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Primeur weekly 2017-10-02

Special

2017 - Another year on the Road to Exascale: HPC applications towards exascale ...

Focus

CEA, ETP4HPC and European Commission working hard together to deliver commercial exascale by 2023 ...

Exascale supercomputing

Cartography of the cosmos ...

Quantum computing

A quantum computer to tackle fundamental science problems ...

Quantum communications bend to our needs ...

With new Microsoft breakthroughs, general purpose quantum computing moves closer to reality ...

Focus on Europe

SHAPE Sixth Call for Applications now open ...

EPCC to announce best use of ARCHER competition winners ...

Middleware

Bright Computing announces integration with IBM Power systems ...

US-based CryoEM company, SingleParticle.com, partners with Bright ...

Hardware

Cray takes aim at fast-growing HPC storage market with completion of strategic transaction of Seagate's ClusterStor storage business ...

Penguin Computing announces NVIDIA Tesla V100-based servers to drive Deep Learning and Artificial Intelligence ...

Penguin Computing announces Altus servers with AMD EPYC 7000 series high performance processors ...

Supermicro introduces broadest portfolio of GPU optimized systems for NVIDIA Tesla V100 GPUs ...

New type of supercomputer could be based on 'magic dust' combination of light and matter ...

Applications

Antonio Peña is the IEEE-CS TCHPC 2017 Award Winner for Excellence for Early Career Researchers in HPC ...

University of Texas at El Paso researchers use supercomputers to understand the fundamentals of artificial photosynthesis ...

Turbocharging engine design ...

The sublime challenge of jet noise ...

Mapping black hole collisions gives astronomers - and hitchhikers - a new guide ...

George Washington-led consortium and FDA release new specifications to advance genomic data analysis ...

Artificial intelligence for obtaining chemical fingerprints ...

IBM Research and UC San Diego collaborate to advance the use of Artificial Intelligence for Healthy Living ...

Dresden researchers have pioneered a brain-network bio-inspired algorithm to predict new therapeutic targets of approved drugs ...

The Cloud

IBM unveils a new high-powered analytics system for fast access to data science ...

HPE chooses Mellanox Spectrum to power StoreFabric M-series switches ...

Turbocharging engine design


Argonne's Sibendu Som explains how the VERIFI team - along with the Aramco Research Center, Detroit - reduced engine design time from months to weeks. Image by Argonne National Laboratory.
27 Sep 2017 Argonne - For scientists and engineers, the process of improving the performance of engines and fuels feels a bit like driving on a one-lane highway. They must often develop and test their designs and prototypes one at a time, which slows the pace of innovation. Computers can accelerate the process by simulating how fuels and engine designs affect performance and emissions. Yet most computers can handle only a handful of scenarios at once - too few to create a full picture of fuel performance during combustion.

Now researchers at the Department of Energy's (DOE) Argonne National Laboratory have moved the development process into the passing lane. For the first time, Argonne's scientists and engineers pinpointed engine designs for a given fuel using the Mira supercomputer at the heart of the Argonne Leadership Computing Facility (ALCF), a DOE Office of Science User Facility.

With Mira's supercomputing prowess, Argonne's Virtual Engine Research Institute and Fuels Initiative (VERIFI) team simulated over 2000 engine design combinations and "reduced design time from months to weeks", stated Sibendu Som, group leader and principal computational scientist at Argonne.

Argonne's simulations were conducted with design scenarios from the Aramco Research Center - Detroit, one of three U.S.-based research centers operated by Saudi Aramco's North American subsidiary, Aramco Services Company (ASC). One area of their research seeks to match engine combustion modes with improved fuel properties to create higher efficiency and lower emission transportation technologies.

"The simulations performed by Argonne found two optimized fuel-engine concepts that could improve fuel efficiency substantially", stated Yuanjiang Pei, a lab scientist who specializes in computational fluid dynamics at the Aramco Research Center - Detroit.

Aramco's Detroit programme includes a range of whole-system automotive research, which includes advancing spark ignition, compression ignition and gasoline compression ignition (GCI) engine technologies. Aramco is examining current market fuels as well as exploring the development of new fuel formulations.

"We are analyzing how well new fuel formulations combust compared to conventional fuels and if they can be optimized to work better", stated Sibendu Som.

By simulating how a highly volatile, low-soot fuel behaves in many engine designs, "We hope to retain the performance of diesel fuel with lower particulate matter and nitrogen oxide emissions", stated Roberto Torelli, an Argonne postdoctoral researcher on Sibendu Som's team.

Sibendu Som and colleagues simulated fuel-engine performance under four operating conditions and for six piston concepts, as well as various fuel injector designs and fuel injection strategies. They narrowed down the best-performing scenarios to two specific sets of piston and injector designs that are being evaluated by Aramco in its Detroit facility.

The research, explained in the paper "CFD-Guided Heavy Duty Mixing-Controlled Combustion System Optimization with a Gasoline-Like Fuel", is one of three publications stemming from Argonne's work with co-authors from Aramco's Detroit research center published by the Society of Automotive Engineers (SAE).

Argonne's other two related studies with Aramco further explore how new fuel formulations behave under various operating conditions. Sibendu Som's paper "Comparison of In-Nozzle Flow Characteristics of Naphtha and N-Dodecane Fuels" co-authored with Roberto Torelli, indicates, for example, that some fuels under investigation may cavitate or vaporize within the fuel injector before entering the combustion chamber.

A third study of simulations by Sibendu Som and Argonne postdoctoral researcher Pinaki Pal, identifies the conditions at which new fuel formulations can thrive under low temperature combustion, leading to reduced emissions and higher efficiency. This third study "is the first time we have simulated higher cetane gasoline behaviour at desirable low temperature combustion conditions with optimal engine designs in mind", stated Pinaki Pal.

These results, vital for in-depth fuel and engine design work, are detailed in the paper "Numerical Investigation of a Gasoline-Like Fuel in a Heavy-Duty Compression Ignition Engine Using Global Sensitivity Analysis" to be published in an upcoming print edition of the SAEInternational Journal of Fuels and Lubricants.

The three papers were presented at the 2017 SAE International World Congress in Detroit.

Source: Argonne National Laboratory

Back to Table of contents

Primeur weekly 2017-10-02

Special

2017 - Another year on the Road to Exascale: HPC applications towards exascale ...

Focus

CEA, ETP4HPC and European Commission working hard together to deliver commercial exascale by 2023 ...

Exascale supercomputing

Cartography of the cosmos ...

Quantum computing

A quantum computer to tackle fundamental science problems ...

Quantum communications bend to our needs ...

With new Microsoft breakthroughs, general purpose quantum computing moves closer to reality ...

Focus on Europe

SHAPE Sixth Call for Applications now open ...

EPCC to announce best use of ARCHER competition winners ...

Middleware

Bright Computing announces integration with IBM Power systems ...

US-based CryoEM company, SingleParticle.com, partners with Bright ...

Hardware

Cray takes aim at fast-growing HPC storage market with completion of strategic transaction of Seagate's ClusterStor storage business ...

Penguin Computing announces NVIDIA Tesla V100-based servers to drive Deep Learning and Artificial Intelligence ...

Penguin Computing announces Altus servers with AMD EPYC 7000 series high performance processors ...

Supermicro introduces broadest portfolio of GPU optimized systems for NVIDIA Tesla V100 GPUs ...

New type of supercomputer could be based on 'magic dust' combination of light and matter ...

Applications

Antonio Peña is the IEEE-CS TCHPC 2017 Award Winner for Excellence for Early Career Researchers in HPC ...

University of Texas at El Paso researchers use supercomputers to understand the fundamentals of artificial photosynthesis ...

Turbocharging engine design ...

The sublime challenge of jet noise ...

Mapping black hole collisions gives astronomers - and hitchhikers - a new guide ...

George Washington-led consortium and FDA release new specifications to advance genomic data analysis ...

Artificial intelligence for obtaining chemical fingerprints ...

IBM Research and UC San Diego collaborate to advance the use of Artificial Intelligence for Healthy Living ...

Dresden researchers have pioneered a brain-network bio-inspired algorithm to predict new therapeutic targets of approved drugs ...

The Cloud

IBM unveils a new high-powered analytics system for fast access to data science ...

HPE chooses Mellanox Spectrum to power StoreFabric M-series switches ...