Optimize hydrogen production from chicken manure gasification in supercritical water by experimental and kinetics study

In this work, H₂ production from supercritical water gasification (SCWG) of chicken manure in a high heating rate batch reactor under different temperatures (500–620 °C) and residence times (1–12 min) was studied, and a quantitative kinetic model was employed to study the reaction mechanism and optimize the H₂ production. The H₂ yield, hydrogen gasification efficiency (HE) and carbon gasification efficiency (CE) were promoted with the growth of temperature and residence time. The maximum H₂ yield, HE and CE reached 22.47 mol/kg, 174.53% and 81.34% at 620 °C and 12 min, respectively. The results of kinetic model indicated that higher temperature accelerated the reaction rate and more intermediates were converted into gas products. H₂ was mainly produced by the steam reforming reaction and the generation rate of each gas decreased to be negligible after 10 min. High temperature from nearly 580 °C was preferred to accelerate water gas shift reaction (WGSR) to promote H₂ production in SCWG of chicken manure. Hydrolysis reaction of chicken manure has a very important effect on H₂ production.