Performance optimization and kinetic analysis of HNO3 coupled with microwave rapidly modified coconut shell activated carbon for VOCs adsorption

Rong, Xing; Cao, Qing; Gao, Yan; Du, Xin; Dou, Huawei; Yan, Min; Li, Shijie; Wang, Qian; Zhang, Zhanchao; Chen, Baoming

doi:10.3389/fenrg.2022.1047254

Cited by 9 publications

(3 citation statements)

References 45 publications

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“…Several studies have shown that modifying activated carbon can significantly improve its physical and chemical characteristics, which in turn enhance adsorption selectivity and capacity . Activated carbon modification is generally implemented using acid treatment, base treatment, microwave irradiation, ozone oxidation, impregnation with hydrophilic chemicals, and grafting of hydrophilic functional groups connected to the activated carbon surface. , Acid treatment or base treatment is usually performed by immersing the activated carbon in different solutions, which is followed by filtration and drying. However, the drying process of wet-modified activated carbon is extremely prone to cause fires if the temperature increase due to heat accumulation exceeds its ignition temperature. , The increasing number of applications in the activated carbon modification industry and the frequent occurrence of combustion in the process of modifying activated carbon have necessitated additional studies on the safety research and combustion prevention …”

Section: Introductionmentioning

confidence: 99%

“… 9 Several studies have shown that modifying activated carbon can significantly improve its physical and chemical characteristics, which in turn enhance adsorption selectivity and capacity. 10 Activated carbon modification is generally implemented using acid treatment, 11 base treatment, 12 microwave irradiation, 13 ozone oxidation, 14 impregnation with hydrophilic chemicals, and grafting of hydrophilic functional groups connected to the activated carbon surface. 15 , 16 Acid treatment or base treatment is usually performed by immersing the activated carbon in different solutions, which is followed by filtration and drying.…”

Section: Introductionmentioning

confidence: 99%

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Spontaneous Combustion Characteristics of Activated Carbon Modified via Liquid Phase Impregnation during Drying

Li,

Zhang,

Lyu

et al. 2023

ACS Omega

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Spontaneous combustion characteristics are important issues for the safe operation of the wet-modified activated carbon drying process. The spontaneous combustion characteristics of activated carbon modified via liquid phase impregnation were fully investigated in this study. The modified activated carbon was prepared using columnar activated carbon and 4-amino-1,2-butanediol solution. Physical properties and surface functional group analyses were performed for activated carbon before and after modification. The ignition temperature of activated carbon before and after modification was then characterized using the methods of GB/T20450–2006, thermogravimetry–derivative thermogravimetry (TG-DTG), and TG–mass spectrometry (TG-MS). At the same time, the activation energy of activated carbon before and after modification was calculated by using thermodynamic analysis. Furthermore, a new self-designed test platform was introduced to investigate the spontaneous combustion characteristics of wet-modified activated carbon under the drying temperatures of 150, 175, 180, and 210 °C. The results show that the specific surface area of Brunauer, Emmett, and Teller (BET) is decreased by 368 m 2 ·g –1 , the total volume of pore size is decreased by 0.17 cm 3 ·g –1 , and the content of oxygen-containing functional groups is decreased by 0.071 mmol/g compared with row activated carbon. The ignition temperatures of the sample before modification characterized by the three methods are 483, 596, and 599 °C, respectively. The ignition temperatures of the sample after modification are 489, 607, and 611 °C, respectively. The activation energy of the modified activated carbon is increased by 35 kJ/mol compared to the original activated carbon. It is concluded that the temperature that triggers the modified activated carbon combustion during the drying process is between 175 and 180 °C, and the heat is mainly gathered at the longitudinal center of the combustion chamber through the investigation of spontaneous combustion experiments. The results in this study can contribute to safe production to prevent combustion in the process of modifying activated carbon during the drying process.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Spontaneous Combustion Characteristics of Activated Carbon Modified via Liquid Phase Impregnation during Drying

Li,

Zhang,

Lyu

et al. 2023

ACS Omega

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“…Different countries or organizations have different definitions for VOCs [1]. According to the World Health Organization (WHO), VOCs refer to a variety of organic compounds with boiling points ranging from 50 to 260°C under normal atmospheric pressure [2]. In China, VOCs are defined as organic compounds with a saturated vapor pressure greater than 70.91 Pa at room temperature, standard atmospheric pressure of 101.3 kPa, boiling points below 50-260°C, and an initial boiling point equal to 250°C [3].…”

Section: Introductionmentioning

confidence: 99%

Study on Adsorption Performance of Fe-Modified ZIF-67 Bimetallic Organic Framework for Toluene

Jiao

Wang

et al. 2023

E3S Web of Conf.

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Volatile Organic Compounds (VOCs) are significant contributors to air pollution and play a crucial role as precursors for secondary pollutants such as O3, thereby posing severe health risks and attracting global attention. ZIF-67, a metal-organic framework (MOFs), possesses a porous microstructure and high specific surface area, offering exceptional adsorption performance, catalytic activity, and structural stability. In this investigation, a solvent-thermal method was employed to synthesize a series of Fe-modified ZIF-67 denoted as FCMx. The impact of Fe doping and temperature on the dynamic adsorption performance of toluene was examined. The results revealed satisfactory adsorption performance of FCMx when the Fe doping was 14 mol%. FCM14 achieved saturation adsorption of toluene in approximately 5000 s, exhibiting a saturated adsorption capacity of 1769.80 mg/g at 25 °C. This represented a 25% improvement in adsorption time and a 30% increase in saturated adsorption capacity compared to undoped ZIF-67. Furthermore, at a reaction temperature of 150 °C, FCM14 exhibited saturation time of approximately 4300 s and a saturated adsorption amount of 1471.43 mg/g, indicating a combined effect of chemical and physical adsorption. The findings of this research provide valuable experimental data and theoretical support for the potential industrial application of MOFs in VOC adsorption.

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Recent advances in heteroatom-doped porous carbon for adsorption of gaseous pollutants

Wu,

Wang,

Liu

2024

Chemical Engineering Journal

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Performance optimization and kinetic analysis of HNO3 coupled with microwave rapidly modified coconut shell activated carbon for VOCs adsorption

Cited by 9 publications

References 45 publications

Spontaneous Combustion Characteristics of Activated Carbon Modified via Liquid Phase Impregnation during Drying

Spontaneous Combustion Characteristics of Activated Carbon Modified via Liquid Phase Impregnation during Drying

Study on Adsorption Performance of Fe-Modified ZIF-67 Bimetallic Organic Framework for Toluene

Recent advances in heteroatom-doped porous carbon for adsorption of gaseous pollutants

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