1. Development of Improved Chemicals and Plastics from Oilseeds,�Award # DE-FC36-01ID14213 ��DOE – Products Platform Stage Gate Review Meeting �August <9, 10>, 2005 Zenon Lysenko (PI)
Pat Nugent (Project Director)
Paul Roessler (PI)
The Dow Chemical Company
3. Develop new, commercially viable chemical processes and enabling catalyst technologies to convert seed oils to novel materials and polymers
End result will be the identification and commercialization of new plastics and performance chemicals from oleochemical-based renewable resources
The American farming community, the chemical industry, the consumer and the environment will all benefit
Substantial energy savings and reduced greenhouse gas emissions over incumbent technologies
Strategic development of a broadly enabling catalyst technology suitable for the transformation of BOTH oil and hemicellulose* feedstocks to economically advantaged products
* This work will be extended hemicellulose utilization consistent with Biorefinery metrics in 2006 pending DOE award # DE-FG36-05GO15157 Overall Project �Goals & Objectives
4.
Development of genetic tools to alter the lipid profiles and add new chemical functionality
Enhanced understanding of lipid biochemistry and molecular biology, harvesting and agronomics
Acceptance of renewable feedstocks in the petroleum-based chemical industry
Development of competitive products with enhanced performance
Improved Catalyst performance (Discovery and development of high-performance catalysts)
New process development
Market definition
Organization/Approach
5. Task 1:Plant Science: USDA-ARS WRRC and Dow
Development of genetic tools to alter the lipid profile of castor seeds and add new chemical functionality to the oil
Enhanced understanding of castor lipid biochemistry and molecular biology
Patent applications and manuscripts have been submitted
Task2: Production: Castor Agronomics and Crop Processing – Castor Oil Inc
Improve agronomic properties such as reduced ricin, uniform plant size and reduced need for water
Improve oil extraction and harvesting technology
Organization/Approach
6. Organization/Approach Molecular Modeling – Understand elementary steps and related equilibrium, the predicted modes of catalyst deactivation, the factors effecting competing reactions, and identify catalyst targets.
Kinetic Model Development - Understand elementary steps and related equilibrium, competing reactions, and degree of catalyst deactivation using an experimentally driven modeling approach based on fitting of lab batch reactor data.
New Catalyst Synthesis and Screening - Improve activity/stability of potential candidates using traditional and high throughput approaches.
Process Chemistry Studies - Develop correlation between process changes with catalyst lifetime, recovery and recycle.
Patents filed, numerous internal reports written and a manuscript accepted to Journal of Organometallics
7. Organization/Approach Life Cycle Analysis
Identified target product for the life cycle analysis (LCA)
polyols for use in polymer foams.
The LCA compare the product made from either fossil or renewable feedstocks.
Preliminary energy analysis shows a potential 10 fold reduction in energy needed per pound of material produced
Strong market focus to insure technology has a foundation in the marketplace
External market exploration study done to determine potential new uses
8. Task – Objective Detail Milestones
Task 1 Plant Science: (USDA, Dow).
castor metabolic pathways, gene sequencing, expression studies, transformation and metabolic engineering
Program funding was redirected toward tasks 3&4 early in 2005. Milestone delivery was on track until that time
Task 2 Production: (Castor Oil Inc.)
castor agronomics– crop testing, breeding, harvesting, seed crushing technologies
Milestones all completed on schedule
Task 3 Processing: (Dow)
catalyst discovery, development, reaction engineering, kinetics, process development, product performance evaluation, scaleup
Milestones on track for completion – 1st Q ‘06
Task 4 Utilization: (Dow)
lifecycle analyses, market definition, customer validation and economic evaluation
Milestones all completed on schedule
9. Go / no GO decisions Go/No Go Decisions were based on hallmarks in the areas:
Environmental impact, greenhouse gas emissions,
Energy savings and reduction in production costs
Material performance
Process economics and product market acceptance
Project is nearing completion nearly all decision points were navigated and work continued on task
Catalyst issues dictated alternative approaches
Castor lipid biochemistry was de-emphasized in 2004 and resources were redirected toward the completion of task 3.
10. Potential Customers
Dow and other chemical and plastics manufacturers
Costs of production are linked to commodity pricing and vary by application
Current or future market shifts on commodity products are tied to hydrocarbon feedstocks
Seed oil based products tied to commodity seed oils are considered advantageous
Favorable raw material positions Market & Customers
11. Market & Customers
12. Disconnection from petrochemical availability and price volatility
Products will be direct replacement and have comparable or better properties at competitive cost
Time frame is 3 to 5 years
Lifecycle analysis determined a significant reduction in energy of production and green house gas emissions
Fully synergistic with biodeisel production, producing value–added materials directly from biodeisel.
Economic analyses towards commercial targets show we are 60% of the way there Competitive Advantage
13. Milestone Fit
14. What Stage is the project in? Stage Gate Fit
15. Technical Barriers Addressed:�Chemicals and Materials
16. Affords Dow alternative feedstock that fit its strategic objectives
Project integrates well into an Oleochemical Biorefinery and
Project milestones are consistent with Biorefinery milestones 3.1 and 3.3 of the Vegetable oil biorefinery map (Milestone 3.2 is being pursued outside the scope of this grant)
Project is in stage gates 2 and 3, Detailed Investigation and Development
Technical barriers addressed were in tier 2 and tier 3: Product yield, catalyst development and separations.
Strategic Fit and Summary
17. Personnel USDA
Tom Mckeon
Castor Oil Inc.
Rick Graves, Lee Browning
Dow
Ken Burdett
Rich Helling
Zenon Lysenko (PI)
Peter Margl
Pat Nugent (Project Manager)
Tezi Mokhtar-Zadeh
Jason Patton
Paul Roessler (PI)
Francis Timmers
Keith Watson
