2007
DOI: 10.1002/jctb.1665
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Bioethanol: fuel or feedstock?

Abstract: Increasing amounts of bioethanol are being produced from fermentation of biomass, mainly to counteract the continuing depletion of fossil resources and the consequential escalation of oil prices. Today, bioethanol is mainly utilized as a fuel or fuel additive in motor vehicles, but it could also be used as a versatile feedstock in the chemical industry. Currently the production of carbon-containing commodity chemicals is dependent on fossil resources, and more than 95% of these chemicals are produced from non-… Show more

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Cited by 197 publications
(114 citation statements)
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“…Additionally, bioethanol has other varied uses which make it a highly valuable commodity. It can be used in domestic cooking as ethanol gels [6], in fuel cells [7], for hydrogen production and as a precursor for other chemical commodities [8].…”
Section: Introductionmentioning
confidence: 99%
“…Additionally, bioethanol has other varied uses which make it a highly valuable commodity. It can be used in domestic cooking as ethanol gels [6], in fuel cells [7], for hydrogen production and as a precursor for other chemical commodities [8].…”
Section: Introductionmentioning
confidence: 99%
“…Currently, as much as 95% of all synthetic substances are manufactured from fossil resources [14]. The majority of plastics are produced using seven key hydrocarbons (compounds consisting entirely of hydrogen and carbon) as their building blocks (ethylene (C2), propylene (C3), C4 olefins or butadiene (C4), benzene (C6), toluene (C7), and xylene (C8)) [13].…”
Section: Background-pvc Within the Context Of Other Polymers And Syntmentioning
confidence: 99%
“…[94][95][96] The cost of the biomass-derived product is affected by several factors, including crops (efficiency, management and transportation), biomass pre-treatment (drying, grounding, depolymerizing), chemical process (productivity, product separation and purification), and market demand. From the chemical point of view, there are important features to be addressed aiming a cost-effective chemical process: 97 (i) Replacement of corrosive substances (e.g., mineral acids), improvement of biomass hydrolysis efficiency and development of processes compatible with different biomass feedstocks; (ii) Enhance the product yields; (iii) Design of energy efficient processes that require minimum product separation; (iv) Processes integration, development of one-pot processes, and maximization of the number of reaction steps that can be performed in a single reactor and/or integration between chemical and biological catalysis.…”
Section: Catalysts: Towards Heterogeneous Catalysis Bifunctional Catmentioning
confidence: 99%