Transition to low carbon societies requires advanced catalysis and reaction engineering to
pursue green routes for fuels and chemicals production as well as CO 2 conversion. This …

Recently, methanol has gained increasing attention thanks to the variety of feedstocks
suitable for its production and its low environmental impact granting the molecule a key role …

Simulation of the steam methane reformer serves as a launching pad to investigate the
optimal amount of hydrogen production. In this study, a 3D-CFD simulation is implemented …

Natural gas is an important precursor to produce synthesis gas through the steam reforming
process. This work aims to map the optimal operating conditions of a steam methane …

The combined steam/dry reforming (S/DR) technology was used to produce syngas from
clean biogas. In the reaction conditions proposed, the catalytic bed can produce, without …

The catalyst particles are widely used in steam methane reforming. The main mass transport
mechanism inside the catalyst particles is diffusion. Several diffusion mechanisms are used …

Background One of the most important processes of industrial hydrogen production is steam
methane reforming (SMR). However, the biggest drawback of steam reformer processes is …

In RED II, the overall EU target for renewable energy sources consumption by 2030 has
been raised to 32%. Biogas is an important contributor to the future of bioenergy and its …

Steam methane reforming (SMR) is a widely adopted method for H 2 production due to its
advantages in the maturity of technology and economic feasibility. Since the optimization of …

Catalyzed chemical reactions inside tubular reactors play a key role in steam methane
reforming process, as they define the temperature and composition profiles of the reformer …