Innovations in Concrete, Biochemical, and Biofuel Production

Innovations in Concrete, Biochemical, and Biofuel Production

RELEASE DATE
16-Nov-2018
REGION
Global
Research Code: D768-00-9F-00-00
SKU: EG01943-GL-TA_22667

$250.00

Special Price $187.50 save 25 %

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EG01943-GL-TA_22667

$250.00

$187.50 save 25 %

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Description

This edition of the Industrial Bioprocessing TOE features trends and innovations in effective production of biochemical and biofuel, such as a mechanism to control the level of starch content in algae, a light-based biorefinery process for hydrogen production from wastewater resources, yeast pulcherrimin biosynthesis pathway to improve production of isobutanol, and eco-friendly enzymatic synthesis of fatty acid sugar esters from lignocellulosic substrates. The TOE also focuses on alternative approach to produce ultra-high performance concrete from industrial waste.

The Industrial Bioprocessing TechVision Opportunity Engine (TOE) provides intelligence on technologies, processes and strategic insights of industries involving bioprocessing, including innovations in the development and production of chemicals, pharmaceuticals, nutraceuticals, alternative fuels, chemical feedstocks, food and beverages, and consumer products.

Keywords: Light-based biorefinery process, hydrogen, pulcherrimin, isobutanol, ultra-high performance concrete, enzymatic synthesis, biosurfactants

Table of Contents

Recent Developments in Concrete, Biochemical, and Biofuel Production

  • Biorefinery Process for Hydrogen Production from Wastewater
  • Pulcherrimin Biosynthesis Pathway Improves Biofuel Production
  • Mechanism to Improve Starch Biosynthesis Productivity in Algae
  • Ultra-high Performance Concrete Made from Industrial Waste
  • Eco-friendly Enzymatic Synthesis of Biosurfactants
  • Industry Contacts
Related Research
This edition of the Industrial Bioprocessing TOE features trends and innovations in effective production of biochemical and biofuel, such as a mechanism to control the level of starch content in algae, a light-based biorefinery process for hydrogen production from wastewater resources, yeast pulcherrimin biosynthesis pathway to improve production of isobutanol, and eco-friendly enzymatic synthesis of fatty acid sugar esters from lignocellulosic substrates. The TOE also focuses on alternative approach to produce ultra-high performance concrete from industrial waste. The Industrial Bioprocessing TechVision Opportunity Engine (TOE) provides intelligence on technologies, processes and strategic insights of industries involving bioprocessing, including innovations in the development and production of chemicals, pharmaceuticals, nutraceuticals, alternative fuels, chemical feedstocks, food and beverages, and consumer products. Keywords: Light-based biorefinery process, hydrogen, pulcherrimin, isobutanol, ultra-high performance concrete, enzymatic synthesis, biosurfactants
More Information
No Index No
Podcast No
Industries Energy
WIP Number D768-00-9F-00-00
Is Prebook No
Ti Codes D763,D902,D904,D90A,D90B,D90C,D90F,D912,D916,D91C,D926,D932,D944,D947-TI