Transcript Document
Renewable Energy Testing Center (RETC)
RETC is managed jointly by the Renewable Energy
Institute International (REII) and Technikon
It was established to provide industry with an
independent “Underwriters Laboratory (UL)” type
facility for evaluating and validating the performance
of renewable energy and renewable fuels technologies
with respect to robustness, safety, energy efficiency,
environmental effectiveness and other key
performance specifications.
Renewable Energy Testing Center (RETC)
McClellan Park, CA
Partnerships and Collaborations
• REII brings together broad expertise and collaboration in
the energy and environmental fields
• Technikon has years of experience managing government
contracts for DOD and operating industrial testing facilities
– Technikon’s major contract – the Casting Emission
Reduction Program (CERP) is a successful model for
testing and validation that will be applied to RETC
• RETC collaboration members also includes: DOD, CEC,
DOE, DRI, California EPA, US EPA, USCAR (auto
industry), U.S. Forest Service, USDA, several Northern
California Universities and the Asian Biomass Center
(Thailand).
• RETC will contribute to regional and national efforts to
become a renewable energy technology marketplace
Biomass Conversion Technologies for Testing and Validation
Renewable
Biomass
Products
- Agriculture
- Forest
Residues
- Agriculture
- Forest
- Municipal
- Industrial
Conversion Technologies
- Thermochemical Conversion
- Biochemical Conversion
- Direct Combustion
Over 450 Identified Technology
Providers with Processes
Representing 15 Technology
Categories
Renewable
Energy
Products
Fuels
− Alcohols
− Diesels
− Hydrogen
Electricity & Heat
RETC Focus
Validation of Technologies for the Production of
Alternative and Renewable Transportation Fuels
Alcohols
Bio-Diesel
Natural
Gas
Propane
Hydrogen
FT Diesel &
Gasoline
CNG/H2
Mixtures
Dimethyl
Ether (DME)
5E Assessment Approach for the Evaluation of
Promising Conversion Technologies
The 5E Assessment approach helps determine the
commercial viability of a biomass conversion
technology with respect to:
Feasibility as determined by an in-depth technology
Evaluation (E1)
Energy (E2) efficiency
Environmental (E3) impact
Economical (E4) viable
Socio-Political Effective (E5)
RETC provides a unique engineering center for generating
data in support of these 5E assessments
Current Technology Testing and Validation Efforts
A 3-4 year DOE/CEC funded study recently concluded that
thermochemical conversion systems employing pyrolysis and
steam reforming processes under reducing conditions (no
oxygen) and integrated with next-generation catalyst and energy
conversion technologies for the co-production of bioalcohols
and bioelectricity have the current potential of producing
bioethanol at $1.50/gallon or less for commercial plants that coconvert 325-1,000 DTPD of renewable biomass to bioalcohols
and bioelectricity.
Therefore, the RETC management team has chosen these
candidate technologies for current testing and validation.
Candidate Bioethanol and Bioenergy Production System
Biomass
Processing
Biomass
Conversion
Grinding
Mixing
Screening
(done offsite)
PRF
Thermo
Syngas Synergy 2010
Conversions
Integrated
ThermoFuel/Electricity
Chemical
Production
Conversion
Technology
Energy
Conversion
Energy
Production*
Alcohols
(80% EtOH/
15% MeOH)
(80 Gallons/ton)
Energy
Use
Refining,
Blending &
Distribution
Diesel
(52 Gallons/ton)
Technology Evaluation
Evaluated for:
Energy
Environment
Economics
Socio-Politically Effectiveness
Electricity
(550 KWH/ton)
To Grid
Heat (Steam)
(375 KWH/ton)
Buildings,
Processes
*Energy production data calculated for dry wood @ 8,500 BTU/lb
Current Technology Testing and Validation Tasks
Task 1 – Evaluate the performance of a 325 dry ton/day (dtpd)
(dry wood at 8,500 BTU/lb) Thermo Conversions (TC)
thermochemical conversion system for the production of clean
syngas from biomass
Task 2a – Validate a pilot scale syngas to bioalcohol production
system developed by Pacific Renewable Fuels (PRF)
Task 2b – Validate a 125 dtpd demonstration/production scale
integrated syngas to bioalcohol an bioelectricity production
system
Task 3a – Develop specifications for the integration and
control systems for the 325 dtpd TC and 110 dtpd PRF systems
(Integrated Biofuels and Energy Production System - IBEP)
Task 3b – Validate the performance and specifications of the
IBEP
Current Technology Testing and Validation Tasks
Task 4 – Once this system has been validated, the 325 DTPD
TC system will be integrated with two additional 110 DTPD
(equivalent) syngas to bioalcohol and bioelectricity production
systems. This entire system will then be moved to a
commercial production site in the Northern Sacramento valley.
There is enough agricultural waste at several sites to provide
an average of 350 tons/day of rice straw; 50 tons/day of rice
hulls; and 50 tons/day of waste orchard wood/fruit processing
plant waste. This 450 ton/day (as received) plant will generate
enough energy to sustain its operation with a net co-generation
of 7.45 MW of electricity and 8,550,000 gallons of
bioalcohol/year.