A reduced kinetic mechanism for methanol combustion at spark-ignition (SI) engine conditions is presented. The mechanism consists of 18 species and 55 irreversible reactions, small enough to be suitable for large eddy simulations (LES). The mechanism was reduced and optimized using the comprehensive mechanism (AramcoMech 2.0) as a starting point, to maintain performance at stoichiometric conditions for the pressure (10-50 bar) and temperature ranges relevant for SI-engine conditions. The mechanism was validated against experimental data for ignition delay at 1050-1650 K, flow reactor at 783 K and jet-stirred reactors at 800-1150 K, and simulated validation targets for laminar burning velocity under conditions where no experimental data are ...
Alcohol fuels are expected to become an economic/strategic alternative to oil over the next decade a...
Includes bibliographical references.The maximum efficiency of conventional gasoline engines is large...
Detailed chemistry represents a fundamental pre-requisite for a realistic simulation of combustion p...
A reduced kinetic mechanism for methanol combustion at spark-ignition (SI) engine conditions is pres...
A multipurpose reduced chemical-kinetic mechanism for methanol combustion comprising 8 overall react...
Methanol and ethanol have been investigated as very high octane fuels for knock control/avoidance in...
The combustion process in a homogeneous charge compression ignition (HCCI) engine is mainly governed...
New multipurpose skeletal and reduced chemical-kinetic mechanisms for ethanol combustion are develop...
Using light alcohols in spark-ignition engines can improve energy security, engine performance and p...
The global environment suffers from utilizing fossil fuels to powering internal combustion engines (...
Seven skeletal reaction mechanisms are presented to highlight key chemistry for mechanism reduction ...
To speed up the development of the next-generation combustion engines with renewable fuels, the impo...
Combustion process are used to improve modern society, but it comes with problems, like global warmi...
RESEARCH OBJECTIVE - The use of methanol and ethanol in spark-ignition engines forms an interesting ...
The need for sustainable energy has incentivized the use of alternative fuels such as light alcohols...
Alcohol fuels are expected to become an economic/strategic alternative to oil over the next decade a...
Includes bibliographical references.The maximum efficiency of conventional gasoline engines is large...
Detailed chemistry represents a fundamental pre-requisite for a realistic simulation of combustion p...
A reduced kinetic mechanism for methanol combustion at spark-ignition (SI) engine conditions is pres...
A multipurpose reduced chemical-kinetic mechanism for methanol combustion comprising 8 overall react...
Methanol and ethanol have been investigated as very high octane fuels for knock control/avoidance in...
The combustion process in a homogeneous charge compression ignition (HCCI) engine is mainly governed...
New multipurpose skeletal and reduced chemical-kinetic mechanisms for ethanol combustion are develop...
Using light alcohols in spark-ignition engines can improve energy security, engine performance and p...
The global environment suffers from utilizing fossil fuels to powering internal combustion engines (...
Seven skeletal reaction mechanisms are presented to highlight key chemistry for mechanism reduction ...
To speed up the development of the next-generation combustion engines with renewable fuels, the impo...
Combustion process are used to improve modern society, but it comes with problems, like global warmi...
RESEARCH OBJECTIVE - The use of methanol and ethanol in spark-ignition engines forms an interesting ...
The need for sustainable energy has incentivized the use of alternative fuels such as light alcohols...
Alcohol fuels are expected to become an economic/strategic alternative to oil over the next decade a...
Includes bibliographical references.The maximum efficiency of conventional gasoline engines is large...
Detailed chemistry represents a fundamental pre-requisite for a realistic simulation of combustion p...