Leland Vane1, Franklin Alvarez1, Yu (Ivy) Huang2, and Richard Baker2. (1) U.S. EPA, 26 W. Martin Luther King Drive, M/S443, Cincinnati, OH 45268, (2) Membrane Technology & Research, Inc., 1360 Willow Road, Suite 103, Menlo Park, CA 94025
Distillation combined with molecular sieve dehydration is the current state of the art for fuel grade ethanol production from fermentation broths. To improve the sustainability of bioethanol production, energy efficient separation alternatives are needed, particularly for lower fermented ethanol concentrations and smaller scale systems. A process, termed Membrane Assisted Vapor Stripping (MAVS), integrating steam stripping with a vapor compression step and a vapor permeation membrane separation step is proposed. The stripping column provides high ethanol recoveries and low effluent concentrations; the vapor compression-vapor permeation membrane component enables the efficient recovery of latent and sensible heat from both the ethanol-enriched retentate and water-enriched permeate streams from the membrane system. Based on computer simulations, recovery of 1 kg of fuel grade ethanol (0.5 wt% water) from a 1 wt% ethanol feed stream can be achieved using 8.9 MJ of fuel-equivalent energy. For a 5 wt% ethanol feed stream, only 2.5 MJ are needed. This represents an energy savings of at least 43% relative to standard distillation producing azeotropic ethanol (7 wt% water). To produce a 99.5 wt% ethanol product from a broth containing 11.5 wt% ethanol, a conventional distillation/mol sieve system is expected to use 5.5 MJ-fuel equiv/kg-ethanol; the MAVS process would require as little as 2.2 MJ-fuel equiv./kg-ethanol. Overall costs are also estimated to be lower for a MAVS system. The energy savings of the MAVS approach were confirmed through experiments. The experimental system consisted of a vapor stripping column with 6 stages of vapor-liquid equilibria, a vapor compressor, and a water-selective vapor permeation membrane module. The membrane was prepared with a solvent resistant perfluoro coating. Energy savings of over 50% were measured for recovery of ethanol from feed streams containing 1.5 and 5.5 wt% ethanol. Experiments with an actual fermentation broth will also be reported.
*This is an abstract of a proposed presentation and does not necessarily reflect USEPA policy.