Search results for "char reactivity"

showing 3 items of 3 documents

Catalytic effect of Ca and K on CO2 gasification of spruce wood char

2015

Abstract Gasification is one route to produce chemicals and liquid fuels from biomass. The gasification of the char is catalyzed by alkali and alkaline earth metals in the biomass. In this work the catalytic effect of calcium (Ca) and potassium (K) on CO2 gasification of spruce wood was studied using a thermo gravimetric analyzer (TGA). The ash-forming elements were first removed from the wood using an acid leaching method. Then, various concentrations of K and Ca were absorbed to the wood by ion-exchange to carboxylic and phenolic groups, impregnation of K2CO3 or physically mixing of CaC2O4. The prepared spruce samples were placed in a mesh holder and gasified in the TGA at 850 °C in 100% …

General Chemical EngineeringPotassiumKineticsEnergy Engineering and Power TechnologyBiomasschemistry.chemical_elementgasificationChar reactivityCatalysischar reactivityReactivity (chemistry)BiomassCharta215Alkaline earth metalcalciumbiomassChemistrypotassiumOrganic ChemistryAlkali metalFuel TechnologyChemical engineeringPotassiumCalciumCO2Gasification
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Upgrade of citrus waste as a biofuel via slow pyrolysis

2015

Abstract Slow pyrolysis (200–650 °C) experiments on citrus residues (orange peel waste “OP” and lemon peel waste “LP”) were carried out in lab scale fixed bed batch reactor. Bio-oil and bio-char obtained by thermal degradation are more stable, more homogeneous and higher energy content fuels when compared to the parent feedstock. Thermogravimetric analysis (TGA) showed higher stability of LP waste, which appears related to the higher lignin content . Mass and energy yields of solid and liquid products (i.e., char and oil) were measured to determine the effects of peak temperature on feedstock. A linear correlation between Gross Calorific Value (GCV), peak temperatures and mass loss (ML) all…

Thermogravimetric analysisFixed-bed reactorChemistryChemistry (all)Batch reactorAnalytical chemistrychemistry.chemical_elementPyrolysiRaw materialChar reactivityNitrogenAnalytical ChemistryEnergy densityFuel TechnologyBiofuelCitrus peel wasteSettore ING-IND/10 - Fisica Tecnica IndustrialeOrganic chemistryChemical Engineering (all)Heat of combustionCharPyrolysisJournal of Analytical and Applied Pyrolysis
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Effects of Briquetting and High Pyrolysis Temperature on Hydrolysis Lignin Char Properties and Reactivity in CO-CO2-N2 Conditions

2021

Carbonaceous reductants for pyrometallurgical applications are usually obtained from fossil-based sources. The most important properties of the reductants greatly depend on the application and the feeding of the reductant into the process. However, the mechanical strength, calorific value, fixed carbon content, and reactivity of the reductant are the properties that usually define the applicability of the reductant for different processes. The reactivity of the biochars is usually high in comparison to metallurgical coke, which may restrict the applicability of the biochar in reduction processes. One cause of the higher reactivity is the higher surface area of the biochars, which can be sup…

lcsh:Mineralogylcsh:QE351-399.2biomasshigh-temperature pyrolysisbiochar reactivityhydrolysis ligninbiocharMinerals
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