SpraySyn Database

Nanoparticle Synthesis in Spray Flames

164

Authors Name:

Monika Nanjaiah

Affliations:

Institut für Verbrennung und Gasdynamik (IVG), Lehrstuhl Fluiddynamik, Universität Duisburg-Essen

Date of Dataset Creation:

Jan. 27, 2020

Publication Reference:

Monika N, Anita P B, Matthieu L, Peter F, Christof S, Sergey C, Andreas K, Irenaeus W, Igor R, Experimental and numerical investigation of iron-doped flames: FeO formation and impact on flame temperature, submitted to combustion symposium 2020.

Embargo Time:

Sept. 1, 2020

DataGeneration Type:

Simulation

Methods:

Detailed/Reduced iron pentacarbonyl reaction mechanism

Instruments:

Uni-due cluster

Software:

Python and Cantera

Models:

Genetic algorithm, 0D Reactor and 1D freely propagating flame

Device:

Generic

Configuration:

Validated for 3000 Pa, equivalence ratio=0.5-1.5

Precursor:

Iron pentacarbonyl (IPC)

Data Type:

Script

Variables:

IPC variation, temperature, FeO profile

Error_Estimation:

Within experimental uncertainties