Chemical looping combustion (CLC) is an efficient combustion technology with inherent separation of CO2. A metal oxide … is used to transport oxygen from air to the fuel, thus avoiding direct contact between fuel and air. The CLC process … imposes a very low energy penalty and low CO2 capture costs. The largest CLC pilot plant worldwide with a nominal power of 1 …

commonly referred as acid gas. Chemical Looping Combustion (CLC) technology has the potential to exploit the combustible … storage is obtained. The resistance of oxygen carriers to sulfur becomes crucial when an acid gas is subjected to a CLC … concentrations up to 20vol.% has been carried out in a 500 Wth CLC unit with two oxygen carriers based on Cu (Cu14γAl) and Fe (Fe20 …

air reactor. In the experiments Australian ilmenite with a particle size in the range of 100–400μm was used as the oxygen …

matrix nanocomposite reinforced with Ilmenite (FeTiO3). For systematic understanding or effect of processing parameters on …

In this work, in-situ application of natural occurring ilmenite (FeTiO3) for upgrading the producer gas from a pilot … analyzed. Without using ilmenite, the producer gas average composition (volumetric basis, dry gas) was 15.2% CO, 7.6% H2, 3 … attained. Using ilmenite as catalyst, the producer gas average composition (volumetric basis, dry gas) was 13.9% CO, 11.7% H2 …