3 days MOT/BIOMOT-E
- Engineers and technical staff involved in motor fuel quality management in relation to engine technologies.
- To make people from the automotive or oil industry aware of the issues raised by the use of the new fuels planned for the near or further future: biofuels, gaseous fuels, synthetic fuels, alternative jet fuels.
- To understand the economical and environmental context of biofuels developments.
- To be able to describe the processes to obtain such fuels as well as their economic and environmental impact.
- To know the main characteristics of these fuels.
- To understand their impact on IC engines and turbine operation.
- To be able to adapt engines and vehicles adaptations when using these fuels.
Ways and means
- Full up-to-date training by a worldwide fuel expert and industry experts.
Fuels structure and main properties 0.5 day
- Groups of hydrocarbons, alcohols, ethers, fatty acid esters.
- Fuels required properties for engine operation
- Heat value, specific energy.
- Volatility: vapor pressure, distillation.
- Combustion: octane rating and cetane rating.
- Cold flow properties: cloud point, CFPP, pour point.
- Lubricating properties.
- Sulfur content.
- Stability, corrosion.
- Gasoline and Diesel fuel structures from oil bases. Specifications.
Synthetic fuels: GTL, BTL, CTL 0.25 day
- Processes to get such fuels.
- Economic and environmental impacts.
Biofuels 1 day
- Situation and stakes
- Biofuels policies in the world: Brazil, United States and Europe situations.
- Biofuels production chains, well-to-wheel ecobalance, available resources.
- Spark Ignited engine biofuels
- Production chains.
- Ethanol and ETBE characteristics.
- Potential and difficulties linked to the use of gasoline-alcohol mixtures: octane rating, latent heat of evaporation, water tolerance, volatility, corrosion, pollutant emissions, lubrication.
- Flex-fuel engines: difficulties linked to the use of ethanol high rated fuels, technical solutions.
- Second generation ethanol.
- Biofuels for Diesel engines
- Use of direct vegetable oils (DVO) on Diesel engines: principles and limits. Fatty acid esters characteristics and impacts on the engine operating: solubility, “sulfur free”, lubricating properties, emissions, washing power, dilution, cetane rating, cold engine behavior, heating value.
- Storage stability, oxidation stability.
- "Biohydrocarbons” (hydrotreated oils): production modes, characteristics.
- Biofuels for aeronautic turbine
- Certification, fit-for-purpose tests, drop-in fuel.
- Main certified (or in certification process) production ways: DVO hydrotreatment, synthetic biofuels, biological processes.
- Impact on logistics, aeroplanes and aeronautic turbines.
Gaseous fuels: GPL-C, NGV (Natural Gas Vehicle), DME, hydrogen 0.25 day
- Origins and resources of these fuels.
Other alternative fuels 0.25 day
- Synthesis alternative fuels: GTL, BTL, Methanol (production processes).
- Economical and environment impact.
Impact of new fuels on ic engines and turbines operation 1 day
- Impact of partial or full use of new fuels on performances, polluting emissions and on-board storage.
- Case study and adaptation
- Road transportation engines: passenger cars and trucks.
- Industrial and stationary engines.
- Marine engines.
- Stationary turbines.
- Aero turbines.
2016 course calendar
|May 23 - 25||Rueil||€1,890||Online||By email|