Richard Venditti Ph.D.
Elis-Signe Olsson Professor of Pulp and Paper Science and Technology, Forest Biomaterials, NC State University
Biltmore Hall (Robertson Wing) NA
Bio
Dr. Richard Venditti’s is the Elis-Signe Olsson Professor of Pulp and Paper Science and Engineering in the Forest Biomaterials Department at NC State University. He has 26 years of experience in research in the areas of pulp/paper, bioeconomy, recycling, and environmental LCA. His research and teaching is involved in developing effective systems to transform renewable plant based resources into sustainable products. Venditti uses environmental life cycle analysis to guide and analyze research in bioproducts. He is currently heading a multi-organization research project to understand the fate of microparticles from laundering in the environment. He also is the principal investigator of a four year, $2.75 million United States Department of Agriculture program, entitled, Preparing Diverse and Rural Students and Teachers to Meet the Challenges of the Bioproducts and Bioenergy Industry. Venditti teaches Unit Operations of Pulp and Paper, Process Control, Environmental LCA, and Introduction to the Bioeconomy classes at NC State.
Additionally, Dr. Venditti is the director of the Pulp and Paper Workshop at NC State, co-sponsored by the Technical Association of Pulp and Paper Industries (TAPPI). He teaches the paper recycling portions of the course. He received a Ph.D. in Chemical Engineering from Princeton University, was named a TAPPI Fellow in 2012, and was named a Fulbright Senior Specialist in Environmental Science in 2009. He has over 150 peer reviewed publications and three patents. The Venditti-Gillham Equation was derived by Venditti to predict the glass transition temperature as a function of chemical conversion in polymeric systems and is often cited by name, with over 120 citations. His technology was the catalyst of a start-up company, Tethis, that produces renewable products such as superabsorbent polymers from carbohydrates.
Area(s) of Expertise
Processing and utilization of natural polymers in new products and fuels, biodegradation of biopolymers, microfibers from laundering, the fundamentals of separation science in fiber processing, paper and cotton recycling, and the environmental life cycle analysis
Publications
- A Multi-Criteria Approach for Quantifying the Impact of Global Megatrends on the Pulp and Paper Industry: Insights into Digitalization, Social Behavior Change, and Sustainability , LOGISTICS-BASEL (2024)
- A modeling framework to identify environmentally greener and lower-cost pathways of nanomaterials , Green Chemistry (2024)
- An economic analysis of bamboo plantations and feedstock delivered cost in the Southern US for the manufacturing of fiber-based bioproducts , BIOFUELS BIOPRODUCTS & BIOREFINING-BIOFPR (2024)
- Aquatic biodegradation of poly(β-hydroxybutyrate) in polylactic acid and maleic anhydride blended fibers , JOURNAL OF POLYMER RESEARCH (2024)
- Are starch-based materials more eco-friendly than fossil-based? A critical assessment , CLEANER ENVIRONMENTAL SYSTEMS (2024)
- Beyond cotton and polyester: An evaluation of emerging feedstocks and conversion methods for the future of fashion industry , JOURNAL OF BIORESOURCES AND BIOPRODUCTS (2024)
- Biodegradation of Lignocellulose-Polyester Composite Films in Freshwater and Seawater Conditions , JOURNAL OF POLYMERS AND THE ENVIRONMENT (2024)
- Carbon Footprint and Techno-economic Analysis to Decarbonize the Production of Linerboard via Fuel Switching in the Lime Kiln and Boiler: Development of a Marginal Abatement Cost Curve , BIORESOURCES (2024)
- Effect of Paper-making Additives on Biodegradation of Lignocellulosic Fibers , BIORESOURCES (2024)
- Elucidation of temperature-induced water structuring on cellulose surfaces for environmental and energy sustainability , CARBOHYDRATE POLYMERS (2024)