Skip to main content
Toggle main menu visibility
Menu
Join
Sign In
Communities
Membership
Events
Publications
Learning & Careers
AIChE Home
About
Contact AIChE
Leadership
Events
Communities
Membership
Learning & Careers
Publications
Careers at AIChE
Equity, Diversity, Inclusion
Giving
Students
Young Professionals
Operating councils
Local Sections
Committees
Awards
Communities
Membership
Events
Publications
Learning & Careers
Toggle site search visibility
Sign In
Join
Breadcrumb
Home
Publications
Proceedings
2017 Metabolic Engineering Summit
General Submissions
ME as an Enabling Technology for Driving Innovation
Impact of yeast lipid pathway engineering and bioprocess strategy on cellular physiology and lipid content
2011 Annual Meeting
Session: Biomass Pyrolysis I
Chair
Agblevor, F. A.
, Utah State University
Presentations
03:15 PM
Introductory Remarks
03:20 PM
(349a) Thermochemical Conversion of Coal and Biomass to Liquid and Gaseous Fuels
03:38 PM
(349b) Conversion of Algal and Duckweed Biomass to Liquid Fuels Through Catalytic Fast Pyrolysis
03:56 PM
(349c) The Influence of Nickel Phosphide On the Fractional Catalytic Pyrolysis of Hybrid Poplar Wood
04:14 PM
(349d) Direct Coupled Catalytic Upgrading of Multi-Stage Pyrolysis Bio-Oil Vapors
04:32 PM
(349e) Recovery of Large Amount of Levoglucosan Produced by the Fast Pyrolysis of Acid Infused Biomass From the Reactor
04:50 PM
(349f) High Pressure Fast-Pyrolysis and Fast-Hydropyrolysis for Conversion of Biomass to Liquid Fuels
05:08 PM
(349g) Reaction-Transport Model for the Pyrolysis of Shrinking Cellulose Particles
05:26 PM
(349h) Studying Effects of Inorganic Salts On Biomass Pyrolysis Using a Captive Sample Reactor
