Biomass ash pyrolyzed from municipal sludge and its adsorption performance toward tetracycline: effect of pyrolysis temperature and KOH activation

Yu, Chunmu; Chen, Xiaojuan; Chen, Xiaojuan; Chen, Jieming; Liang, Yao; Zhou, Yu; Lu, Kaihong; Lai, Yiqi; Lai, Xiangyu

doi:10.1007/s11356-022-21366-9

Cited by 8 publications

(2 citation statements)

References 52 publications

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“…Meanwhile, the adsorbability of TBI K was compared with other materials listed in Table 4. [ 23,44–48 ] The adsorption capacity of TBI K is higher than that of other biochars derived by the traditional two‐stage method as listed in Table 4, which may be attributed to its higher specific surface area. Thus, the optimized integrated carbonized and activated method is ideal for developing high‐efficiency biochar.…”

Section: Adsorption Performancementioning

confidence: 99%

Functionalized typha biochar for antibiotic removal via low‐carbon integrated method: Performance and mechanism analyses

Liu,

Wen,

et al. 2024

CLEAN Soil Air Water

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Antibiotic residues in water represent an urgent environmental challenge. To efficiently remove these residues, a low‐carbon integrated biochar synthesis method was proposed, and an optimized typha biochar (TBIK) was prepared. Compared with the biochar prepared by a conventional two‐step carbonization and activation method (TBTK), the TBIK preparation process reduced energy consumption by 43849.58 J and cut carbon dioxide emissions by 32.80%. TBIK exhibited a large surface area of 1252.40 m2/g and rapidly achieved an equilibrium removal efficiency of 99.95% within 20 min for simulated antibiotics wastewater. Furthermore, TBIK possessed more number of functional groups than TBTK, especially O‐H and C‐S groups. The adsorption stability and tolerance of TBIK in solutions with different ionic strengths and coexisting anions were examined. Characterization techniques such as scanning electron microscopy (SEM), Fourier transform infrared (FT‐IR), and X‐ray photoelectron spectroscopy (XPS) as well as Brunauer, Emmett and Teller (BET) analyses were employed to elucidate the morphology and adsorption mechanism of the adsorbent. The microporous structure and abundance of functional groups are key to the excellent adsorption capabilities of TBIK. Thus, this integrated method for biochar production, optimized for treating antibiotic wastewater, holds significant potential for future applications.

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Section: Adsorption Performancementioning

confidence: 99%

Functionalized typha biochar for antibiotic removal via low‐carbon integrated method: Performance and mechanism analyses

Liu,

Wen,

et al. 2024

CLEAN Soil Air Water

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“…Alfalfa-derived biochar 372 [55] Pinus taeda-derived activated biochar 274.8 [56] Waste chicken-feather-derived multilayered graphene-phase biochar 388.33 [57] Clay-biochar composites 77.962 [58] Spent coffee-ground-derived biochar 39.22 [59] Biomass ash pyrolyzed from municipal sludge 50.75 [60] Shrimp…”

Section: Adsorbentmentioning

confidence: 99%

Adsorption of Tetracycline by Magnetic Mesoporous Silica Derived from Bottom Ash—Biomass Power Plant

et al. 2023

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In recent years, the contamination of the aquatic environment with antibiotics, including tetracyclines, has drawn much attention. Bottom ash (BA), a residue from the biomass power plant, was used to synthesize the magnetic mesoporous silica (MMS) and was utilized as an adsorbent for tetracycline (TC) removal from aqueous solutions. The MMS was characterized by Fourier transform-infrared (FTIR), X-ray diffraction (XRD) pattern, and scanning electron microscopy (SEM). Optimum conditions were obtained in overnight incubation at 60 °C, a pH of 6–8, and an adsorption capacity of 276.74 mg/g. The isotherm and kinetic equations pointed to a Langmuir isotherm model and pseudo-first-order kinetic optimum fitting models. Based on the very low values of entropy changes (ΔS°), the negative value of enthalpy changes (ΔH°) (−15.94 kJ/mol), and the negative Gibbs free-energy changes (ΔG°), the adsorption process was physisorption and spontaneous.

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Unlocking the potential of environmentally friendly adsorbent derived from industrial wastes: A review

Quang,

Dinh,

Truong

et al. 2024

Chemosphere

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Biomass ash pyrolyzed from municipal sludge and its adsorption performance toward tetracycline: effect of pyrolysis temperature and KOH activation

Cited by 8 publications

References 52 publications

Functionalized typha biochar for antibiotic removal via low‐carbon integrated method: Performance and mechanism analyses

Functionalized typha biochar for antibiotic removal via low‐carbon integrated method: Performance and mechanism analyses

Adsorption of Tetracycline by Magnetic Mesoporous Silica Derived from Bottom Ash—Biomass Power Plant

Unlocking the potential of environmentally friendly adsorbent derived from industrial wastes: A review

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