Accepted Article Kinetics and modelling of furfural oxidation with hydrogen peroxide over a fibrous heterogeneous catalyst: Effect of reaction parameters on yields of succinic acid Farhan Saleem, [a] Pia Müller, [a] Kari Eränen, [a] Johan Warnå, [a] Dmitry Yu. Murzin, [a, * ] Tapio Salmi, [a] Åbo Akademi University, Faculty of Natural Sciences and Engineering, Process Chemistry Centre, Laboratory of Industrial Chemistry and Reaction Engineering, FI-20500 Åbo/Turku, Finland *Corresponding author. E-mail address: dmurzin@abo.fi (D.Yu. Murzin) Abstract Background Succinic acid is an important intermediate compound with high commercial significance in chemical industry. It can be obtained from renewable resources such as furfural. This article describes the kinetic study of furfural oxidation with hydrogen peroxide over a fibrous polymer-supported sulphonic acid catalyst (Smopex-101). The influence of reaction temperature, initial concentration of hydrogen peroxide and furfural has been investigated in detail. Reaction kinetics has been studied both in batch and semi- batch modes. Self-decomposition of hydrogen peroxide and loss of carbon in the form of carbon dioxide has been thoroughly examined. Parameter estimation has been performed and comparison was made between catalytic and non-catalytic reactions. Moreover, the catalyst stabilities has been discussed. Results The results indicate that the reaction orders in hydrogen peroxide decomposition are different in catalytic and non-catalytic reactions. Moreover, furfural presence in the reaction mixture, its interactions with the catalyst and involvement in other reactions significantly suppressed the side reactions, improving hydrogen peroxide utilization. The desired product (succinic acid) has been obtained in good yields (80%) when furfural was added in a semi-batch mode. This article is protected by copyright. All rights reserved. This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as doi: 10.1002/jctb.5248