A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials
This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Jiang, Zhu [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2022transfer abstract |
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| Schlagwörter: |
Structurally stabilised composite phase change material (SSCPCM) |
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| Übergeordnetes Werk: |
Enthalten in: Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease - Soke, Fatih ELSEVIER, 2019, an international journal, Amsterdam [u.a.] |
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| Übergeordnetes Werk: |
volume:159 ; year:2022 ; pages:0 |
| Links: |
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| DOI / URN: |
10.1016/j.rser.2022.112134 |
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| 520 | |a This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. | ||
| 520 | |a This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. | ||
| 650 | 7 | |a Hot-melt extrusion |2 Elsevier | |
| 650 | 7 | |a Manufacturing technologies |2 Elsevier | |
| 650 | 7 | |a Impregnation |2 Elsevier | |
| 650 | 7 | |a Structurally stabilised composite phase change material (SSCPCM) |2 Elsevier | |
| 650 | 7 | |a Manufacturing readiness level |2 Elsevier | |
| 650 | 7 | |a Mix-sintering |2 Elsevier | |
| 650 | 7 | |a Thermal energy storage (TES) |2 Elsevier | |
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10.1016/j.rser.2022.112134 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001927.pica (DE-627)ELV057086281 (ELSEVIER)S1364-0321(22)00062-4 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl 44.65 bkl Jiang, Zhu verfasserin aut A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. Hot-melt extrusion Elsevier Manufacturing technologies Elsevier Impregnation Elsevier Structurally stabilised composite phase change material (SSCPCM) Elsevier Manufacturing readiness level Elsevier Mix-sintering Elsevier Thermal energy storage (TES) Elsevier Palacios, Anabel oth Zou, Boyang oth Zhao, Yanqi oth Deng, Weiyu oth Zhang, Xiaosong oth Ding, Yulong oth Enthalten in Elsevier Science Soke, Fatih ELSEVIER Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease 2019 an international journal Amsterdam [u.a.] (DE-627)ELV003073483 volume:159 year:2022 pages:0 https://doi.org/10.1016/j.rser.2022.112134 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ 44.65 Chirurgie VZ AR 159 2022 0 |
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10.1016/j.rser.2022.112134 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001927.pica (DE-627)ELV057086281 (ELSEVIER)S1364-0321(22)00062-4 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl 44.65 bkl Jiang, Zhu verfasserin aut A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. Hot-melt extrusion Elsevier Manufacturing technologies Elsevier Impregnation Elsevier Structurally stabilised composite phase change material (SSCPCM) Elsevier Manufacturing readiness level Elsevier Mix-sintering Elsevier Thermal energy storage (TES) Elsevier Palacios, Anabel oth Zou, Boyang oth Zhao, Yanqi oth Deng, Weiyu oth Zhang, Xiaosong oth Ding, Yulong oth Enthalten in Elsevier Science Soke, Fatih ELSEVIER Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease 2019 an international journal Amsterdam [u.a.] (DE-627)ELV003073483 volume:159 year:2022 pages:0 https://doi.org/10.1016/j.rser.2022.112134 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ 44.65 Chirurgie VZ AR 159 2022 0 |
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10.1016/j.rser.2022.112134 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001927.pica (DE-627)ELV057086281 (ELSEVIER)S1364-0321(22)00062-4 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl 44.65 bkl Jiang, Zhu verfasserin aut A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. Hot-melt extrusion Elsevier Manufacturing technologies Elsevier Impregnation Elsevier Structurally stabilised composite phase change material (SSCPCM) Elsevier Manufacturing readiness level Elsevier Mix-sintering Elsevier Thermal energy storage (TES) Elsevier Palacios, Anabel oth Zou, Boyang oth Zhao, Yanqi oth Deng, Weiyu oth Zhang, Xiaosong oth Ding, Yulong oth Enthalten in Elsevier Science Soke, Fatih ELSEVIER Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease 2019 an international journal Amsterdam [u.a.] (DE-627)ELV003073483 volume:159 year:2022 pages:0 https://doi.org/10.1016/j.rser.2022.112134 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ 44.65 Chirurgie VZ AR 159 2022 0 |
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10.1016/j.rser.2022.112134 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001927.pica (DE-627)ELV057086281 (ELSEVIER)S1364-0321(22)00062-4 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl 44.65 bkl Jiang, Zhu verfasserin aut A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. Hot-melt extrusion Elsevier Manufacturing technologies Elsevier Impregnation Elsevier Structurally stabilised composite phase change material (SSCPCM) Elsevier Manufacturing readiness level Elsevier Mix-sintering Elsevier Thermal energy storage (TES) Elsevier Palacios, Anabel oth Zou, Boyang oth Zhao, Yanqi oth Deng, Weiyu oth Zhang, Xiaosong oth Ding, Yulong oth Enthalten in Elsevier Science Soke, Fatih ELSEVIER Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease 2019 an international journal Amsterdam [u.a.] (DE-627)ELV003073483 volume:159 year:2022 pages:0 https://doi.org/10.1016/j.rser.2022.112134 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ 44.65 Chirurgie VZ AR 159 2022 0 |
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10.1016/j.rser.2022.112134 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001927.pica (DE-627)ELV057086281 (ELSEVIER)S1364-0321(22)00062-4 DE-627 ger DE-627 rakwb eng 610 VZ 44.90 bkl 44.65 bkl Jiang, Zhu verfasserin aut A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. Hot-melt extrusion Elsevier Manufacturing technologies Elsevier Impregnation Elsevier Structurally stabilised composite phase change material (SSCPCM) Elsevier Manufacturing readiness level Elsevier Mix-sintering Elsevier Thermal energy storage (TES) Elsevier Palacios, Anabel oth Zou, Boyang oth Zhao, Yanqi oth Deng, Weiyu oth Zhang, Xiaosong oth Ding, Yulong oth Enthalten in Elsevier Science Soke, Fatih ELSEVIER Reliability, validity and responsiveness of the squares test for manual dexterity in people with Parkinson’s disease 2019 an international journal Amsterdam [u.a.] (DE-627)ELV003073483 volume:159 year:2022 pages:0 https://doi.org/10.1016/j.rser.2022.112134 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.90 Neurologie VZ 44.65 Chirurgie VZ AR 159 2022 0 |
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a review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials |
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A review on the fabrication methods for structurally stabilised composite phase change materials and their impacts on the properties of materials |
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This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. |
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This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. |
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This article aims to provide a comprehensive review of the latest work on structurally stabilised composite phase change materials (SSCPCMs) for thermal energy storage, with a specific focus on the manufacturing technologies and the associated skills. SSCPCMs have attracted significant attention in recent years given their advantages of small volume changes, reduced phase segregation and corrosion, and improved thermal conductivity. The review covers SSCPCMs with different types of matrices, including ceramic, carbonic, metallic, and polymeric. Unlike previous reviews, this work pays a specific focus on the fabrication methods and the impact of preparation parameters on the properties of SSCPCMs, aimed to understand the current knowledge gap in the manufacturing processes and to promote the scale-up production of the SSCPCMs. To this end, knowledge databases on key preparation parameters were established from literature for three manufacturing routes: impregnation, mix-sintering, and hot-melt extrusion. Such databases provide a guidance for academic researchers and engineering practitioners to select optimal fabrication parameters for their designed SSCPCMs. The work also leads to the establishment of relationships between the fabrication parameters and material performances based on the databases. Furthermore, the manufacturing readiness level of various energy storage technologies were reviewed, which is an important indicator to evaluate the manufacturing maturity. |
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