Research and Technology Transfer to Support a Growing Alternative Energy Cluster Frank J.
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Transcript Research and Technology Transfer to Support a Growing Alternative Energy Cluster Frank J.
Research and Technology Transfer to
Support a Growing Alternative Energy Cluster
Frank J. Calzonetti
Vice President for Research Development
The University of Toledo
SUSTAINABLE ENERGY FOR
TODAY'S BUSINESS MEETING
March 22, 2007
University of Toledo Alternative Energy
Research Projects
• Photovoltaic electricity
• Photovoltaic hydrogen
• Fuel cells – focus on technologies to convert fuel to hydrogen
• Biomass energy
• Energy storage and batteries
• Transportation technologies
Center for Photovoltaics Innovation and Commercialization:
An $18.6 million Wright Center of Innovation
• Universities - The University of Toledo (Lead), Bowling Green State
University, and OSU
• Industry - Advanced Distributed Generation, Cornerstone Research
Group, Decker Homes, DuPont, Innovative Thin Films, LakeShore
Cryotronics, Metamateria Partners, Midwest Optoelectronics,
NewCyte, Owens Corning, Pilkington, Solar Fields, and SSOE
• Non-profit organizations - Battelle Memorial Institute, Green
Energy Ohio, Edison Materials Technology Center, and Honda OSU
Partnership
UT’s Flexible Solar Cells
Cadmium telluride
Amorphous silicon
UT’s Alternative Energy Incubator
•
•
UT Alternative Energy Spin-off companies
– MWOE
– Innovative Thin Films
Other Companies
– Advanced Distributed Generation
– H2 Systems
– Ugly Data
Home to the Wright
Center of Innovation—
Photovoltaic Innovation
and Commercialization
Demonstration of H2 Production from Solar
Fuel cell
vehicle
Location:
University of Toledo, R1 Building
H2 filling station:
12 kW solar array, Avalence electrolytic system,
high-pressure storage tank
Fuel cell vehicle
GEM electric truck, 1.2 kW Ballard Nexa fuel
cell, on-board H2 storage at 2500 psi, modified
drive system
UT-Catacel Partnership for
Development of Fuel Reforming
• Catacel: commercialization opportunity.
– Flexible fuel reformer is practical
application for catalyst technology
– Knowledge of economic drivers and
system advantages
• UT: provides technical knowledge for
catalyst development and testing
– Fundamental research in catalyst design
– Access to sophisticated test equipment
– Availability of student researchers
Biomass Energy
• Production of sugars from biomass for conversion to
ethanol using ionic liquids to produce ethanol from cellulose
Bio-Diesel Project in the UT
Intermodal Transportation Institute
● Objectives: Support the introduction of bio-diesel (B-20) and evaluate its
impact on operating costs, emissions, engine performance, and engine life
● Partnership: TARTA, Toledo Public Schools, and The University of Toledo
● Unique aspects of the project:
- Large scale study using more than 50 vehicles
- Collect extensive emission (in-bus and tail pipe), operating, and engine wear
data over three years
- Examine the impact of mixing hydrogen in the combustion air intake
- Estimate the impact of technology advancement and large scale production
on cost and availability
Hydraulic Hybrid Vehicles
• Improve and optimize components of hybrid
hydraulic systems to maximize fuel economy and
minimize pollutant emissions
• EPA funded