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Innovations in Wastewater Treatment, Thermochemical Waste Recycling, Carbon Capture, and Biofuels

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    Report

  • 38 Pages
  • September 2022
  • Region: Global
  • Frost & Sullivan
  • ID: 5693272

This edition of the Industrial Bioprocessing TOE features information on the use of alcoholic fermentation and transesterification processes for the production of bioethanol and biodiesel that can be blended with fossil fuels for high-end applications. 

The TOE covers innovations based on the use of thermo-chemical waste recycling technologies based on gasification and pyrolysis for the conversion of municipal solid waste and biomass into syngas used for generating electricity and biochar used as a soil additive. Additionally, the TOE also covers the use of cost-competitive bioplastics that can be used in the packaging industry. The other focal point of the TOE is the use of covalent organic nanosheets and titanium carbide-based adsorbents for the removal of organic pollutants and heavy metals from wastewater. The TOE also provides the latest innovations in the use of melamine and calcium hydroxide-based solid adsorbents for cost-effective carbon capture from point & non-point sources.

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

Table of Contents

1. Innovations in Wastewater Treatment, Thermochemical Waste Recycling, Carbon Capture, and Biofuels

  • Alcohol Fermentation-based Bioethanol Blended with Fossil Fuels for Emission Reduction
  • Envien Group's Value Proposition
  • Envien Group - Investor Dashboard
  • Gasification Technology Producing Heat, Electricity, and Biochar from Agricultural and Municipal Solid Waste (MSW)
  • Syntech Bioenergy's Value Proposition
  • Syngas Bioenergy - Investor Dashboard
  • Automated Micro Pyrolysis (AMP™) Technology for Energy Generation from Wastewater Sludge
  • Biowaste Pyrolysis Solutions' Value Proposition
  • Biowaste Pyrolysis Solutions - Investor Dashboard
  • Low-emission, Low-cost, Water-resistant Compostable Plastic
  • TGP Bioplastics - Value Proposition
  • TGP Bioplastics - Investor Dashboard
  • Tokenization of Carbon Credits from Amazon Rainforest Projects
  • Moss - Value Proposition
  • Moss - Investor Dashboard
  • Titanium Carbide Adsorbents for Heavy Metals' Removal from Wastewater
  • Drexel University's Value Proposition
  • Use of Melamine Adsorbent Polymers for Energy-efficient Carbon Dioxide Capture
  • UC Berkeley - Value Proposition
  • Removal of Organic Pollutants from Wastewater Using Ultrathin Covalent Organic Nanosheets
  • University of Vienna's Value Proposition
  • Polyethylene Terephthalate (PET) Hydrolase Re-engineered Using Machine Learning for Effective Plastic Degradation
  • UT Austin's Value Proposition
  • Cost Effective Solid Adsorption-based Post-combustion Carbon Capture
  • CNR's Value Proposition
  • Energy-efficient Electrochemical System for Point and Non-Point Source Carbon Capture
  • Harvard University's Value Proposition
  • Key Contacts

2. Appendix

  • Criteria for Rating of Innovations--Explanation
  • Legal Disclaimer

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • Biowaste Pyrolysis Solutions
  • CNR
  • Drexel University
  • Envien Group
  • Harvard University
  • Moss
  • Syngas Bioenergy
  • TGP Bioplastics
  • UC Berkeley
  • University of Vienna
  • UT Austin