Publicación: VALORIZING BIOMASS WASTE: HYDROTHERMAL CARBONIZATION AND CHEMICAL ACTIVATION FOR ACTIVATED CARBON PRODUCTION
Fecha
2025
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BIOMASS & BIOENERGY
Resumen
THIS STUDY OPTIMIZES THE PRODUCTION OF ACTIVATED CARBONS FROM HYDROTHERMALLY CARBONIZED (HTC) BIOMASS USING POTASSIUM HYDROXIDE (KOH) AND PHOSPHORIC ACID (H3PO4) AS ACTIVATING AGENTS. A 23 FACTORIAL EXPERIMENTAL DESIGN EVALUATED THE EFFECTS OF AGENT-TO-PRECURSOR RATIO, DRY IMPREGNATION TIME, AND ACTIVATION DURATION ON MASS YIELD AND IODINE ADSORPTION CAPACITY. KOH-ACTIVATED CARBONS ACHIEVED SUPERIOR IODINE NUMBERS (UP TO 1289 MG/G) BUT LOWER MASS YIELDS (18?35%), REFLECTING ENHANCED POROSITY AT THE COST OF MATERIAL LOSS. CONVERSELY, H3PO4 ACTIVATION YIELDED HIGHER MASS RETENTION (UP TO 54.86%) WITH MODERATE IODINE NUMBERS (UP TO 1117.3 MG/G), BALANCING POROSITY AND YIELD. HTC PRETREATMENT AT 190 °C REDUCED THE ASH CONTENT, THEREBY ENHANCING THE STABILITY OF HYDROCHAR. THESE FINDINGS HIGHLIGHT THE TRADE-OFFS BETWEEN ADSORPTION PERFORMANCE AND PROCESS EFFICIENCY, WITH KOH SUITED FOR HIGH-POROSITY APPLICATIONS (E.G., WATER PURIFICATION) AND H3PO4 FOR INDUSTRIAL SCALABILITY. THE STUDY ADVANCES BIOMASS WASTE VALORIZATION, ALIGNING WITH CIRCULAR ECONOMY PRINCIPLES AND OFFERING SUSTAINABLE SOLUTIONS FOR ENVIRONMENTAL AND INDUSTRIAL APPLICATIONS, SUCH AS WATER PURIFICATION AND ENERGY STORAGE.
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Palabras clave
Hydrothermal carbonization, Chemical activation, Circular economy, Factorial design, Biomass valorization
