Search Results - "Herzler, J."

Shock-tube study of the ignition of methane/ethane/hydrogen mixtures with hydrogen contents from 0% to 100% at different pressures by Herzler, J., Naumann, C.

“…The ignition delay times of diluted hydrogen/reference gas (92% methane, 8% ethane)/O2/Ar mixtures with hydrogen contents of 0%, 40%, 80% and 100% were…”
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Shock-tube study of the ignition and product formation of fuel-rich CH4/air and CH4/additive/air mixtures at high pressure by Herzler, J., Sakai, Y., Fikri, M., Schulz, C.

“…Higher-value chemicals can be produced from methane with small exergy losses by partial oxidation if the chemical conversion proceeds in an internal combustion…”
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Shock-tube study of methane pyrolysis in the context of energy-storage processes by Nativel, D., Shu, B., Herzler, J., Fikri, M., Schulz, C.

“…The thermal decomposition of methane (10  mol% in inert gases) was investigated behind reflected shock waves. Product spectra were measured via GC/MS after…”
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An experimental and modeling study on the reactivity of extremely fuel-rich methane/dimethyl ether mixtures by Porras, S., Kaczmarek, D., Herzler, J., Drost, S., Werler, M., Kasper, T., Fikri, M., Schießl, R., Atakan, B., Schulz, C., Maas, U.

“…Chemical reactions in stoichiometric to fuel-rich methane/dimethyl ether/air mixtures (fuel air equivalence ratio ϕ = 1–20) were investigated by experiment and…”
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High‐Temperature Rate Constants for H + Tetramethylsilane and H + Silane and Implications about Structure–Activity Relationships for Silanes by Peukert, S., Herzler, J., Fikri, M., Schulz, C.

“…ABSTRACT The shock‐tube technique has been used to investigate the reactions H + SiH4 → H2 + SiH3 (R1) and H + Si(CH3)4 → Si(CH3)3CH2 + H2 (R2) behind…”
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The influence of selected aromatic fluorescence tracers on the combustion kinetics of iso-octane by Sommerer, J., Fikri, M., Herzler, J., Maas, U., Schießl, R., Schulz, C.

“…The influence of four single-ring aromatic compounds on the ignition process of iso-octane is investigated by shock-tube experiments and numerical simulations…”
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Plug-flow reactor and shock-tube study of the oxidation of very fuel-rich natural gas/DME/O2 mixtures by Kaczmarek, D., Herzler, J., Porras, S., Shaqiri, S., Fikri, M., Schulz, C., Atakan, B., Maas, U., Kasper, T.

“…A polygeneration process with the ability to provide work, heat, and useful chemicals according to the specific demand is a promising alternative to…”
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High-temperature gas-phase kinetics of the thermal decomposition of tetramethoxysilane by Sela, P., Peukert, S., Herzler, J., Sakai, Y., Fikri, M., Schulz, C.

“…The decomposition of tetramethoxysilane (Si(OCH3)4, TMOS) was studied in shock-tube experiments in the 1131–1610 K temperature range at pressures ranging from…”
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Shock-tube study of the autoignition of n-heptane/toluene/air mixtures at intermediate temperatures and high pressures by Herzler, J., Fikri, M., Hitzbleck, K., Starke, R., Schulz, C., Roth, P., Kalghatgi, G.T.

“…The ignition delay times of mixtures containing 35% n-heptane and 65% toluene by liquid volume at room temperature (i.e., 28% n-heptane/72% toluene by mole…”
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Autoignition of gasoline surrogates mixtures at intermediate temperatures and high pressures by Fikri, M., Herzler, J., Starke, R., Schulz, C., Roth, P., Kalghatgi, G.T.

“…Ignition times were determined in high-pressure shock-tube experiments for various stoichiometric mixtures of two multicomponent model fuels in air for the…”
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Shock tube study of the ignition of lean n-heptane/air mixtures at intermediate temperatures and high pressures by Herzler, J., Jerig, L., Roth, P.

“…Ignition delay times of lean ( Φ = 0.1–0.4) heptane/air mixtures were measured in the temperature range 720 K ⩽ T ⩽ 1100 K at pressures of about 50 bar to…”
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SHOCK-TUBE STUDY OF THE IGNITION OF PROPANE AT INTERMEDIATE TEMPERATURES AND HIGH PRESSURES by HERZLER, J., JERIG, L., ROTH, P.

“…The ignition delay times of lean (Φ = 0.5) propane-air mixtures were measured in the temperature range 900 K ≤T ≤ 1300 K at pressures of 10 and 30 bar,…”
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High-temperature decomposition of TiCl4 based on Cl-concentration measurements by Herzler, J., Roth, P.

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Shock Tube Study of the Influence of NO x on the Ignition Delay Times of Natural Gas at High Pressure by Herzler, J., Naumann, C.

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Shock Tube Study of the Influence of NOx on the Ignition Delay Times of Natural Gas at High Pressure by Herzler, J., Naumann, C.

“…The ignition delay times of diluted reference gas/O 2 /NO 2 /Ar mixtures (Φ = 0.25, 0.5, and 1.0, dilution 1:2 and 1:5, [NO 2 ] = 20-250 ppm) were determined…”
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Oxidation of Fe atoms by O 2 based on Fe- and O-concentration measurements by Giesen, A., Woiki, D., Herzler, J., Roth, P.

“…The reaction of Fe atoms with O 2 was studied over the temperature range of 950–2500 K at pressures between 0.3 and 1 bar behind incident shock waves. Atomic…”
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Single-pulse shock-tube study on the pyrolysis of small esters (ethyl and propyl propanoate, isopropyl acetate) and methyl isopropyl carbonate by Herzler, J., Mujaddadi, S.A., Fikri, M., Schulz, C., Peukert, S.

“…Single-pulse shock-tube experiments were used to study the thermal decomposition of selected oxygenated hydrocarbons: Ethyl propanoate (C2H5OC(O)C2H5; EP),…”
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Shock-tube study on the influence of oxygenated co-reactants on ethylene decomposition under pyrolytic conditions by Nativel, D., Peukert, S., Herzler, J., Drakon, A., Korshunova, M., Mikheyeva, E., Eremin, A., Fikri, M., Schulz, C.

“…The influence of various oxygenated co-reactants on soot formation was addressed by studying the pyrolysis of gas mixtures using ethylene as a base fuel in the…”
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Shock Tube Study of the Reaction of H Atoms with TiCl4 by Herzler, J, Roth, P

“…The reaction of H atoms with TiCl4 was studied behind reflected shock waves at temperatures between 1190 and 1500 K and pressures around 1.5 bar by applying…”
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Shock Tube Study of the Influence of NO^sub x^ on the Ignition Delay Times of Natural Gas at High Pressure by Herzler, J, Naumann, C

“…The ignition delay times of diluted reference gas/O2/NO2/Ar mixtures (... = 0.25, 0.5, and 1.0, dilution 1:2 and 1:5, [NO2] = 20-250 ppm) were determined in a…”
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