Hydrogen production from landfill biogas: Profitability analysis of a real case study
Journal article, 2022

Hydrogen is not only considered as a cornerstone within renewable energy portfolio but it is also a key enabler for CO2 valorisation being a central resource for industrial decarbonization. This work evaluates the profitability of hydrogen production via combined biogas reforming and water–gas shift reaction, based on a real case scenario for landfill biogas plant in Seville (Spain). A techno-economic model was developed based on a process model and the discounted cash-flow method. A biogas flow of 700 m3/h (input given by the landfill biogas plant) was used as plant size and the analysis was carried out for two different cases: (1) use of already available energy sources at the industrial plant, and (2) solar energy generation to power the process. The economic outputs obtained showed that under the current circumstances, this hydrogen production route is not profitable. The main reason is the relatively low current hydrogen prices which comes from fossil fuels. A revenues analysis indicates that hydrogen from biogas selling prices between 2.9 and 5.7 €/kg would be needed to reach profitability, which are considerably higher than the current hydrogen cost (1.7 €/kg). A subsidy scheme is suggested to improve the competitiveness of this hydrogen production process in the short-medium term. A cost analysis is also performed, revealing that electricity prices and investment costs have a high impact on the total share (23–40% and 8–22%, respectively). Other potential costs reduction such as catalyst, labour and manteinance & overhead are also evaluated, showing that cutting-down production costs is mandatory to unlock the potential of hydrogen generation from biogas. Our work showcases the techno-economic challenge that green energy policies face in the path toward sustainable societies.

Hydrogen production

Waste valorization

Biogas reforming

Profitability analysis

Green energy production

Author

Fernando Vidal-Barrero

University of Seville

Francisco Baena-Moreno

University of Seville

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Christian Preciado-Cárdenas

University of Seville

A.L Villanueva Perales

University of Seville

T. R. Reina

University of Seville

University of Surrey

Fuel

0016-2361 (ISSN)

Vol. 324 124438

Subject Categories

Other Environmental Engineering

Bioenergy

Energy Systems

DOI

10.1016/j.fuel.2022.124438

More information

Latest update

6/1/2022 1