Titlebook: Nanotechnology for Bioenergy and Biofuel Production; Mahendra Rai,Silvio Silvério da Silva Book 2017 Springer International Publishing Swi

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Applications of Carbon-Based Nanomaterials in Biofuel Cell and future developments of carbon-based nanomaterials in these special fields. In this chapter, our purpose was to review the development and problems on the carbon-based nanomaterials in biofuel cell application.

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Potential Applications of Nanotechnology in Thermochemical Conversion of Microalgal Biomassave a high carbon dioxide (CO.) capturing efficiency, rapid growth rate, high biomass productivity, and the ability to grow in non-potable water. For algal biomass, the two main conversion pathways used to produce biofuel include biochemical and thermochemical conversions. Algal biofuel production i

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From Biomass to Fuels: Nano-catalytic Processesbiomass to fuel (BTF) processes. It has been demonstrated that decreasing metal particle sizes to nano-scale can increase the processes productivity and selectivity. Very high production yields of biofuels up to 100?% can be available in the presence of nano-catalysts..In this chapter, BTF processes

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Heterogeneous Catalysts for Advanced Biofuel Production-supported metal catalysts have been extensively developed for the conversion of biomass derivatives into biojet fuels, fuel additives, and biochemical platforms. The research, development, and engineering of novel heterogeneous catalysts could be a key factor for commercialization and strong establ

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An Overview of the Recent Advances in the Application of Metal Oxide Nanocatalysts for Biofuel Produ anaerobic digestion are main routes for biomass to biofuel conversion. In all biofuel production processes, developing the highest quality products with an optimized process (in terms of cost, energy consumption, etc.) is desirable which necessitates the exploitation of modern sciences such as nano

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