Basic Research Needs for Clean and Efficient Combustion of 21 st Century Transportation Fuels A...
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Basic Research Needs for Clean and Efficient Combustion of 21st Century Transportation Fuels
A DOE/Office of Science BES Workshop
Andy McIlroy, Co-chairCombustion Research FacilitySandia National Laboratories
p. 2
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Transportation Combustion Challenges
Efficiency & cleanlinessdifficult to achieve together
Diesels are efficient, but difficult to make clean No throttling losses High compression ratios Continuum of rich to lean Soot and NOx often
anti-correlated
Spark ignited engines are ‘clean’, but less efficient Stoichiometric burning Little soot, 3-way catalyst
eliminate NOx Throttle losses Low compression ratios
1000 1400 1800 2200 2600 30000
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Temperature [K]Lo
cal e
quiv
alen
ce r
atio
Soot l
imit
Soot
NOX
Akihama et. al 2001 SAE2001-01-0655
Fue
l ric
hF
uel l
ean
DieselSpark
p. 3
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Motivation:Transportation Sector Key to Energy Use
Transportation accounts for ~1/3 of energy use
When electricity generation factored out, transportation dominates
Demand projected to increase
97% of transportation energy from petroleum
Relatively small number of technologies employed
Transportation sector energy use can impact national security and environmental impacts
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1950 1960 1970 1980 1990 2000 2010
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Commercial
Residential
Industrial
Transportation
b)
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2003 2010 2015 2020 2025 2030
OECDNon-OECD
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p. 4
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Fuel streams are rapidly evolving Heavy hydrocarbons
Oil sands Oil shale Coal
New renewable fuel sources Ethanol Biodiesel
New engine technologies Direct Injection (DI) Homogeneous Charge
Compression Ignition (HCCI) Low-temperature combustion
Motivation: Changing World of Fuels and Engines
p. 5
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Charge to Workshop
To explore basic research needs in the areas of gas-phase chemistry, combustion diagnostics and combustion simulation that will enable the use of transportation fuels derived from non-traditional sources in a manner that optimizes engine efficiency and minimizes pollutant formation. Non-traditional fuels are defined as those derived from carbon-
neutral, renewable resources, such as biodiesel or ethanol, and those derived from non-traditional fossil fuel reserves, such as heavy crude oil, tar sands, oil shale and coal.
The output of the workshop will seek to define a set of basic, primary research directions (PRDs) that would employ and expand the current broad expertise base in gas-phase chemistry and combustion research into the realm of non-traditional fuels.
Workshop participants expanded scope to include heterogeneous processes
p. 6
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Workshop Panels
Novel Combustion Fuel Utilization Crosscut Science
p. 7
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Organizing committee
Co-Chairs: Andy McIlroy, SNL Greg McRae, MIT
Panel Leads Novel Combustion
Dennis Siebers, SNL Volker Sick, U. Mich.
Fuel Utilization Phil Smith, U. Utah Charlie Westbrook, LLNL
Crosscut Science Craig Taatjes, SNL Arnaud Trouve, U. MD Al Wagner, ANL
•DOE/BES•Eric Rohlfing•Frank Tully •Dick Hilderbrandt
p. 8
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Participants
39% Lab
42% University
12% Government
7% Industry
Total of 95 participants
Plenary Speakers James Eberhardt, EERE Charlie Westbrook, LLNL Hukam Mongia, GE David Greene, ORNL
p. 9
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
ProcessFrom a panel lead - “If I’d known what I was getting into, I’d have said ‘NO’.”
Plenary talks EERE perspective (Eberhardt – EE/RE) Industry Perspective (Mongia – GE Turbines) Science Challenges (Westbrook- LLNL) Economic Effects (Greene - ORNL)
Panel breakouts
Panel report out
Meeting of core writing group
Final report preparation following workshop Draft report delivered 2/21/07 to BES
Report out at February July BESAC We are here}
p. 10
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Priority Research Directions Identified
1. Combustion Under Extreme Pressure
2. Understand And Exploit Surface Chemistry In Transportation Systems
3. Breakthrough Discovery Tools
4. Multiscale Modeling
5. Basic Research Needs for Smart Engines
6. Physical and Chemical Properties for Combustion of 21st Century Transportation Fuels
7. Automated Discovery Of Fuel Chemistry Kinetics
8. Spray Dynamics and Chemistry for New Fuels
p. 11
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Grand Challenge: Predictive Modeling of Combustion in a Evolving Fuel Environment
Predictive modeling is the key to combustion optimization in a non-linear parameter space
Challenges: 9 orders of magnitude in space and time Complex chemistry, varying with fuel evolution Work needed in:
Chemical mechanism development Turbulence-chemistry interaction Algorithm development Large dataset analysis
p. 12
Basic research needs for
Clean and Efficient Combustion of 21st Century Transportation FuelsBESAC ReportJuly 31, 2007
Highlighted Additional Challenges
New engines demand high pressure chemistry and physics Need to understand processes at up and beyond 100 atm Essentially no quantitative, species specific diagnostics Are binary collision models relevant at these pressures?
Novel fuel/engine cycle combinations require understanding interfacial and condensed phase phenomena Fuel jet evolution not understood, but critical Soot creation/destruction poorly understood
Additional heteroatoms of alternative fuels complicates Wall processes ignored in present models
Evolving Fuels increase chemical complexity Reaction sets run into 1000’s of reactions Mechanisms and rates are largely unknown for new fuels (or old) Combustion device models are limited by chemical complexity
Technology Maturation & DeploymentApplied Research
•Reaction chemistry of large molecules at high pressure
•Heterogeneous combustion and soot chemistry
•Turbulent reacting flows with a large range of chemical time scales
•Liquid fuel spray chemistry and dynamics
•Multi-scale modeling: from quantum to continuum
•High-fidelity computational approaches (DNS, LES)
•4-D diagnostics at high pressure and under multi-phase conditions
•Automatic generation & reduction of chemical kinetics models of 21st
Century Fuels•Soot formation, composition, morphology, oxidation and atmospheric evolution•High-fidelity CFD for complex and deformable engine geometries •Elucidating combustion dynamics for control strategies •Uncertainty quantification in multi-scale modeling•Development of novel diagnostics for molecular characterization at high pressure•Data and simulation framework built upon collaboratory and cyber-infrastructure tools•Modeling of turbulent sprays and turbulent multi-mode combustion
Discovery Research Use-inspired Basic Research
•High-fidelity CFD for device scale research: Virtual Engine Simulators (VES)
•Application of VES to engine design, optimization, and real-time control
•High-resolution optical diagnostics for device scale research
•Device scale research on the impact of alternative fuel properties on novel combustion and emission processes •Exploration of high pressure engine combustion
•Joint optimization of alternative fuel formulation and engine design
•Smart vehicle strategies and sensor development
Office of ScienceOffice of ScienceBESBES
Applied Energy OfficesApplied Energy OfficesEEREEERE
•New generation of vehicles with alternative fuels: achieving high efficiencies with emission compliance
•Enable realization of next-generation efficiency and emissions standards
•Smart vehicles with VES-based control systems
Combustion Science for Combustion Science for 2121st st Century Fuels and EnginesCentury Fuels and Engines