09-19T05:19:49Z CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles Zhang, Youhao Li, Yingjie Xu, Yunfei Wang, Feifei Wei, Zihao Fang, Yi Li, Caili He, Zirui School of Chemistry, Chemical Engineering and Biotechnology Engineering::Chemical engineering Thermochemical Energy Storage CaO The calcium-based honeycomb used in thermochemical energy storage (TCES) is promising for industrial applications, but its energy storage performance needs to be further improved. In this work, a novel MgO/ZnO co-doped calcium-based honeycomb for thermochemical energy storage was fabricated by extrusion molding method. The CaO/CaCO3 TCES performance of the MgO/ZnO co-doped CaO honeycomb was tested. ZnO and MgO show a synergistic impact on the CaO/CaCO3 TCES performance of the calcium-based honeycomb. The CaO honeycomb doped with MgO and ZnO exhibits the highest energy storage capacity with the mass ratio of CaO:MgO:ZnO of 100:10:3. After 25 cycles, the effective conversion and energy storage density of MgO/ZnO co-doped CaO honeycomb are 1.33 times those of the unmodified CaO honeycomb, respectively. MgO as the support improves the sintering resistance of the CaO honeycomb. ZnO strengthens the support effect of MgO for CaO and further improves the cyclic stability of the MgO doped CaO honeycomb in the multiple CaO/CaCO3 cycles. In addition, ZnO enhances the basicity and increases oxygen vacancies of the CaO honeycomb, which promotes energy storage. Moreover, MgO/ZnO co-doped CaO honeycomb exhibits much higher mechanical properties. The crushing strength of MgO/ZnO co-doped CaO honeycomb is 0.8 MPa after 20 cycles, which is 25.0 % higher than that of unmodified CaO honeycomb. The density functional theory calculation indicates that the movement of the CaO cluster is limited effectively by the Cac-Os bonds strengthened by ZnO and the Oc-Mgs bonds. Therefore, MgO/ZnO co-doped CaO honeycomb is a potential material for thermochemical energy storage. This work was financially supported by the National Natural Science Foundation of China (52276204) and Shandong Provincial Natural Science Foundation, China (ZR2020ME188). 2023-09-19T05:19:49Z 2023-09-19T05:19:49Z 2023 Journal Article Zhang, Y., Li, Y., Xu, Y., Wang, F., Wei, Z., Fang, Y., Li, C. & He, Z. (2023). CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles. Journal of Energy Storage, 66, 107447-. https://dx.doi.org/10.1016/j.est.2023.107447 2352-152X https://hdl.handle.net/10356/170556 10.1016/j.est.2023.107447 2-s2.0-85153069054 66 107447 en Journal of Energy Storage © 2023 Elsevier Ltd. All rights reserved. |
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Engineering::Chemical engineering Thermochemical Energy Storage CaO Zhang, Youhao Li, Yingjie Xu, Yunfei Wang, Feifei Wei, Zihao Fang, Yi Li, Caili He, Zirui CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
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The calcium-based honeycomb used in thermochemical energy storage (TCES) is promising for industrial applications, but its energy storage performance needs to be further improved. In this work, a novel MgO/ZnO co-doped calcium-based honeycomb for thermochemical energy storage was fabricated by extrusion molding method. The CaO/CaCO3 TCES performance of the MgO/ZnO co-doped CaO honeycomb was tested. ZnO and MgO show a synergistic impact on the CaO/CaCO3 TCES performance of the calcium-based honeycomb. The CaO honeycomb doped with MgO and ZnO exhibits the highest energy storage capacity with the mass ratio of CaO:MgO:ZnO of 100:10:3. After 25 cycles, the effective conversion and energy storage density of MgO/ZnO co-doped CaO honeycomb are 1.33 times those of the unmodified CaO honeycomb, respectively. MgO as the support improves the sintering resistance of the CaO honeycomb. ZnO strengthens the support effect of MgO for CaO and further improves the cyclic stability of the MgO doped CaO honeycomb in the multiple CaO/CaCO3 cycles. In addition, ZnO enhances the basicity and increases oxygen vacancies of the CaO honeycomb, which promotes energy storage. Moreover, MgO/ZnO co-doped CaO honeycomb exhibits much higher mechanical properties. The crushing strength of MgO/ZnO co-doped CaO honeycomb is 0.8 MPa after 20 cycles, which is 25.0 % higher than that of unmodified CaO honeycomb. The density functional theory calculation indicates that the movement of the CaO cluster is limited effectively by the Cac-Os bonds strengthened by ZnO and the Oc-Mgs bonds. Therefore, MgO/ZnO co-doped CaO honeycomb is a potential material for thermochemical energy storage. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Zhang, Youhao Li, Yingjie Xu, Yunfei Wang, Feifei Wei, Zihao Fang, Yi Li, Caili He, Zirui |
| format |
Article |
| author |
Zhang, Youhao Li, Yingjie Xu, Yunfei Wang, Feifei Wei, Zihao Fang, Yi Li, Caili He, Zirui |
| author_sort |
Zhang, Youhao |
| title |
CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
| title_short |
CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
| title_full |
CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
| title_fullStr |
CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
| title_full_unstemmed |
CaO/CaCO₃ thermochemical energy storage performance of MgO/ZnO co-doped CaO honeycomb in cycles |
| title_sort |
cao/caco₃ thermochemical energy storage performance of mgo/zno co-doped cao honeycomb in cycles |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170556 |
| _version_ |
1779156518552207360 |