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Research to Overcome Bottlenecks to New Uses of Glycerine Receives Innovation Award

May 06, 2014
University of Tennessee’s Xiaofei “Philip” Ye Honored with 2014 Glycerine Innovation Award

FOR IMMEDIATE RELEASE

Contact: Brian Sansoni, 202-662-2517 (office) / 202-680-9327 (mobile) or via email at bsansoni@cleaninginstitute.org
Contact: Kaleb Little, 573-635-3893 or via email at klittle@biodiesel.org

  • American Cleaning Institute, National Biodiesel Board Sponsor Annual Award, Presented at American Oil Chemists’ Society Annual Meeting

Washington, DC, May 6, 2014 – Research aimed at finding ways to overcome roadblocks to industrial production of value-added chemicals from glycerine is being honored with the 2014 Glycerine Innovation Award.

The yearly honor is sponsored by the American Cleaning Institute® (ACI) and the National Biodiesel Board (NBB) and is presented at the Annual Meeting of the American Oil Chemists’ Society (AOCS).

The 2014 honoree is Dr. Xiaofei “Philip” Ye, Associate Professor at the University of Tennessee’s Department of Biosystems Engineering & Soil Science. The ACI/NBB Glycerine Innovation Award recognizes outstanding achievement for research into new applications for glycerine, with particular emphasis on commercial viability.

Dr. Ye undertook his research in response to the rapid growth of the biodiesel industry worldwide resulting in the production of large amounts of glycerine, creating an urgent need to quickly and effectively convert crude glycerine into value-added chemical products.

Three major commodity chemicals that can be derived from glycerine – acrylic acid, lactic acid, and propylene glycol – have attracted extensive research worldwide in recent years. These chemicals serve as building blocks for plastics and polymers that are environmentally friendly, with wide applications in superabsorbent polymers, textile treating agents, adhesives, thermosetting resin, and synthetic fibers.

However, there are still “bottleneck problems” hindering the industrial production of these chemicals from glycerine.

“These bottleneck problems are the use of crude glycerine instead of purified glycerine as feedstock, the catalyst deactivation in the conversion of glycerine, and energy and hydrogen efficiency in the conversion of glycerine,” said Dr. Ye.

“My research focuses on innovative technology development to overcome these bottleneck problems. In addition, I also conducted engineering modeling and economic analysis that justify and promote the use of innovative technologies for the commercial production of value-added chemicals from glycerine.”

Dr. Ye’s recent research in this area has been published in such journals as the Journal of the American Oil Chemists’ Society, ChemSusChem, Biofuels, Fuel Processing Technology, and Catalysis  Letters.

The Glycerine Innovation Award includes a plaque and a $5,000 honorarium. It was presented at the AOCS Industrial Oil Products Division luncheon during the AOCS 2014 Annual Meeting in San Antonio, TX.

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The American Cleaning Institute® (ACI) is the Home of the U.S. Cleaning Products Industry® and represents the $30 billion U.S. cleaning products market.  ACI  members include the formulators of soaps, detergents, and general cleaning products used in household, commercial, industrial and institutional settings; companies that supply ingredients and finished packaging for these products; and oleochemical producers.  ACI (www.cleaninginstitute.org) and its members are dedicated to improving health and the quality of life through sustainable cleaning products and practices.

The National Biodiesel Board is the national trade association representing America's first Advanced Biofuel. The group works to create sustainable biodiesel industry growth through education, communication, governmental affairs, technical and quality assurance programs. The industry produced a record 1.8 billion gallons in 2013, supporting more than 62,200 US jobs and is the first and only EPA-designated Advanced Biofuel produced on a commercial scale nationwide.