Bioethanol Production From Agricultural Waste: A Review

Hamdi, Gaith M. Hamdi; Nsaif Abbas, Mohammed; Atalah Khaleefa Ali, Seroor

doi:10.31272/jeasd.28.2.7

Cited by 3 publications

(1 citation statement)

References 43 publications

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“…A wide range of contaminants can be remediated by agricultural and industrials wastes, such as phenols (Ho, 2022), inorganic toxic (Alalwan et al, 2020), heavy metals (Hashem et al, 2021), hardness (Ibrahim et al, 2021), etc. Although the accumulation of these residues laden with toxic pollutants after the end of the adsorption process generated an additional problem that required disposal, the concept of the zero-residue level opened new horizons for benefiting from these residues (Hamdi et al, 2024). Instead of the need to eliminate these materials, it was possible, via this concept, to convert them into useful materials in an economical, low-cost, and environmentally friendly way, such as benefiting from them before using as an adsorption media in converting them after completion of their use into a rodenticide (Abd ali et al, 2018) as a result of their effects, or as a kind of fertilizer (Abbas, 2015), a nanomaterial (Alminshid et al, 2021), a concrete additive (Abbas et al, 2022a), or a useful substance (Abbas et al, 2022b).…”

Section: Introductionmentioning

confidence: 99%

Dyes Adsorption from Contaminated Aqueous Solution Using Sylicone Dioxide Nanoparticles Prepared from the Extracted Tree Leaves

Hameed,

Abbas

2024

J. Ecol. Eng.

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The present study focused on the synthesis of silicon dioxide nanoparticles (SiO 2 ) using a green method, incorporating buckthorn leaves extract and potassium metasilicate (K 2 SiO 3 ) as the precursor. A comprehensive characterization of the prepared nanoparticles was performed using X-ray diffraction (XRD), fourier-transform infrared spectroscopy (FTIR), field emission scanning electron microscopy (FESEM), Brunauer-Emmett-Teller (BET) analysis, and dynamic light scattering (DLS). The results confirmed the purity of the SiO 2 nanoparticles and exhibited a range of diverse functional groups on their surface. Furthermore, the average size and surface area of the nanoparticles were determined to be 35.8 nm and 246 m 2 •g -1 , respectively. These well-characterized SiO 2 nanoparticles were employed as an effective adsorbent for the removal of bromophenol blue dye from aqueous solutions in a batch mode adsorption unit, under varying operating conditions. The factors considered for evaluating the efficiency of SiO 2 nanoparticles as an adsorption media included pH, contact time, agitation speed, dye concentration, temperature, and the quantity of nanomaterial utilized. Experimental findings demonstrated a remarkable removal efficiency of 96% for bromophenol blue dye at an initial concentration of 100 ppm in the contaminated solution. Interestingly, the percentage removal exhibited an inverse relationship with dye concentration and temperature, while being directly proportional to other factors. Overall, the green-synthesized silicon dioxide nanoparticles proved to be a promising adsorbent for the effective removal of bromophenol blue dye from aqueous environments. The findings highlight the potential application of these nanoparticles in wastewater treatment and pollution mitigation, offering a sustainable and eco-friendly solution for environmental challenges.

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Section: Introductionmentioning

confidence: 99%

Dyes Adsorption from Contaminated Aqueous Solution Using Sylicone Dioxide Nanoparticles Prepared from the Extracted Tree Leaves

Hameed,

Abbas

2024

J. Ecol. Eng.

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Synthesis of Nano-silica Particles using Eucalyptus globulus Leaf Extract and Their Innovative Application as an Adsorbent for Malachite Green Dye

Ali,

Abudi,

Abbas

et al. 2024

Russ J Appl Chem

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PRODUCCIÓN DE BIOETANOL A PARTIR DE RESIDUOS DE NARANJA (Citrus sinensis) Y PLÁTANO (Musa paradisiaca L.)

Ruiz Barazorda,

Chauca Montesinos,

Soto Carrión

et al. 2024

Rev. Investig. Hatun Yachay Wasi

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En esta investigación se determinó el tratamiento más eficiente para la producción de bioetanol a partir de residuos de naranja (Citrus sinensis) y plátano (Musa paradisiaca L.). Este estudio tuvo un diseño experimental, con cuatro tratamientos con tres repeticiones cada uno: T1 (1 kg de residuos de naranja), T2 (1 kg de residuos de plátano), T3 (½ kg de residuos de naranja + ½ kg de residuos de plátano) y T4 (½ kg de residuos de naranja + ½ kg de residuos de plátano); a los tres primeros tratamientos se añadió una dosis de levadura de 5g/L de jarabe glucosado y el cuarto fue el testigo. En cada tratamiento se aplicaron los procedimientos de pretratamiento, hidrólisis ácida, fermentación y destilación simple. Los resultados mostraron que para el T1 se obtuvo un volumen de 221,67 mL y 12,33 % de bioetanol, para T2, 235 mL de bioetanol con 14,67 % de pureza, para T3, un volumen de 255,33 mL y 14,67 % de pureza y en el T4, 206,67 mL de bioetanol con 9 % de pureza. Se concluye que el T3 alcanzó mayor volumen y pureza de bioetanol, siendo el tratamiento con mejores resultados.

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Bioethanol Production From Agricultural Waste: A Review

Cited by 3 publications

References 43 publications

Dyes Adsorption from Contaminated Aqueous Solution Using Sylicone Dioxide Nanoparticles Prepared from the Extracted Tree Leaves

Dyes Adsorption from Contaminated Aqueous Solution Using Sylicone Dioxide Nanoparticles Prepared from the Extracted Tree Leaves

Synthesis of Nano-silica Particles using Eucalyptus globulus Leaf Extract and Their Innovative Application as an Adsorbent for Malachite Green Dye

PRODUCCIÓN DE BIOETANOL A PARTIR DE RESIDUOS DE NARANJA (Citrus sinensis) Y PLÁTANO (Musa paradisiaca L.)

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