A novel high-throughput platform for siRNA transfection of primary mammalian cells

“…[78] Due to the complex nature of iron oxide pellet reduction, the following assumptions were required [77] : The pellets are isothermal and spherical with uniform porosity and consist of dense fine grains with a constant radius; the reduction of grains is reversible, proceeds topochemically, and is controlled by chemical reaction; no crack formation occurs during the reduction; pressure is uniform inside and around the pellets; reactions proceed independently and without interaction between the gaseous species; and the reduction of wüstite is slower than the reduction of other oxides. Figure 17 shows the comparison by Towhidi and Szekely [79] between modeling and experimental results for the reduction of hematite pellets using hydrogen as the reducing agent at 900 C. The model, developed by Valipour et al [77] can predict the experimental results quite well. The model, which neglects the gas film resistance developed by Tien and Turkdogan, [80] deviated from the experimental results drastically due to simplifying assumptions.…”

Reduction of Iron Oxides with Hydrogen—A Review

“…[78] Due to the complex nature of iron oxide pellet reduction, the following assumptions were required [77] : The pellets are isothermal and spherical with uniform porosity and consist of dense fine grains with a constant radius; the reduction of grains is reversible, proceeds topochemically, and is controlled by chemical reaction; no crack formation occurs during the reduction; pressure is uniform inside and around the pellets; reactions proceed independently and without interaction between the gaseous species; and the reduction of wüstite is slower than the reduction of other oxides. Figure 17 shows the comparison by Towhidi and Szekely [79] between modeling and experimental results for the reduction of hematite pellets using hydrogen as the reducing agent at 900 C. The model, developed by Valipour et al [77] can predict the experimental results quite well. The model, which neglects the gas film resistance developed by Tien and Turkdogan, [80] deviated from the experimental results drastically due to simplifying assumptions.…”

Reduction of Iron Oxides with Hydrogen—A Review