Titlebook: Handbook of Biorefinery Research and Technology: Production of Biofuels and Biochemicals ; Virendra Bisaria Reference work 2024 Springer N

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Ethanol Production by Recombinant CBP Yeastsomass resources that are renewable and do not compete with food. Taking the production of bioethanol using a carbohydrate platform as an example, a biorefinery basically consists of a pretreatment process to swell crystallized biomass, an enzymatic treatment process to hydrolyze the biomass, a ferme

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Recent Advances in Anaerobic Digestion of Lignocellulosic Resources Toward Enhancing Biomethane Prodaluable products, such as bioenergy (biomethane) and biofertilizer (nutrient-rich digestate), using anaerobic digestion (AD) technology. Although biomethane production from the AD of lignocellulosic resources appears promising to fulfill the rising global energy demand, it often results in poor biom

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Techno-economic Analysis and Life Cycle Assessment of Biofuels Production in a Cellulosic Biorefiners continues to be the focus of considerable research because of the ubiquitous availability of the renewable resource and expected benefits of lower emissions and environmental contamination. Even though bioethanol from lignocellulosic resources has been the focus of considerable research focus sinc

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Microbial Production of Pyruvic, Lactic, and 3-Hydroxy Propionic Acid from Renewable Resourcesto global warming caused by the massive utilization of fossil resources, research efforts to reduce CO. emissions have increased worldwide. One of the key strategies to reduce CO. emissions is to change the production processes for material synthesis from chemical to biological processes. Therefore,

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Microbial Production of Dicarboxylates: Succinic Acid, Malic Acid, and Itaconic Acidased counterparts. Various dicarboxylic acids originating from the central metabolism are of particular interest to serve as drop-in or platform chemicals. They can either be used directly or be chemically converted into other high-value compounds for the polymer, food, or pharmaceutical industries.

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Metabolic Engineering of the Shikimic Acid Pathway in , for Production of Derived Aromatic Compoundspounds with relevant applications in pharmacy for the synthesis of antimicrobial, antiviral, and anticancer compounds, in the food industry, elaboration of cosmetics and fragrances, or as precursors of diverse polymers with different applications. In . as a bacterial biofactory model, the SHK pathwa