Vijay Singh

Distinguished Professor of Agricultural and Biological Engineering, University of Illinois Urbana-Champaign

Links

• His Agricultural and Biological Engineering page
• His Integrated Bioprocessing Research Laboratory page
• The IBRL page

Recent Publications

• Integration of Plant and Microbial Oil Processing at Oilcane Biorefineries for More Sustainable Biofuel Production
• Economic and Environmental Sustainability of Bio-Based HMF Production and Recovery from Lignocellulosic Biomass
• Hydrothermal Conditioning of Oleaginous Yeast Cells to Enable Recovery of Lipids as Potential Drop-in Fuel Precursors
• Sustainable Strategies to Achieve Industrial Ethanol Titers from Different Lignocellulosic Feedstocks: Scale-up Approach for Better Ethanol Yield
• Rapid and High-Throughput Determination of Sorghum (Sorghum bicolor) Biomass Composition Using Near Infrared Spectroscopy and Chemometrics
• Economic and Environmental Bottlenecks in the Industrial Scale Production of Lipid-Derived Biofuels from Oleaginous Yeasts: A Review of the Current Trends and Future Prospects
• Process Strategies for Recovery of Sugars, Lipids, and Lignin from Oilcane Bagasse Using Natural Deep Eutectic Solvents (NADES)
• Transforming to a Sustainable and Circular Chemical Sector: Redefining Biorefineries for a Sustainable Future
• Sustainable Co-Production of Plant Lipids and Cellulosic Sugars from Transgenic Energycane at an Industrially Relevant Scale: A Proof of Concept for Alternative Feedstocks
• Harnessing the Potential of Oilcane Waste Mud for Recovering Biobased Waxes
• Scale-up of Microbial Lipid and Bioethanol Production from Oilcane
• Pilot-Scale Processing of Miscanthus x giganteus for Recovery of Anthocyanins Integrated with Production of Microbial Lipids and Lignin-Rich Residue
• Natural Deep Eutectic Solvents (NADES) Assisted Deconstruction of Oilcane Bagasse for High Lipid and Sugar Recovery
• Tolerance of Engineered Rhodosporidium toruloides to Sorghum Hydrolysates During Batch and Fed-Batch Lipid Production
• Determining Mating Type and Ploidy in Rhodotorula toruloides and its Effect on Growth on Sugars from Lignocellulosic Biomass
• An End-to-End Pipeline for Succinic Acid Production at an Industrially Relevant Scale Using Issatchenkia orientalis
• Designer Xylose-Acetic Acid Enriched Hydrolysate from Bioenergy Sorghum, Oilcane, and Energycane Bagasses
• Lipid-Enhanced Oilcane Does Not Impact Soil Carbon Dynamics Compared with Wild-Type Sugarcane
• Application of Time-Domain 1H NMR for Investigating Dynamics of Vegetative Lipids in Bioenergy Crops at Different Developmental Stages
• Design of a High-Rate Wastewater Treatment Process for Energy and Water Recovery at Biorefineries
• Chemical-Free Production of Multiple High-Value Bioproducts from Metabolically Engineered Transgenic Sugarcane ‘Oilcane’ Bagasse and Their Recovery Using Nanofiltration
• A Chemical-Free Pretreatment for Biosynthesis of Bioethanol and Lipids from Lignocellulosic Biomass: An Industrially Relevant 2G Biorefinery Approach
• Bioprocessing, Recovery, and Mass Balance of Vegetative Lipids from Metabolically Engineered ‘Oilcane’ Demonstrates Its Potential as an Alternative Feedstock for Drop-In Fuel Production
• Bioenergy Crops as Alternative Feedstocks for Recovery of Anthocyanins: A Review
• Economic and Environmental Sustainability of Vegetative Oil Extraction Strategies at Integrated Oilcane and Oil-Sorghum Biorefineries
• The Effects of Sequential Hydrothermal-Mechanical Refining Pretreatment on Cellulose Structure Changes and Sugar Recoveries
• A Consolidated Bioprocess Design to Produce Multiple High-Value Platform Chemicals from Lignocellulosic Biomass and Its Technoeconomic Feasibility
• Cas9-Based Metabolic Engineering of Issatchenkia orientalis for Enhanced Utilization of Cellulosic Hydrolysates
• Adsorptive Separation and Recovery of Triacetic Acid Lactone from Fermentation Broth
• Valorization of Miscanthus x giganteus for Sustainable Recovery of Anthocyanins and Enhanced Production of Sugars
• Solvent-Free Enzymatic Esterification of Free Fatty Acids with Glycerol for Biodiesel Application Optimized Using the Taguchi Experimental Method
• Optimizing Chemical-Free Pretreatment for Maximizing Oil/Lipid Recovery from Transgenic Bioenergy Crops and its Rapid Analysis Using Time Domain-NMR
• Coprocessing Corn Germ Meal for Oil Recovery and Ethanol Production: A Process Model for Lipid-Producing Energy Crops
• Integrated Biorefinery for Valorization of Engineered Bioenergy Crops — A Review
• Metabolic Engineering of the Oleaginous Yeast Yarrowia lipolytica PO1f for Production of Erythritol from Glycerol
• Hydrothermal Pretreatment for Valorization of Genetically Engineered Bioenergy Crop for Lipid and Cellulosic Sugar Recovery
• Conversion of High-Solids Hydrothermally Pretreated Bioenergy Sorghum to Lipids and Ethanol Using Yeast Cultures
• Response Surface Methodology Guided Adsorption and Recovery of Free Fatty Acids from Oil Using Resin
• Economic Perspective on Ethanol and Biodiesel Coproduction from Industrial Hemp
• Technical and Economic Feasibility of an Integrated Ethanol and Anthocyanin Coproduction Process Using Purple Corn Stover
• Biodiesel from Oil Produced in Vegetative Tissues of Biomass — A Review
• Recoveries of Oil and Hydrolyzed Sugars from Corn Germ Meal by Hydrothermal Pretreatment: A Model Feedstock for Lipid-Producing Energy Crops
• Biodiesel Production from Engineered Sugarcane Lipids under Uncertain Feedstock Compositions: Process Design and Techno-Economic Analysis
• Variability in Structural Carbohydrates, Lipid Composition, and Cellulosic Sugar Production from Industrial Hemp Varieties
• High Solids Loading Biorefinery for the Production of Cellulosic Sugars from Bioenergy Sorghum
• Production of Xylose-Enriched Hydrolysate from Bioenergy Sorghum and its Conversion to β-Carotene Using an Engineered Saccharomyces cerevisiae
• Towards Oilcane: Engineering Hyperaccumulation of Triacylglycerol into Sugarcane Stems
• BioSTEAM: A Fast and Flexible Platform for the Design, Simulation, and Techno-Economic Analysis of Biorefineries under Uncertainty
• Field Productivities of Napier Grass for Production of Sugars and Ethanol
• Economic Analysis of Cellulosic Ethanol Production from Sugarcane Bagasse Using a Sequential Deacetylation, Hot Water and Disk Refining Pretreatment Processes
• Impact of Fractionation Process on the Technical and Economic Viability of the Corn Dry Grind Ethanol Process
• Sugar Production from Bioenergy Sorghum by Using Pilot-Scale Continuous Hydrothermal Pretreatment Combined with Disk Refining
• Economics of Plant Oil Recovery: A Review
• Improving Ethanol Yields with Deacetylated and Two-Stage Pretreated Corn Stover and Sugarcane Bagasse by Blending Commercial Xylose-Fermenting and Wild Type Saccharomyces Yeast
• The Costs of Sugar Production from Different Feedstocks and Processing Technologies
• Bioconversion of Pelletized Big Bluestem, Switchgrass, and Low-Diversity Grass Mixtures into Sugars and Bioethanol
• Cellulosic Ethanol Potential of Feedstocks Grown on Marginal Land
• Ethanol Production from Corn Fiber Separated after Liquefaction in the Dry Grind Process.
• Increasing Ethanol Yield through Fiber Conversion in Corn Dry Grind Process

Recent Datasets

• Economic and Environmental Sustainability of Bio-Based HMF Production and Recovery from Lignocellulosic Biomass
• Rapid and High-Throughput Determination of Sorghum (Sorghum bicolor) Biomass Composition using Near Infrared Spectroscopy and Chemometrics
• Simulation Results for “Integration of Plant and Microbial Oil Processing at Oilcane Biorefineries for More Sustainable Biofuel Production” Publication
• Process Strategies for Recovery of Sugars, Lipids, and Lignin from Oilcane Bagasse Using Natural Deep Eutectic Solvents (NADES)
• Harnessing the Potential of Oilcane Waste Mud for Recovering Biobased Waxes
• Scale-up of Microbial Lipid and Bioethanol Production from Oilcane
• Pilot-Scale Processing of Miscanthus x giganteus for Recovery of Anthocyanins Integrated with Production of Microbial Lipids and Lignin-Rich Residue
• Natural Deep Eutectic Solvents (NADES) Assisted Deconstruction of Oilcane Bagasse for High Lipid and Sugar Recovery
• Tolerance of Engineered Rhodosporidium toruloides to Sorghum Hydrolysates During Batch and Fed-Batch Lipid Production
• Determining Mating Type and Ploidy in Rhodotorula toruloides and its Effect on Growth on Sugars from Lignocellulosic Biomass
• An End-to-End Pipeline for Succinic Acid Production at an Industrially Relevant Scale Using Issatchenkia orientalis
• Production of Designer Xylose-Acetic Acid Enriched Hydrolysate from Bioenergy Sorghum, Oilcane, and Energycane Bagasses
• Lipid-Enhanced Oilcane Does Not Impact Soil Carbon Dynamics Compared with Wild-Type Sugarcane
• Application of Time-Domain ¹H NMR for Investigating Dynamics of Vegetative Lipids in Bioenergy Crops at Different Developmental Stages
• Chemical-Free Production of Multiple High-Value Bioproducts from Metabolically Engineered Transgenic Sugarcane ‘Oilcane’ Bagasse and Their Recovery Using Nanofiltration
• A Chemical-Free Pretreatment for Biosynthesis of Bioethanol and Lipids from Lignocellulosic Biomass: An Industrially Relevant 2G Biorefinery Approach
• Bioprocessing, Recovery, and Mass Balance of Vegetative Lipids from Metabolically Engineered ‘Oilcane’ Demonstrates Its Potential as an Alternative Feedstock for Drop-In Fuel Production
• The Effects of Sequential Hydrothermal-Mechanical Refining Pretreatment on Cellulose Structure Changes and Sugar Recoveries
• A Consolidated Bioprocess Design to Produce Multiple High-Value Platform Chemicals from Lignocellulosic Biomass and Its Technoeconomic Feasibility
• Adsorptive Separation and Recovery of Triacetic Acid Lactone from Fermentation Broth
• Valorization of Miscanthus x giganteus for Sustainable Recovery of Anthocyanins and Enhanced Production of Sugars
• Solvent-Free Enzymatic Esterification of Free Fatty Acids with Glycerol for Biodiesel Application: Optimized Using the Taguchi Experimental Method
• Optimizing Chemical-Free Pretreatment for Maximizing Oil/Lipid Recovery from Transgenic Bioenergy Crops and its Rapid Analysis Using Time Domain-NMR
• Coprocessing Corn Germ Meal for Oil Recovery and Ethanol Production: A Process Model for Lipid-Producing Energy Crops
• Metabolic Engineering of the Oleaginous Yeast Yarrowia lipolytica PO1f for Production of Erythritol from Glycerol
• Hydrothermal Pretreatment for Valorization of Genetically Engineered Bioenergy Crop for Lipid and Cellulosic Sugar Recovery
• Conversion of High-Solids Hydrothermally Pretreated Bioenergy Sorghum to Lipids and Ethanol Using Yeast Cultures
• Response Surface Methodology Guided Adsorption and Recovery of Free Fatty Acids from Oil Using Resin
• Economic Perspective of Ethanol and Biodiesel Coproduction from Industrial Hemp
• Technical and Economic Feasibility of an Integrated Ethanol and Anthocyanin Coproduction Process Using Purple Corn Stover
• Biodiesel Production from Engineered Sugarcane Lipids under Uncertain Feedstock Compositions: Process Design and Techno-Economic Analysis
• Variability in Structural Carbohydrates, Lipid Composition, and Cellulosic Sugar Production from Industrial Hemp Varieties
• High Solids Loading Biorefinery for the Production of Cellulosic Sugars from Bioenergy Sorghum
• Impact of Fractionation Process on the Technical and Economic Viability of Corn Dry Grind Ethanol Process
• Sugar Production from Bioenergy Sorghum by Using Pilot-Scale Continuous Hydrothermal Pretreatment Combined with Disk Refining
• Ethanol Production from Corn Fiber Separated after Liquefaction in the Dry Grind Process
• Increasing Ethanol Yield through Fiber Conversion in Corn Dry Grind Process