An enhanced approach for biochar preparation using fluidized bed and its application for H2S removal

Sun, Yunjuan; Zhang, Jingping; Wen, Chao; Zhang, Lian

doi:10.1016/j.cep.2016.02.006

Cited by 63 publications

(14 citation statements)

References 29 publications

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“…The nickel nanoparticle was prepared by the conventional solvent extraction process . The BC was prepared by a fast fluidized‐bed carbonization (carbonized at 723 K for 6 minutes) process . To make this work comparable, the various techniques were used to characterize the prepared BC and Ni 0 nanoparticle that will be added during the hydrogen fermentation.…”

Section: Methodsmentioning

confidence: 99%

“…32 The BC was prepared by a fast fluidized-bed carbonization (carbonized at 723 K for 6 minutes) process. 33,34 To make this work comparable, the various techniques were used to characterize the prepared BC and Ni 0 nanoparticle that will be added during the hydrogen fermentation. The detailed characterization of the prepared nickel nanoparticle and BC is shown in Figure S1.…”

Section: Novelty Statementmentioning

confidence: 99%

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Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

et al. 2018

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Summary The improvement of hydrogen production was achieved by the addition of biochar (BC) and metal co‐factor nanoparticle Ni0 during the dark fermentation. A new hybrid approach by combing the artificial neural networks with the response surface methodology was applied to optimize the hydrogen production. The effects of operating conditions, ie, BC, metal cofactor Ni0, pH, and dosage of microbes, upon the hydrogen production together with the concentrations of other metabolites such as the acetic acid, propionic acid, butyric acid, and ethanol were extensively investigated. From kinetic study of the major metabolites, the acetate pathway was found to be apparently enhanced by the addition of synergistic factors. The modified anaerobic digestion model with the consideration of inhabitation factor was found to best represent the kinetics of hydrogen production and the formation of major metabolites.

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Section: Methodsmentioning

confidence: 99%

Section: Novelty Statementmentioning

confidence: 99%

Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

et al. 2018

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“…The particle size of prepared catalyst generally presents a wide range, which varies from 10 to 300 μm with most mass fraction located at 10-30 μm. The fluidized bed fast calcination is found to contribute to produce finer particles due to intensive collisions among particles in fluidized bed during high temperature calcination [14,27]. The SEM morphology also indicates that the produced catalysts are in a fine shape and many particles are less than 20 μm of the scale bar.…”

Section: Catalyst Characterizationmentioning

confidence: 97%

Biodiesel production using calcium‐based catalyst from venus shell: Modeling of startup production in an industrial reactor

Sun

Zhang²,

Sun

et al. 2018

Env Prog and Sustain Energy

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Calcium oxide‐based catalyst was produced from Venus shell by fast fluidized bed calcination for biodiesel synthesis. The kinetics of biodiesel synthesis was found to be a pseudo‐first‐order reaction at the experimental conditions. The obtained kinetic parameters were used for modeling the startup operation of biodiesel production in an industrial continuous stirred tank reactor (CSTR). The model was found to agree well with the reagent concentration and temperature profiles in a real production practice during biodiesel production. The variations of initial temperature, initial reagent concentration in the reactor was investigated. It was found that the reagent concentration and temperature oscillated around the final steady state. From safety operation perspective, the first 4 h were found to be the most unsteady period during continuous production. The initial concentration of waste fry oil (WFO) was also found to be critical to the safe operation of CSTR. A violation of the settings for safe operation of CSTR will be triggered once the initial concentration of WFO in CSTR reaches 500 mol m−3. © 2018 American Institute of Chemical Engineers Environ Prog, 38:e13053, 2019

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“…After the pyrolysis process, the BC materials were washed several times with distilled water to remove fine particulates, water-soluble organic residuals, and impurities. The BC (20 g) was then dried in an oven at 80°C for 2 h. The BC was ground and stored in closed vessels [9][10][11][12][13].…”

Section: Biochar and Magnetic Biochar Preparationsmentioning

confidence: 99%

Enhancement the rhodamine 6G adsorption property on Fe₃O₄-composited biochar derived from rice husk

Suwunwong

Patho

Choto

et al. 2020

Mater. Res. Express

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Magnetic biochars were prepared using Fe 3 O 4 nanoparticle composites onto the surface of biochar derived from rice husk. The characteristics of magnetic biochar were characterized by scanning electron microscope, x-ray powder diffraction and Fourier-transform infrared techniques. The removal of rhodamine 6G dye by magnetic biochar, compared to pristine biochar was studied. The effects of pyrolysis temperature on rhodamine 6G adsorption was evaluated. Kinetic, isotherms and thermodynamic studies were carried out to investigate the adsorption mechanism of rhodamine 6G dye on magnetic biochar surface. The rhodamine 6G removal efficiency of Fe 3 O 4 -composited biochar (pyrolyzed at 500°C) is higher than that of pristine biochar with maximum efficiency of 94% removal. The adsorption isotherm and kinetic studies indicated that the langmuir model, pseudo-first order and pseudo-second order models described well the rhodamine adsorption onto magnetic Fe 3 O 4 -biochar. Abbreviations BCBiochar C 0 Initial dye concentration (mg/L) C e Equilibrium concentration of dye (mg/L) ΔG 0 The Gibbs free energy) and f ΔH 0 The change of enthalpy MB Magnetic biochar q e Adsorbed dye amount per gram of sorbent at equilibrium (mg/g) q e,cal Calculated amount of dye adsorbed per gram of adsorbent at equilibrium (mg/g) q e,exp Experimental amount of dye adsorbed per gram of adsorbent at equilibrium (mg/g) q t Adsorbed dye amount per gram of adsorbent at time t (mg/g) K Thermodynamic equilibrium constant K L Langmuir isotherm equilibrium constant representing the energy of sorption (L/mg) K F Freundlich constant representing sorption capacity ((mg/g)(L/mg)/n) k 1 Pseudo-first order rate constant (1/min) k 2 Pseudo-second order rate constant (g/mg·min) n Freundlich isotherm constant representing sorption intensity R The ideal gas constant (8.314 J mol −1 ·K −1 )

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An enhanced approach for biochar preparation using fluidized bed and its application for H2S removal

Cited by 63 publications

References 29 publications

Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

Biodiesel production using calcium‐based catalyst from venus shell: Modeling of startup production in an industrial reactor

Enhancement the rhodamine 6G adsorption property on Fe₃O₄-composited biochar derived from rice husk

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An enhanced approach for biochar preparation using fluidized bed and its application for H2S removal

Cited by 63 publications

References 29 publications

Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

Optimization and kinetic modeling of an enhanced bio-hydrogen fermentation with the addition of synergistic biochar and nickel nanoparticle

Biodiesel production using calcium‐based catalyst from venus shell: Modeling of startup production in an industrial reactor

Enhancement the rhodamine 6G adsorption property on Fe3O4-composited biochar derived from rice husk

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Enhancement the rhodamine 6G adsorption property on Fe₃O₄-composited biochar derived from rice husk