TY - BOOK ID - 134199105 TI - Numerical Investigations of Combustion AU - Afonso, Alexandre M. AU - Resende, Pedro AU - Ayoobi, Mohsen PY - 2022 PB - Basel MDPI Books DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - gas fire suppression KW - inert gas agents KW - agent quantity KW - discharge rate KW - ventilation rate KW - premixed combustion KW - obstructed channels KW - flame acceleration KW - thermal expansion KW - computational simulations KW - machine learning KW - soot concentration KW - soot emissions KW - artificial neural network KW - estimator KW - computational fluid dynamics KW - combustion KW - biogas KW - hydrogen KW - laminar flame speed KW - correlation KW - jet-and-recirculation stabilized combustion KW - OH* measurements KW - numerical CFD analysis KW - RANS modeling KW - detailed chemistry schemes KW - heat-loss modeling KW - low-calorific combustion KW - syngas fuel KW - micro-combustion KW - syngas KW - repetitive extinction and ignition (FREI) KW - numerical simulations KW - flame instabilities KW - flame propagation KW - closed spherical bomb KW - incipient stage KW - methane KW - N2O KW - flash boiling KW - gasoline direct injection KW - Spray G KW - discrete droplet method KW - fuel surrogates KW - combustion process KW - reactivity model KW - synthetic jet fuels KW - turbine engines KW - two-stroke engine KW - multiple injection KW - emission KW - numerical simulation KW - computational fluid dynamic (CFD) KW - natural gas KW - laminar burning velocity (LBV) KW - closed vessel combustion KW - numerical study KW - microcombustion KW - complex geometry KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:134199105 AB - This Special Issue will highlight the latest advances in numerical modeling of combustion-related applications. With the recent advancements in computational capacities and the widespread use of simulations in engineering problems, numerical methods are becoming increasingly important to improve existing models and develop new models that can help researchers to better understand the underlying mechanisms of combustion, their interaction with other physical phenomena, such as turbulence, and their impacts on the performance of related applications at both fundamental and practical levels. ER -