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Numerical simulation of a regenerative thermal oxidizer for volatile organic compounds treatment
Xiaowen Hao,Ruixin Li,Jiao Wang,Xinfei Yang 대한환경공학회 2018 Environmental Engineering Research Vol.23 No.4
As regulations governing the control of volatile organic compounds (VOCs) have become increasingly stringent in China, regenerative thermal oxidizers (RTOs) have been more frequently applied in medium- and high-concentration VOCs treatments. However, due to the lack of existing RTO-related research, experience remains a dominant factor for industrial application. This paper thus aimed to establish a model for industrial RTOs, using a transient simulation method and thermal equilibrium model to simulate the internal velocities and temperature distributions of an RTO across multiple cycles. A comparison showed an error of less than 5% between most correlating simulated and experimental measurement points, verifying that the simulation method was accurate. After verification, the velocity and temperature fields inside the RTO were simulated to study the uniformity of temperature and velocity within the packed beds: both fields displayed high uniformity after gas flowed through the honeycomb regenerator. The effects of air volume, VOCs concentrations, and valve switching times on the oxidation chamber temperature, RTO outlet temperature, and thermal efficiency (as well as their averages) were studied. The VOCs removal rate in this study was constantly above 98%, and the average thermal efficiency reached 90%.
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Xue Zou,Xiaowen Zhao,Lin Ye,Qi Wang,Hao Li 한국공업화학회 2015 Journal of Industrial and Engineering Chemistry Vol.21 No.1
A novel inverse emulsion-ionic crosslinking approach was adopted to prepare pH-responsive chitosanmicrospheres and effect of preparation technique, such as chitosan concentration, emulsifierconcentration, water/oil ratio and homogenization speed, on the morphology and property of themicrospheres were investigated. The chitosan microspheres with spherical in shape, smooth surface,high productivity and promising pH responsiveness were obtained. On this basis, bovine serum albumin(BSA)-loaded chitosan microspheres was prepared to test the drug release behavior in buffers withdifferent pH values. BSA-chitosan microspheres with particle sizes in range from 5 to 10mmreleased BSAslowly in neutral medium and released rapidly in acidic medium, and exhibited obviously pH-responsiverelease behavior. Korsmeyer–Peppas model can be used for describing BSA release kinetics from chitosanmicrospheres, which corresponded with a Fickian release behavior, and the diffusion through theswelling of chitosan microspheres was the main factor in controlling BSA release.
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Qiang Xie,Hao Gao,Yuxin Ban,Xiang Fu,Xiaowen Liang,Zhilin Cao,Jun Duan 대한토목학회 2023 KSCE Journal of Civil Engineering Vol.27 No.11
To figure out the influence of soft-hard layer thickness ratio on specimens’ mechanical properties evolution and microcracking mechanism, combined with digital image correlation technology and acoustic emission facility, uniaxial compression tests were conducted on soft-hard interbedded rock-like materials considering seven bedding dip angles and two soft-hard layer thickness ratios. The results are as follows: 1) The failure mode and failure pattern of layered rock masses are mainly determined by the bedding dip angle α and are less related to the soft-hard thickness ratio. With the increase of dip angle, the failure strength curve of the specimen is approximately U-shaped, and the soft-hard layer thickness ratio affects the U-shaped. The decrease in soft-hard layer thickness ratio will reduce the uniaxial compressive strength of specimens with low dip angles (α≦30°), cause differences in the evolution path of local strain fields of layered rock masses and reduce the horizontal displacement of the main crack. 2) The increase of the proportion of soft layer in the soft-hard layer thickness ratio will reduce the proportion of tensile cracks in the tensile failure specimens and shear cracks in the shear failure specimens, complicating the process of cracks of the layer rock mass. 3) Increasing the proportion of soft layers in the soft-hard layers thickness ratio promotes the generation of secondary cracks in layered rock masses and further reduces the integrity of specimens. Finally, through the findings in this paper, it can provide a reference for analyzing the crack propagation behavior of layered rock.
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Heat transfer characteristics in regenerator cell for gaseous organic compound treatment
Fulin Liu,Kaiming Ren,Junyan Pei,Xuze Zhao,Xiaowen Hao 대한기계학회 2023 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.37 No.2
Regenerative combustion technology can efficiently decompose organic gases with high thermal efficiency. This capability is attributed to the regenerator and the periodic gas switching technology. However, published findings regarding the regenerator were inconsistent with some important parameters, and investigations into the regenerative chamber did not provide a comprehensive explanation of the heat transfer characteristics. Therefore, a regenerator cell was investigated in this study. The temperature distribution pattern inside the cell was simulated after model verification. The effects of the superficial velocity, switching time, side width, and wall thickness of the regenerator cell on the outlet temperature, energy recovery ratio, and heat-transfer coefficient were investigated. The outlet temperature, heat transfer, and energy recovery ratio of the regenerator cells varied monotonically during each period. The average energy recovery ratio and heat transfer coefficient indicated that the side width of the regenerator cell was the most significant factor. Meanwhile, the switching time and wall thickness did not significantly affect the energy recovery ratio. The superficial velocity and wall thickness did not significantly affect the heat transfer coefficient.
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