Production of carbonaceous microspheres from wood sawdust by a novel hydrothermal carbonization and extraction method

Zheng, Qingxin; Morimoto, Masato; Takanohashi, Toshimasa

doi:10.1039/c7ra07847a

Cited by 13 publications

(5 citation statements)

References 31 publications

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“…Variations related to the elemental compositions of the biomass and hydrothermalbased carbon microspheres can be studied using the conventional Van Krevelen diagram (not shown for brevity). From this plot, it appears that the H/C and O/C atomic ratios adhere to the same trend as the dehydration process, with a slight deviation in the direction of the H/C atomic ratio, indicating a low occurrence of the decarboxylation process [47]. The FTIR spectra for the CM samples are shown in Figure 4.…”

Section: Surface Textural Properties Of Carbon Microspheresmentioning

confidence: 77%

Enhanced Adsorption of Methylene Blue Using Phosphoric Acid-Activated Hydrothermal Carbon Microspheres Synthesized from a Variety of Palm-Based Biowastes

et al. 2023

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In the present study, the ability for novel carbon microspheres (CMs) derived from date palm (Phoenix dactylifera) biomass using a hydrothermal carbonization (HTC) process and activated using phosphoric acid to remove methylene blue dye was investigated. Three types of palm-based wastes (seeds, leaflet, and inedible crystallized date palm molasses) were used and converted to CMs via the HTC process. The prepared samples were then activated using phosphoric acid via the incipient wetness impregnation method. The CMs samples before and after activation were analyzed using scanning electron microscopy (SEM), elemental analysis and scanning (CHNS), and the Fourier transform infrared (FTIR) and Brunauer–Emmet–Teller (BET) methods. The samples exhibited high BET surface areas after activation (1584 m2/g). The methylene blue adsorption results showed good fitting to the Langmuir, Fruendlich, and Temkin isotherm models for all activated samples. The maximum adsorption capacity achieved was 409.84 mg/g for activated CM obtained from the palm date molasses, indicating its high potential for application as a dye-based adsorption material.

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Section: Surface Textural Properties Of Carbon Microspheresmentioning

confidence: 77%

Enhanced Adsorption of Methylene Blue Using Phosphoric Acid-Activated Hydrothermal Carbon Microspheres Synthesized from a Variety of Palm-Based Biowastes

et al. 2023

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“…The intensity of 1103 and 1224 cm −1 peaks increased with C F , which are characteristic of CO stretching (aliphatic alcohol and ethers) indicates hindering the further dehydration reaction. [ 18,41 ] The attack of methylol group of one HMF molecule with another HMF molecule by electrophilic substitution forms ethers (via 1st mechanism). [ 21 ] The peaks at around 807 and 758 cm −1 , assigned to CH out‐of‐plane deformation and CH stretching of furan, [ 18 ] respectively, were highly intense at C F = 0.…”

Section: Resultsmentioning

confidence: 99%

Novel One‐Step Process for the Production of Levulinic Acid from Furfural over Hierarchical Zeolites in a Microwave Reactor

Velaga

Peela

2020

Advanced Sustainable Systems

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Here, a novel one‐step process is reported for the production of levulinic acid (LA) from furfural over hierarchical zeolites in a microwave reactor. The furfural conversion and product distribution are determined as a function of formalin concentration (CF) in water, catalyst properties, and heating mode. 20 wt% formalin is found to be the critical concentration, above and below which the 5‐hydroxymethylfurfrual and the LA are formed, respectively. The conversion and LA yield over H‐zeolite are higher by 2.3 and 17 times, respectively, as compared to those over Na‐zeolite. The Brønsted to Lewis acid sites ratio is found to be a crucial catalytic parameter to obtain the best activity and LA yield. Under optimal reaction conditions and with the best catalyst, 42% LA yield is obtained at 90% furfural conversion. The humins formed during the process are characterized using Fourier transformed infrared spectroscopy and thermogravimetric analysis. The humins yield, functionality, and decomposition temperatures are varied with both CF and catalyst properties. The reaction pathways and intermediates are also postulated. The integration of the developed process/route with the existing C6 routes allows the utilization of the entire carbohydrate content of the lignocellulosic biomass to produce LA, and consequently, the overall process becomes more economical.

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“…Hydrocarbonization (HTC) [18,19] has been proved to be a green and sustainable method to transform biomass materials into value-added solid products. It is a sustainable method to produce carbon spheres under relatively mild conditions using water as a medium, approaching the "carbon dioxide neutralization" [20] and achieving the 2 ℃ climate target [21,22]. Under hydrothermal conditions of certain temperature and pressure, insoluble substances can be dissolved, decomposed and transformed into crystals [14].…”

Section: Introductionmentioning

confidence: 99%

Preparation and characterization of the poplar micro-nano cellulose sustainable carbon spheres

Hao

Zhang

Shi³

et al. 2022

Biomass Conv. Bioref.

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Cellulose extracted from the factory waste poplar, converted into value-added carbon spheres by hydrothermal carbonization (HTC). Oxygen-rich functional group carbon spheres with smooth morphology, good dispersibility, controllable particle size, high carbon content and high calori c value were prepared under different process conditions. The optimum process conditions for obtaining good shape are temperature 250℃, time 12h, and cellulose dosage 1g. Under these conditions, the produced carbon microspheres have smooth surface, high dispersion and uniform particles. FTIR, XPS and elemental analysis indicated that the carbon content was as high as ~ 75% with increasing temperature and time, and the theoretically calculated HHV was 29.4 MJ/kg. The H/C and O/C ratios are quite different relative to the raw materials, demonstrating that cellulose undergoes dehydration, decarboxylation and demethylation during hydrothermal carbonization to form carbon microspheres with oxygenrich functional groups. The carbon materials were analyzed by BET, TG, Raman and XRD, which further proved that the carbon microspheres are high-concentration aromatized amorphous non-porous carbon materials.

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Production of carbonaceous microspheres from wood sawdust by a novel hydrothermal carbonization and extraction method

Cited by 13 publications

References 31 publications

Enhanced Adsorption of Methylene Blue Using Phosphoric Acid-Activated Hydrothermal Carbon Microspheres Synthesized from a Variety of Palm-Based Biowastes

Enhanced Adsorption of Methylene Blue Using Phosphoric Acid-Activated Hydrothermal Carbon Microspheres Synthesized from a Variety of Palm-Based Biowastes

Novel One‐Step Process for the Production of Levulinic Acid from Furfural over Hierarchical Zeolites in a Microwave Reactor

Preparation and characterization of the poplar micro-nano cellulose sustainable carbon spheres

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