Junxin Cai scite author profile

Adsorption−desorption process has been considered as a promising way for both the removal and recovery of volatile organic compounds (VOCs) from waste gases. However, during the engineering applications of the adsorbents, they would be deactivated or deteriorated. Herein, the deactivation mechanisms of different engineering VOC adsorbents (activated carbons and silica gels) by different processes or parameters have been investigated. It is found that the deactivation of adsorbents is mainly attributed to the following reasons: accumulation of VOCs in the pores, breaking of the pore structures due to the frequentchanging of processing conditions, occupation of the pores by water or other impurities, and so forth. For the temperature swing adsorption (TSA) process, the performance of adsorbents would be deteriorated by (i) the accumulation of VOCs due to incomplete desorption or (ii) the collapse of the pore structure of adsorbents (e.g., activated carbons and microporous silica gel) due to frequent cooling and heating between adsorption and desorption, respectively, leading to the deactivation of adsorbents. This phenomenon could be weakened when the pores in the adsorbents increased (e.g., the mesoporous silica gel, SG B). For the vacuum swing adsorption (VSA) process, the pore structure of adsorbents was slightly influenced during the adsorption−desorption cycles. The decrease in the adsorption capacity of adsorbents was mainly ascribed to the accumulation of VOC chemicals in the pores. In addition, in the TSA or VSA process, when the water vapor was present, the adsorption performance of adsorbents will be significantly reduced due to the occupation of adsorption sites by the water, resulting in faster deactivation. Considering the processing cost and lifetime of adsorbents, the TSA and VSA are combined together herein. The results show that, compared with the single TSA and VSA, the combined VSA−TSA process could be applied to different VOCs and improve the desorption rate of the adsorbents greatly at lower energy consumption and longer lifetime.

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Research on scheduling strategy of heterogeneous flexible load clusters with strong association consider dual-scale similarities

Zhang

Han

Cai

et al. 2022

International Journal of Electrical Power & Energy Systems

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Molecular Design and Synthesis of Water-Resistant Mesoporous Silica Gel for Vocs Adsorption-Desorption Treatment

Cai

et al. 2023

Preprint

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Study of Fog-Fog-Cloud Task Offloading Strategy for Smart Grid Considering Service Delay-Sensitive Dynamic Prioritization

Zhang¹,

Cai²

2022

SSRN Journal

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Junxin Cai

The effects of benthos and wetland area on shorebird abundance and species richness in coastal mangrove wetlands of Leizhou Peninsula, China

Deactivation Mechanisms of Engineering Adsorbents for VOCs Adsorption and the Lifetime-Prolonging Strategy

Research on scheduling strategy of heterogeneous flexible load clusters with strong association consider dual-scale similarities

Molecular Design and Synthesis of Water-Resistant Mesoporous Silica Gel for Vocs Adsorption-Desorption Treatment

Study of Fog-Fog-Cloud Task Offloading Strategy for Smart Grid Considering Service Delay-Sensitive Dynamic Prioritization

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