Characterization of Pyrolysis Products Obtained During the Preparation of Bio-Oil and Activated Carbon

Miranda, Rosa; Sosa, César; Bustos, Diana; Carrillo, Eileen; Rodríguez-Cantú, María

doi:10.5772/39368

Cited by 4 publications

(2 citation statements)

References 64 publications

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“…Similar trend of decreasing char yields along increasing pyrolysis temperature had been reported, including pyrolysis of PP waste, by Abbas-Abadi et al (2014) , Ahmad et al (2015) and Harussani et al, 2021b , Harussani et al, 2021a , PE waste by Palos et al (2019) , and PVC plastic wastes by Miranda et al (2012) and Adrados et al (2012) , refer Table 2 . Brief literature review on pyrolysis of PP plastic waste has been discussed and compared according to the specified pyrolysis parameters and type of pyrolysis which the integrated strategy aids in achieving maximum economic and environmental advantages with minimum waste production.…”

Section: Pyrolysis Approachsupporting

confidence: 78%

Pyrolysis of polypropylene plastic waste into carbonaceous char: Priority of plastic waste management amidst COVID-19 pandemic

Harussani

Sapuan

Rashid

et al. 2022

Science of The Total Environment

167

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Section: Pyrolysis Approachsupporting

confidence: 78%

Pyrolysis of polypropylene plastic waste into carbonaceous char: Priority of plastic waste management amidst COVID-19 pandemic

Harussani

Sapuan

Rashid

et al. 2022

Science of The Total Environment

167

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“…The yielding capacity of biochar dramatically varies depending on the feedstock type because a material typically comprises labile and recalcitrant oxygen and hydrogen-containing fractions (Piash et al 2017). Low temperature and long residence time promote the production of biochar (Miranda et al 2012). The resultant CCB had higher pH and nutrient status compared to its original feedstock.…”

Section: Ccb Chemical Propertiesmentioning

confidence: 99%

Corn-cob Biochar Characterization and Application Effects to Carbon Dioxide (CO₂) Evolution in Acid Soil Added with Different Types of Fertilizers

Bulfa¹,

Villegas-Pangga²,

Cubelo³

2021

Philipp J Sci

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Biochar, a carbon (C) rich material produced from biomass, is an inexpensive means of removing C from the atmosphere by incorporating it into the soil, where C sinks are formed for sequestration. The slow release of carbon dioxide (CO2) from the soil is related to C sequestration, long-term storage of CO2, or other forms of C that help lessen CO2 concentration. An incubation study was conducted in a laboratory to determine the effect of corn-cob biochar (CCB) application on Luisiana clay (Orthoxic Palehumults) acidic soil. The CO2 evolution from the incubation of various mixtures of organic materials, inorganic fertilizers added with CCB was measured using a titration of hydrochloric acid (HCl). The biochar application rate was 10 t/ha, and the organic fertilizers at 5 t/ha. Results show that CCB contained essential plant elements like C, K (potassium), Si (silicon), Cu (copper), Na (sodium), and Cl (chlorine). It also possesses a large surface area and high average pore size. The CO2 evolution increased in the first two weeks with a peak at Day 2, and the amount of cumulative CO2 decreased after that in all treatments during the incubation period. Treatments with CCB showed a constant reduction in the amount of CO2

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A techno-economic evaluation of bio-oil co-processing within a petroleum refinery

2018

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Characterization of Pyrolysis Products Obtained During the Preparation of Bio-Oil and Activated Carbon

Cited by 4 publications

References 64 publications

Pyrolysis of polypropylene plastic waste into carbonaceous char: Priority of plastic waste management amidst COVID-19 pandemic

Pyrolysis of polypropylene plastic waste into carbonaceous char: Priority of plastic waste management amidst COVID-19 pandemic

Corn-cob Biochar Characterization and Application Effects to Carbon Dioxide (CO₂) Evolution in Acid Soil Added with Different Types of Fertilizers

A techno-economic evaluation of bio-oil co-processing within a petroleum refinery

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