Wednesday, November 11, 2009: 8:30 AM
Governor's Chamber A (Gaylord Opryland Hotel)
Description:
The objective of the section is to inform the chemical engineering community about novel processes and/or reaction mechanisms that reduce consumption of raw materials, energy, unit operations, emissions, and/or generation of waste. Consideration will be given to papers clearly describing the elimination of reaction steps, or the use of less hazardous chemicals to produce consumer products, commodity and/or specialty chemicals, synthetic chemicals and feedstocks, and biofuels. Other areas of interest include the conversion of waste into value added products and more efficient environmental remediation technologies. The papers should quantitatively compare (e.g., investigate the reduction of pollutants or raw materials) the conventional chemistry with the proposed new green (sustainable) chemistry or reaction engineering. Some examples of topics include reactions/separations using supercritical fluids, generation of biofuels from non-food related and waste feedstocks, and integration of reaction and separation steps.
Sponsor:
Catalysis and Reaction Engineering Division
Co-Sponsor(s):
Environmental Division (09)
Chair:
Co-Chair:
8:30 AM
(360a)
The Attainable Region of Reactor Networks Featuring Multiple Catalysts with Applications to Green Engineering
8:55 AM
(360b)
Optimization Study On Novel Continuous Flow Biodiesel Reactor / Separator, Varying Feedstock, Temperature, Residence Time, and Orientation
9:20 AM
(360c)
Development and Modeling of a Novel Spray Reactor for p-Xylene Oxidation to Terephthalic Acid
9:45 AM
(360d)
Efficient Immobilization and Recycling of Homogeneous Catalysts Via Supported Ionic Liquid Phase (SILP) Technology
10:10 AM
(360e)
Kinetics of Decarboxylation of Pentafluorobenzoic Acid and Quinolinic Acid in High-Temperature Water
See more of this Group/Topical: Catalysis and Reaction Engineering Division