Absorption of Cu(II) and Zn(II) from Aqueous Solutions onto Biochars Derived from Apple Tree Branches

Zhao, Shixiang; Ta, Na; Wang, Xudong

doi:10.3390/en13133498

Cited by 28 publications

(19 citation statements)

References 50 publications

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“…The first heat carbonization process of BLS‐CA 1 occured at 575 °C for 3 h while the BLS‐CA 2 first heat carbonization process occured at 450 °C for only 1 h. It is very clear that increasing temperature and time influence the surface properties, including the micropore surface area. In agreement with previous works, which evaluate how temperature and time effect the surface area as well as pore size until the adsorption ability of the carbon material, the increasing of temperature and time might allow the containing volatile matter to decrease significantly. This proves that the pore formation and kinds are getting better .…”

Section: Resultssupporting

confidence: 92%

“…In agreement with previous works, which evaluate how temperature and time effect the surface area as well as pore size until the adsorption ability of the carbon material, the increasing of temperature and time might allow the containing volatile matter to decrease significantly. This proves that the pore formation and kinds are getting better . Component analysis of BLS‐CA 1 as the best carbonaceous adsorbent from this work is shown in Table as the result of SEM‐edx measurement.…”

Section: Resultssupporting

confidence: 92%

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The enhancement of black liquor treatment by applying a natural flocculant and converting its sludge to a high‐benefit product

Amriani

Bani²,

Muryanto

et al. 2018

Can J Chem Eng

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Black liquor (BL) as lignocellulosic-based industrial wastewater is largely attained from a chemical pretreatment process. When treated with the commonly used coagulant polyaluminum chloride (PACl), BL was decolourized but its pH decreased drastically from 13 to 4-5. Chitosan as a natural flocculant was added to the BL treatment process to support the PACl. The combination of coagulant-flocculant (PACl-Chitosan) effectively generated sludge, rejuvenated the treated BL pH level to neutral, and decolourized and reduced several parameters required for the treated BL disposal. To establish a sustainable recycling process and enhance the BL treatment, the generated sludge as a potential source was recovered and converted to a carbonaceous adsorbent (CA) by applying a two-stage carbonization process, heat and steam carbonization, during which the temperature and time in the first stage of the heat-carbonization process differ. The first BL sludge-based CA (BLS-CA 1) is produced by employing the first stage heating at 575 8C for 180 min while the second black liquor sludge-based CA (BLS-CA 2) is produced by employing the first stage heating at 450 8C for 60 min. Both CAs were able to adsorb about 99 % methylene blue (MB) at MB concentration 100 mg/L for 16 h though they have smaller surface areas than commercially activated carbon, which is only able to adsorb about 70 % MB at the same concentration and adsorption time. This study demonstrates a potential way to reduce the emerging problem from the generated sludge through a sustainable recycling process as well as BL treatment.

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Section: Resultssupporting

confidence: 92%

Section: Resultssupporting

confidence: 92%

The enhancement of black liquor treatment by applying a natural flocculant and converting its sludge to a high‐benefit product

Amriani

Bani²,

Muryanto

et al. 2018

Can J Chem Eng

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show abstract

“…Pseudo-first order and pseudo-second order models are the most frequently computed models. However, there are some less common works that thoroughly investigate the adsorption performances of BCs through the Elovich model [ 103 ] (predicting the mass and surface diffusion and the activation/deactivation energy of the system) or through the intraparticle diffusion and Boyd models [ 104 , 105 ] (which determine the effect of internal and external diffusion on the adsorption mechanism).…”

Section: Activated Carbon and Biochar: The Different Approach To Characterizationmentioning

confidence: 99%

Characterization Techniques as Supporting Tools for the Interpretation of Biochar Adsorption Efficiency in Water Treatment: A Critical Review

et al. 2021

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Over the past decade, biochar (BC) has received significant attention in many environmental applications, including water purification, since it is available as a low-cost by-product of the energetic valorisation of biomass. Biochar has many intrinsic characteristics, including its porous structure, which is similar to that of activated carbon (AC), which is the most widely used sorbent in water treatment. The physicochemical and performance characteristics of BCs are usually non-homogenously investigated, with several studies only evaluating limited parameters, depending on the individual perspective of the author. Within this review, we have taken an innovative approach to critically survey the methodologies that are generally used to characterize BCs and ACs to propose a comprehensive and ready-to-use database of protocols. Discussion about the parameters of chars that are usually correlated with adsorption performance in water purification is proposed, and we will also consider the physicochemical properties of pollutants (i.e., Kow). Uniquely, an adsorption efficiency index BC/AC is presented and discussed, which is accompanied by an economic perspective. According to our survey, non-homogeneous characterization approaches limit the understanding of the correlations between the pollutants to be removed and the physicochemical features of BCs. Moreover, the investigations of BC as an adsorption medium necessitate dedicated parallel studies to compare BC characteristics and performances with those of ACs.

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“…This might be attributed to smaller surface area and pore size at MSSB than at PB (Table 2) or to the considerable amount of metal oxides derived from BOF slag at MSSB (Table 1). Biochars can carry a lot of negative charges on the surface [15] and some metal oxides of BOF slag such as MgO and CaO can be dissolved in aqueous solution, which could form cations around MSSB [37,38]. Consequently, the metal cations seemed to compete with NH 4 -N for the adsorption sites of MSSB, resulting in a decrease in the capacity of adsorbent material for NH 4 -N [39].…”

Section: Nh 4 -N Adsorption By Mssb In Aqueous Solutionmentioning

confidence: 99%

“…Biochar is solid biomass such as wood, crop residues, or agricultural waste that is pyrolyzed under oxygen-free conditions [10,11]. It has been used as a soil amendment [12], carbon sequestration agent [13], and adsorbent for the removal of organic and inorganic compounds (e.g., NH 4 -N, Cu, Zn, and Pb) in aquatic environments [14][15][16][17][18][19]. However, biochar in the form of fine powder is difficult to separate from aqueous solution after adsorbing pollutants [10,20].…”

Section: Introductionmentioning

confidence: 99%

Magnetic Steel Slag Biochar for Ammonium Nitrogen Removal from Aqueous Solution

Kim

et al. 2021

Energies

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In this study, magnetic steel slag biochar (MSSB) was synthesized from low-cost steel slag waste to investigate the effectiveness of steel slag biochar composite for NH4-N removal and magnetic properties in aqueous solution. The maximum adsorption capacity of NH4-N by MSSB was 4.366 mg/g according to the Langmuir model. The magnetic properties of MSSB indicated paramagnetic behavior and a saturation magnetic moment of 2.30 emu/g at 2 Tesla. The NH4-N adsorption process was well characterized by the pseudo-second order kinetic model and Temkin isotherm model. This study demonstrated the potential of magnetic biochar synthesized from steel slag waste for NH4-N removal in aqueous solution.

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Absorption of Cu(II) and Zn(II) from Aqueous Solutions onto Biochars Derived from Apple Tree Branches

Cited by 28 publications

References 50 publications

The enhancement of black liquor treatment by applying a natural flocculant and converting its sludge to a high‐benefit product

The enhancement of black liquor treatment by applying a natural flocculant and converting its sludge to a high‐benefit product

Characterization Techniques as Supporting Tools for the Interpretation of Biochar Adsorption Efficiency in Water Treatment: A Critical Review

Magnetic Steel Slag Biochar for Ammonium Nitrogen Removal from Aqueous Solution

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