2019
DOI: 10.1021/acssuschemeng.9b02579
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Bioethylene Production: From Reaction Kinetics to Plant Design

Abstract: Ethylene production from renewable bioethanol has been commercially proposed in recent years as a sustainable alternative to fossil sources. The possibility to exploit diluted bioethanol as less expensive feedstock was studied both experimentally, using different catalysts at lab-level, and through preliminary process designs. In this work a full-scale plant simulation is presented, built on a detailed reaction kinetics, based on literature data. Rate equations for the primary and side reactions are revised an… Show more

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Cited by 24 publications
(19 citation statements)
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“…Such strategies may include reducing the consumption of enzymes, reagents, and water, among others, in addition to new strategic policies for bio-based products. The production of derivatives and new products must be developed for the emerging bio-based markets (Mohsenzadeh et al 2017;Tripodi et al 2019). Biopolyethylene, which can be replaced in various uses by degradable bioplastics, is still essential in some medical and industrial applications.…”
Section: Technical Considerationsmentioning
confidence: 99%
“…Such strategies may include reducing the consumption of enzymes, reagents, and water, among others, in addition to new strategic policies for bio-based products. The production of derivatives and new products must be developed for the emerging bio-based markets (Mohsenzadeh et al 2017;Tripodi et al 2019). Biopolyethylene, which can be replaced in various uses by degradable bioplastics, is still essential in some medical and industrial applications.…”
Section: Technical Considerationsmentioning
confidence: 99%
“…The ethanol concentration by distillation and the proposed alternatives to improve this step are rigorously simulated using the commercial simulator Aspen Plus ® v. 10 [52] with the UNIQUAC thermodynamic model and estimating the missing vapour-liquid equilibrium parameters with UNIFAC. According to the requirements of the process proposed by Tripodi et al [55], the ethanol purity obtained is to produce ethylene from ethanol. According to Figure 3, mass flowrate is assumed constant in the cycle of ethylene to waved fibres.…”
Section: Model Descriptionmentioning
confidence: 99%
“…The CO 2 emissions would decrease by the same amount. The process proposed by Tripodi et al [55] to produce ethylene is considered. The main energy consumption is due to ethanol distillation and ethylene production, while the rest are negligible.…”
Section: Solve the Overall Mass Balances And Identify The Ghg Emissionsmentioning
confidence: 99%
“…In 2010, due to environmental and availability issues, as well as the low cost of ethanol produced from sugarcane in Brazil, Braskem chemical company started ethylene production using ethanol as a feedstock [1] . The research on ethanol dehydration has concentrated on catalyst development [2–8] and reactor design [9–11] . The reaction is generally carried out at temperatures varying from 300 to 500 °C, under moderate pressures, and in the presence of catalysts such as activated alumina or silica, phosphoric acid impregnated in coke, silica‐alumina, zeolites, and others.…”
Section: Introductionmentioning
confidence: 99%