Șen, UmutYücedağ, CengizBalcı, BüşraArıcı, ŞefikKoçar, GünnurŞat, BeyzaViegas, CatarinaGonçalves, MargaridaMiranda, IsabelPereira, Helena2026-02-112026-02-112025-12-062227-9717PURE: 152888302PURE UUID: a187eae7-9fb4-44b4-bf3f-9cbab75aa16cScopus: 105025936078WOS: 001646565600001ORCID: /0000-0002-0940-519X/work/205460159http://hdl.handle.net/10362/200303Publisher Copyright: © 2025 by the authors.For the first time, Eriolobus trilobatus bark from Turkey has been characterized in terms of its chemical, extractive, fuel, and ash characteristics using SEM–EDS, wet chemical analysis, phenolic analysis, FT-IR, TGA, XRF, XRD, BET surface area measurement, proximate analysis, and ash fusion temperature (AFT) determination. The results showed that the bark contains 13% ash, dominated by calcium oxalate, and 15% extractives, largely composed of polar phenolic compounds with moderate radical-scavenging potential. Thermal decomposition of bark proceeds in four distinct stages, associated with the sequential degradation of extractives/hemicelluloses, cellulose, lignin/suberin, and inorganic fractions. The higher calorific value of 14.9 MJ/kg indicates moderate fuel quality compared with conventional woody biomass. Ash is mesoporous with a CaO-rich structure highly suitable for catalytic applications in biodiesel production and biomass gasification. Ash fusion analysis revealed a high flow temperature (1452 °C), indicating a very low slagging risk during thermochemical conversion. Overall, E. trilobatus bark is a promising material for value-added biorefinery pathways, enabling processes for the production of biochars, CaO-based catalysts, phenolic extracts, and sustainable energy. The valorization of E. trilobatus bark not only enhances the economic potential of forestry residues but also provides environmental co-benefits through carbon soil amendment and landscape applications.161777521engAFTBarkBETBiodieselCaOGasificationHCVTGAXRDXRFBioengineeringChemical Engineering (miscellaneous)Process Chemistry and Technologyjournal article10.3390/pr13123946https://www.scopus.com/pages/publications/105025936078https://www.webofscience.com/wos/woscc/full-record/WOS:001646565600001