Synthesis and utilization of polyol-modified high specific surface area Ca(OH)2: an investigation

Calcium hydroxide (Ca(OH) 2 ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to de...

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Published in	Environmental science and pollution research international Vol. 31; no. 22; pp. 32714 - 32724
Main Authors	Yan, Dongjie, Zhu, Yingping, Zhao, Jiaxuan, Zhang, Qian, Wang, Yongping, Yang, Shengjiong
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.05.2024 Springer Nature B.V
Subjects	Acids Air pollution control Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Calcium hydroxide Cultural heritage Desulfurization Desulfurizing Digestion Earth and Environmental Science Ecotoxicology Efficiency Environment Environmental Chemistry Environmental Health Environmental science Flue gas Flue gas desulfurization Gas flow Grain size Industrial production Lignin Lime Mass transfer oil and gas industry Particle size Petrochemicals Petrochemicals industry Pollution Pollution control equipment Polyols Research Article Slaked lime Specific surface Surface area Surfactants Triethanolamine Waste Water Technology wastewater Water Management Water Pollution Control Ca(OH) Quicklime digestion Specific surface area DFT Polyols Ca(OH)2
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ISSN	1614-7499 0944-1344 1614-7499
DOI	10.1007/s11356-024-33390-y

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Abstract	Calcium hydroxide (Ca(OH) 2 ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH) 2 with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH) 2 with a high specific surface area, suitable for industry and easy to make. Ca(OH) 2 with a specific surface area of 41.555 m 2 /g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH) 2 is more than five times the specific surface area of ordinary Ca(OH) 2 . Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH) 2 grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH) 2 subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH) 2 by more than tenfold. Moreover, the modified Ca(OH) 2 exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH) 2 is proposed in this study, which could facilitate the industrial production of Ca(OH) 2 with high specific surface area.
AbstractList	Calcium hydroxide (Ca(OH)₂) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH)₂ with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH)₂ with a high specific surface area, suitable for industry and easy to make. Ca(OH)₂ with a specific surface area of 41.555 m²/g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH)₂ is more than five times the specific surface area of ordinary Ca(OH)₂. Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH)₂ grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH)₂ subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH)₂ by more than tenfold. Moreover, the modified Ca(OH)₂ exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH)₂ is proposed in this study, which could facilitate the industrial production of Ca(OH)₂ with high specific surface area. Calcium hydroxide (Ca(OH)2) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH)2 with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH)2 with a high specific surface area, suitable for industry and easy to make. Ca(OH)2 with a specific surface area of 41.555 m2/g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH)2 is more than five times the specific surface area of ordinary Ca(OH)2. Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH)2 grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH)2 subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH)2 by more than tenfold. Moreover, the modified Ca(OH)2 exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH)2 is proposed in this study, which could facilitate the industrial production of Ca(OH)2 with high specific surface area. Calcium hydroxide (Ca(OH) ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH) with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH) with a high specific surface area, suitable for industry and easy to make. Ca(OH) with a specific surface area of 41.555 m /g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH) is more than five times the specific surface area of ordinary Ca(OH) . Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH) grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH) subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH) by more than tenfold. Moreover, the modified Ca(OH) exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH) is proposed in this study, which could facilitate the industrial production of Ca(OH) with high specific surface area. Calcium hydroxide (Ca(OH)2) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH)2 with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH)2 with a high specific surface area, suitable for industry and easy to make. Ca(OH)2 with a specific surface area of 41.555 m2/g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH)2 is more than five times the specific surface area of ordinary Ca(OH)2. Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH)2 grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH)2 subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH)2 by more than tenfold. Moreover, the modified Ca(OH)2 exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH)2 is proposed in this study, which could facilitate the industrial production of Ca(OH)2 with high specific surface area.Calcium hydroxide (Ca(OH)2) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH)2 with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH)2 with a high specific surface area, suitable for industry and easy to make. Ca(OH)2 with a specific surface area of 41.555 m2/g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH)2 is more than five times the specific surface area of ordinary Ca(OH)2. Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH)2 grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH)2 subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH)2 by more than tenfold. Moreover, the modified Ca(OH)2 exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH)2 is proposed in this study, which could facilitate the industrial production of Ca(OH)2 with high specific surface area. Calcium hydroxide (Ca(OH) 2 ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its conventional usage is limited by its inherently low specific surface area, hampering its efficiency. To address this limitation, this study aims to develop a simple and industrially scalable preparation process for Ca(OH) 2 with a high specific surface area, thereby enhancing its effectiveness in various applications. This study aimed to develop a preparation process for making Ca(OH) 2 with a high specific surface area, suitable for industry and easy to make. Ca(OH) 2 with a specific surface area of 41.555 m 2 /g was successfully synthesized by incorporating polyols during lime digestion. The prepared high specific surface area Ca(OH) 2 is more than five times the specific surface area of ordinary Ca(OH) 2 . Incorporation of polyols within the lime digestion process induces a reduction in both Ca(OH) 2 grain size and particle dimensions, concurrently amplifying the specific surface area and optimizing mass transfer efficiency. Specifically, the desulfurization breakthrough time for Ca(OH) 2 subject to a 15% triethanolamine modification was notably extended to 879 s, surpassing the desulfurization breakthrough time of unaltered Ca(OH) 2 by more than tenfold. Moreover, the modified Ca(OH) 2 exhibited remarkable efficacy in neutralizing acidic wastewater. A new approach for the preparation of high-performance Ca(OH) 2 is proposed in this study, which could facilitate the industrial production of Ca(OH) 2 with high specific surface area.
Author	Zhao, Jiaxuan Yan, Dongjie Zhang, Qian Yang, Shengjiong Wang, Yongping Zhu, Yingping
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Snippet	Calcium hydroxide (Ca(OH) 2 ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its... Calcium hydroxide (Ca(OH) ) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its... Calcium hydroxide (Ca(OH)2) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its... Calcium hydroxide (Ca(OH)₂) finds widespread use in the petrochemical industry, particularly in flue gas desulfurization applications. However, its...
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SubjectTerms	Acids Air pollution control Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Calcium hydroxide Cultural heritage Desulfurization Desulfurizing Digestion Earth and Environmental Science Ecotoxicology Efficiency Environment Environmental Chemistry Environmental Health Environmental science Flue gas Flue gas desulfurization Gas flow Grain size Industrial production Lignin Lime Mass transfer oil and gas industry Particle size Petrochemicals Petrochemicals industry Pollution Pollution control equipment Polyols Research Article Slaked lime Specific surface Surface area Surfactants Triethanolamine Waste Water Technology wastewater Water Management Water Pollution Control
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Title	Synthesis and utilization of polyol-modified high specific surface area Ca(OH)2: an investigation
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