In this study,high-gravity intensified heterogeneous catalytic ozonation is utilized for treatment of phenol-containing wastewater,and the kinetics of the direct reaction between ozone and phenol in the presence of ex...In this study,high-gravity intensified heterogeneous catalytic ozonation is utilized for treatment of phenol-containing wastewater,and the kinetics of the direct reaction between ozone and phenol in the presence of excess tertiary butanol(TBA)is investigated.It is revealed that the direct reaction between ozone and phenol in the rotating packed bed(RPB)follows the pseudo-first-order kinetics with a reaction rate constant higher than that in the conventional bubbling reactor(BR).Under different conditions of temperature,initial pH,high-gravity factor,and gaseous ozone concentration,the apparent reaction rate constant varies in the range of 0.0160–0.115 min-1.An empirical power-exponential model is established to characterize the effects of these parameters on the direct reaction between ozone and phenol by high-gravity intensified heterogeneous catalytic ozonation.展开更多
This study investigated catalytic decomposition and mass transfer of aqueous ozone promoted by Fe-MnCu/γ-Al_(2)O_(3)(Cat)in a rotating packed bed(RPB)for the first time.The results showed that the value of the overal...This study investigated catalytic decomposition and mass transfer of aqueous ozone promoted by Fe-MnCu/γ-Al_(2)O_(3)(Cat)in a rotating packed bed(RPB)for the first time.The results showed that the value of the overall decomposition rate constant of ozone(K_(c))and overall volumetric mass transfer coefficient(K_(L)a)are 4.28×10^(-3) s^(-1) and 11.60×10^(-3) s^(-1) respectively at an initial pH of 6,βof 40,Co3(g)of 60 mg·L^(-1)and Q_(L) of 85 L·h^(-1) in deionized water,respectively.Meanwhile,the K_(c) and K_(L)a values of Fenhe water are0.88×10^(-3) s^(-1) and 2.51×10^(-3) s^(-1) lower than deionized water,respectively.In addition,the K_(c) and K_(L)a values in deionized water for the Cat/O_(3)-RPB system are 44.86%and 47.41%higher than that for the Cat/O_(3)-BR(bubbling reactor)system,respectively,indicating that the high gravity technology can facilitate the decomposition and mass transfer of ozone in heterogeneous catalytic ozonation and provide some insights into the industrial wastewater.展开更多
This study investigated the indirect oxidation of nitrobenzene(NB)by hydroxyl radicals(·OH)in a rotating packed bed(RPB)using competitive kinetics method with p-nitrochlorobenzene as a reference compound.The rate...This study investigated the indirect oxidation of nitrobenzene(NB)by hydroxyl radicals(·OH)in a rotating packed bed(RPB)using competitive kinetics method with p-nitrochlorobenzene as a reference compound.The rate constants of NB with·OH are calculated to be between(1.465±0.113)×10^(9)L/(mol·s)and(2.497±0.192)×10^(9)L/(mol·s).The experimental data are fitted by the modified Arrhenius equation,where the activation energy is 4877.74 J/mol,the order of NB concentration,rotation speed,and initial pH is 0.2425,0.1400 and 0.0167,respectively.The ozonation process of NB could be enhanced by RPB,which is especially effective for highly concentrated NB-containing waste-water under alkaline conditions.The high gravity technology can accelerate ozone mass transfer and self-decomposition of ozone to produce more·OH,resulting in an increase in the indirect oxidation rate of NB by·OH and consequently effective degradation of NB in wastewater.展开更多
基金supported by the Fund for Shanxi Province Higher Education“1331 Project”for Improving Quality and Efficiency Construction(nuc2021-006)Key Research&Development Plan of Shanxi Province(201903D321059)+1 种基金Scientific Activities of Selected Returned Overseas Professionals in Shanxi Province(20200004)Transformation and Cultivation Projects of Scientific and Technological Achievements in Universities of Shanxi Province Institutions(2020CG040).
文摘In this study,high-gravity intensified heterogeneous catalytic ozonation is utilized for treatment of phenol-containing wastewater,and the kinetics of the direct reaction between ozone and phenol in the presence of excess tertiary butanol(TBA)is investigated.It is revealed that the direct reaction between ozone and phenol in the rotating packed bed(RPB)follows the pseudo-first-order kinetics with a reaction rate constant higher than that in the conventional bubbling reactor(BR).Under different conditions of temperature,initial pH,high-gravity factor,and gaseous ozone concentration,the apparent reaction rate constant varies in the range of 0.0160–0.115 min-1.An empirical power-exponential model is established to characterize the effects of these parameters on the direct reaction between ozone and phenol by high-gravity intensified heterogeneous catalytic ozonation.
基金supported by the Specialized Research Fund for Sanjin Scholars Program of Shanxi Province(201707)Key Research&Development Plan of Shanxi Province(201903D321059)+2 种基金Scientific Activities of Selected Returned Overseas Professionals in Shanxi Province(20200004)Transformation and Cultivation Projects of Scientific and Technological Achievements in Universities of Shanxi Province Institutions(2020CG040)the China National Key Project of Science and Technology “Major Science and Technology Program for Water Pollution Control and Treatment”(2018ZX07601001)。
文摘This study investigated catalytic decomposition and mass transfer of aqueous ozone promoted by Fe-MnCu/γ-Al_(2)O_(3)(Cat)in a rotating packed bed(RPB)for the first time.The results showed that the value of the overall decomposition rate constant of ozone(K_(c))and overall volumetric mass transfer coefficient(K_(L)a)are 4.28×10^(-3) s^(-1) and 11.60×10^(-3) s^(-1) respectively at an initial pH of 6,βof 40,Co3(g)of 60 mg·L^(-1)and Q_(L) of 85 L·h^(-1) in deionized water,respectively.Meanwhile,the K_(c) and K_(L)a values of Fenhe water are0.88×10^(-3) s^(-1) and 2.51×10^(-3) s^(-1) lower than deionized water,respectively.In addition,the K_(c) and K_(L)a values in deionized water for the Cat/O_(3)-RPB system are 44.86%and 47.41%higher than that for the Cat/O_(3)-BR(bubbling reactor)system,respectively,indicating that the high gravity technology can facilitate the decomposition and mass transfer of ozone in heterogeneous catalytic ozonation and provide some insights into the industrial wastewater.
基金the Specialized Research Fund for Sanjin Scholars Program of Shanxi Province(No.201707)Key Research&Development Plan of Shanxi Province(No.201903D321059)+1 种基金Shanxi Scholarship Council of China(No.HGKY2019071)Transformation and Cultivation Projects of Scientific and Technological Achievements of Higher Education Institutions for Shanxi Province(No.2020CG040).
文摘This study investigated the indirect oxidation of nitrobenzene(NB)by hydroxyl radicals(·OH)in a rotating packed bed(RPB)using competitive kinetics method with p-nitrochlorobenzene as a reference compound.The rate constants of NB with·OH are calculated to be between(1.465±0.113)×10^(9)L/(mol·s)and(2.497±0.192)×10^(9)L/(mol·s).The experimental data are fitted by the modified Arrhenius equation,where the activation energy is 4877.74 J/mol,the order of NB concentration,rotation speed,and initial pH is 0.2425,0.1400 and 0.0167,respectively.The ozonation process of NB could be enhanced by RPB,which is especially effective for highly concentrated NB-containing waste-water under alkaline conditions.The high gravity technology can accelerate ozone mass transfer and self-decomposition of ozone to produce more·OH,resulting in an increase in the indirect oxidation rate of NB by·OH and consequently effective degradation of NB in wastewater.
