Comparative evaluation of biomass and waste gasification in fixed and fluidized beds: Influence of operating conditions on syngas quality and energy viability
Luís Carmo-Calado, Paulo Brito, Manuel Jesús Hermoso-Orzáez, Julio Terrados-Cepeda
Abstract
This study evaluates the gasification of pine, olive pomace (OP), and refuse-derived fuel (RDF) in bubbling fluidized bed and fixed-bed gasifiers under varying conditions. Experiments were conducted at 700–800 °C with equivalence ratios (ER) of 0.18–0.34. For pine, H 2 reached 13.75 % at 800 °C, with an LHV of 5.71 MJ/Nm 3 and CGE decreasing from 68.18 % (700 °C) to 50.11 % (800 °C). OP showed higher CGE (65.09 % at 700 °C) but faced persistent tar challenges, with tar content exceeding 9 g/Nm 3 even at 800 °C. RDF exhibited the highest tar production (28–30 g/Nm 3 ) and lowest CGE (28.53 % at 800 °C), attributed to its heterogeneous composition and high ash content. Pine achieved the highest syngas flow rate (154.6 Nm 3 /h at 800 °C), compared to RDF (136.1 Nm 3 /h). These findings underscore the impact of feedstock properties and operating parameters on gasification performance, emphasizing the need for tailored strategies to optimize syngas quality and reduce by-products like tar. • This study explores the gasification of pine, olive pomace (OP), and refuse-derived fuel (RDF) in bubbling fluidized bed and fixed-bed gasifiers to enhance hydrogen production in syngas. • Higher temperatures increased H 2 and CO concentrations while reducing hydrocarbons. • Feedstock properties and operating parameters significantly influenced gasification outcomes, enabling optimized syngas quality and reduced tar byproducts. • The findings provide decisive insights into advancing sustainable waste-to-energy technologies.