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| Creator | Title | Description | Subject | Date | ||
|---|---|---|---|---|---|---|
| 1 |
 | Ring, Terry Arthur; Eddings, Eric G.; Sarofim, Adel F. | Determination of soot refractive index as a function of height in an inverse diffusion flame | With the scope of combustion diagnostics increasing, it is becoming ever more important for some of the more basic physical properties of soot to be addressed. Soot refractive index values were obtained as a function of height in a benzene inverse diffusion flame (IDF). The IDF was chosen for ease i... | Inverse diffusion flame | 2007 |
| 2 |
 | Eddings, Eric G.; Sarofim, Adel F. | Mechanism reduction and generation using analysis of major fuel consumption pathways for n-heptane in premixed and diffusion flames | Reaction pathway analyses were conducted for three mechanisms (designated as the Pitsch, Utah, and Lawrence Livermore National Lab) for a normal heptane premixed flame (? = 1.9) and a normal heptane opposed diffusion flame, in order to identify the relative importance of the major fuel consumption p... | Pitsch mechanism; Utah mechanism; Lawrence Livermore National Lab mechanism; Mechanism reduction; Heptane premixed flame | 2007 |
| 3 |
| Eddings, Eric G.; Sarofim, Adel F. | Olefin chemistry in a premixed n-heptane flame | Three different n-heptane mechanisms were used to simulate a fuel-rich normal heptane premixed flame in order to identify major reaction pathways for olefin formation and consumption and areas of uncertainties of these reactions. Olefins are formed mainly via ?-scission and hydrogen abstraction, and... | Heptane mechanism; N-heptane; Olefin formation; Olefin consumption; Alkyl radicals | 2007 |
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