Energy and economic analysis of alternatives for the valorization of hydrogen rich stream produced in the aqueous phase reforming of pyrolysis bio-oil aqueous fraction

Abstract

Aqueous phase reforming has been explored for renewable H₂ production from waste biomass. Promising results have been reported for pyrolysis bio-oil aqueous fractions (AFB), but economical assessments are needed to determine process feasibility, which requires both energy consumption minimization and optimal H₂ valorization. This work compares different alternatives using process simulation and economic evaluation computational tools. Experimental results and a specific thermodynamic model are used to set mass balances. An adequate heat integration allows to reduce the process energy demand, covering the 100 % of the reactor duty. Optimal H₂ unit cost is achieved if part of the produced H₂ is valorized for energy self-covering and the rest is commercialized. Renewable H₂ net production of c.a. 3.3 kgH₂/m³ of treated AFB at a preliminary 1-2 €/kg unit cost is estimated, which can be considered as competitive with green H₂, even though a case of diluted AFB is considered.

Keywords: Aqueous-phase reforming; Bio-oil aqueous fraction; Hydrogen; Process alternatives; Techno-economic analysis.