The actual amount of evaporated water from the high-flow reactor was 37 60% more than from the low-flow reactor in trials 1 and 2. The energy generated from degrading 1 g of VS of the poultry manure and wood shavings mixture was 16.83 19.7 kJ/g VS.
The high-flow reactors showed more VS reduction, generating 22 29% more energy than low-flow reactors.
The heat loss via forced convection was 52 54% of the total energy produced in the high-flow reactors, but just 17 21% in the low-flow reactors, where natural convection appeared to also play a significant role.
The conductive heat loss from the low-flow reactors was greater than from the high-flow reactors, ranging from 44 to 53% in trials 1 and 2. The radiant energy loss was higher in the low-flow reactors, but in all cases was only 5% or less of the total energy loss.
Quantitative data is obtained in the DLR high temperature flow reactor setup with coupled molecular beam mass spectrometry (MBMS) detection.
The combustion chemistry of tertiary-butanol is studied experimentally in a high pressure flow reactor and in counterflow diffusion flames.
The reaction kinetics of three n-alkanes: hexane, nonane, and dodecane are investigated both experimentally and numerically through speciation data obtained in a high temperature flow reactor.
Moreover, the model was also validated against the experimental data on n-decane and JP-8 combustion, including species profiles in low temperature jet-stirred reactor oxidation and high temperature flow reactor pyrolysis as well as ignition delay times.
Hendriksen, B. L. M. & Frenken, J. W. M. CO oxidation on Pt(110): Scanning tunneling microscopy inside a high-pressure flow reactor.
A commercial CoMo/Al2O3 catalyst was labeled with the radioisotope 35S in hydrodesulfurization (HDS) of 35S-labeled dibenzothiophene (35S-DBT) in a high-pressure flow reactor at 50 kg/cm2.
The present work comprises an experimental and modeling study of vitiated ethane oxidation in a high-pressure flow reactor, with pressures of 1 6 bar, O2 mole fractions of 3.5 7.0%, temperatures of 1075 1100 K and 15 18 mole.% H2O.
