Search

Search Results

1. The Impact of Preservation Techniques on Methane-Arrested Anaerobic Digestion of Nutrient-Rich Feedstocks

   The carboxylate platform is a promising biomass-to-energy pathway that uses methane-arrested anaerobic digestion (MAAD) to convert biomass to...

   Opeyemi Olokede, Kejia Liu, Mark Holtzapple in Applied Biochemistry and Biotechnology

   Article 09 September 2022
   

2. Kinetic modeling of countercurrent saccharification

   Background

   Countercurrent saccharification is a promising way to minimize enzyme loading while obtaining high conversions and product concentrations....

   Chao Liang, Chao Gu, ... Mark Holtzapple in Biotechnology for Biofuels

   Article Open access 11 July 2019
   

3. A two-phase substrate model for enzymatic hydrolysis of lignocellulose: application to batch and continuous reactors

   Background

   Enzymatic hydrolysis continues to have a significant projected production cost for the biological conversion of biomass to fuels and...

   James J. Lischeske, Jonathan J. Stickel in Biotechnology for Biofuels

   Article Open access 27 December 2019
   

4. Creating Economic Incentives for Waste Disposal in Develo** Countries Using the MixAlco Process

   In rapidly growing develo** countries, waste disposal is a major challenge. Current waste disposal methods (e.g., landfills and sewage treatment)...

   Sagar Lonkar, Zhihong Fu, ... Mark Holtzapple in Applied Biochemistry and Biotechnology

   Article 17 August 2016
   

5. Assessment of Shock Pretreatment of Corn Stover Using the Carboxylate Platform

   Corn stover was pretreated with lime and shock, a mechanical process that uses a shockwave to alter the biomass structure. Two pretreatments...

   Pratik Darvekar, Mark T. Holtzapple in Applied Biochemistry and Biotechnology

   Article 23 November 2015
   

6. Fermentation of Sugarcane Bagasse and Chicken Manure to Calcium Carboxylates under Thermophilic Conditions

   Sugarcane bagasse and chicken manure were anaerobically fermented to carboxylic acids using a mixed culture of marine microorganisms at 55 °C. Using...

   Zhihong Fu, Mark T. Holtzapple in Applied Biochemistry and Biotechnology

   Article 27 August 2009
   

7. Fermentation of rice straw/chicken manure to carboxylic acids using a mixed culture of marine mesophilic micoorganisms

   Countercurrent fermentation of rice straw and chicken manure to carboxylic acids was performed using a mixed culture of marine mesophilic...

   Frank K. Agbogbo, Mark T. Holtzapple in Applied Biochemistry and Biotechnology

   Article 01 March 2006

8. Fermentation of Rice Straw/Chicken Manure to Carboxylic Acids Using a Mixed Culture of Marine Mesophilic Micoorganisms

   Countercurrent fermentation of rice straw and chicken manure to carboxylic acids was performed using a mixed culture of marine mesophilic...

   Frank K. Agbogbo, Mark T. Holtzapple in Twenty-Seventh Symposium on Biotechnology for Fuels and Chemicals

   Chapter 2006
   

9. Conversion of municipal solid wastes to carboxylic acids by thermophilic fermentation

   The purpose of this research is to generate carboxylic acids from the biodegradable fraction of municipal solid wastes (MSW) and municipal sewage...

   Wen Ning Chan, Mark T. Holtzapple in Applied Biochemistry and Biotechnology

   Article 01 November 2003

10. Conversion of sugarcane bagasse to carboxylic acids using a mixed culture of mesophilic microorganisms

    Using the MixAlco process, biomass can be converted into carboxylic acids, which can be chemically converted into mixed alcohol fuels. This study...

    Piyarat Thanakoses, Nagat Abd Alla Mostafa, Mark T. Holtzapple in Applied Biochemistry and Biotechnology

    Article 01 March 2003

11. Biomass conversion to mixed alcohol fuels using the MixAlco process

    The MixAlco process is a patented technology that converts any biodegradable material (e.g., sorted municipal solid waste, sewage sludge, industrial...

    Mark T. Holtzapple, Richard R. Davison, ... Mitchell E. Loescher in Applied Biochemistry and Biotechnology

    Article 01 March 1999

12. Biomass Conversion to Mixed Alcohol Fuels Using the MixAlco Process

    The MixAlco process is a patented technology that converts any biodegradable material (e.g., sorted municipal solid waste, sewage sludge, industrial...

    Mark T. Holtzapple, Richard R. Davison, ... Mitchell E. Loescher in Twentieth Symposium on Biotechnology for Fuels and Chemicals

    Chapter 1999