Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit

Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit

This paper discusses the techno-economic assessment of hydrogen production from biogas with conventional systems. The work is part of the European project BIONICO, whose purpose is to develop and test a membrane reactor (MR) for hydrogen production from biogas. Within the BIONICO project, steam refo...

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Main Authors: Gioele Di Marcoberardino, Dario Vitali, Francesco Spinelli, Marco Binotti, Giampaolo Manzolini
Format: Article
Language:English
Published: MDPI AG 2018-02-01
Series:Processes
Subjects:
biogas
hydrogen production
biogas reforming
economic analysis
hydrogen separation
pressure swing adsorption
Online Access:http://www.mdpi.com/2227-9717/6/3/19
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spelling doaj-d9d5cc105b3f4a83ad945809fb0f481f2020-11-25T02:45:50ZengMDPI AGProcesses2227-97172018-02-01631910.3390/pr6030019pr6030019Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption UnitGioele Di Marcoberardino0Dario Vitali1Francesco Spinelli2Marco Binotti3Giampaolo Manzolini4Deparment of Energy, Politecnico di Milano, via Lambruschini 4, 20156 Milano, ItalyDeparment of Energy, Politecnico di Milano, via Lambruschini 4, 20156 Milano, ItalyDeparment of Energy, Politecnico di Milano, via Lambruschini 4, 20156 Milano, ItalyDeparment of Energy, Politecnico di Milano, via Lambruschini 4, 20156 Milano, ItalyDeparment of Energy, Politecnico di Milano, via Lambruschini 4, 20156 Milano, ItalyThis paper discusses the techno-economic assessment of hydrogen production from biogas with conventional systems. The work is part of the European project BIONICO, whose purpose is to develop and test a membrane reactor (MR) for hydrogen production from biogas. Within the BIONICO project, steam reforming (SR) and autothermal reforming (ATR), have been identified as well-known technologies for hydrogen production from biogas. Two biogases were examined: one produced by landfill and the other one by anaerobic digester. The purification unit required in the conventional plants has been studied and modeled in detail, using Aspen Adsorption. A pressure swing adsorption system (PSA) with two and four beds and a vacuum PSA (VPSA) made of four beds are compared. VPSA operates at sub-atmospheric pressure, thus increasing the recovery: results of the simulations show that the performances strongly depend on the design choices and on the gas feeding the purification unit. The best purity and recovery values were obtained with the VPSA system, which achieves a recovery between 50% and 60% at a vacuum pressure of 0.1 bar and a hydrogen purity of 99.999%. The SR and ATR plants were designed in Aspen Plus, integrating the studied VPSA model, and analyzing the behavior of the systems at the variation of the pressure and the type of input biogas. The SR system achieves a maximum efficiency, calculated on the LHV, of 52% at 12 bar, while the ATR of 28% at 18 bar. The economic analysis determined a hydrogen production cost of around 5 €/kg of hydrogen for the SR case.http://www.mdpi.com/2227-9717/6/3/19biogashydrogen productionbiogas reformingeconomic analysishydrogen separationpressure swing adsorption
collection DOAJ
language English
format Article
sources DOAJ
author Gioele Di Marcoberardino
Dario Vitali
Francesco Spinelli
Marco Binotti
Giampaolo Manzolini
spellingShingle Gioele Di Marcoberardino
Dario Vitali
Francesco Spinelli
Marco Binotti
Giampaolo Manzolini
Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
Processes
biogas
hydrogen production
biogas reforming
economic analysis
hydrogen separation
pressure swing adsorption
author_facet Gioele Di Marcoberardino
Dario Vitali
Francesco Spinelli
Marco Binotti
Giampaolo Manzolini
author_sort Gioele Di Marcoberardino
title Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
title_short Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
title_full Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
title_fullStr Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
title_full_unstemmed Green Hydrogen Production from Raw Biogas: A Techno-Economic Investigation of Conventional Processes Using Pressure Swing Adsorption Unit
title_sort green hydrogen production from raw biogas: a techno-economic investigation of conventional processes using pressure swing adsorption unit
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2018-02-01
description This paper discusses the techno-economic assessment of hydrogen production from biogas with conventional systems. The work is part of the European project BIONICO, whose purpose is to develop and test a membrane reactor (MR) for hydrogen production from biogas. Within the BIONICO project, steam reforming (SR) and autothermal reforming (ATR), have been identified as well-known technologies for hydrogen production from biogas. Two biogases were examined: one produced by landfill and the other one by anaerobic digester. The purification unit required in the conventional plants has been studied and modeled in detail, using Aspen Adsorption. A pressure swing adsorption system (PSA) with two and four beds and a vacuum PSA (VPSA) made of four beds are compared. VPSA operates at sub-atmospheric pressure, thus increasing the recovery: results of the simulations show that the performances strongly depend on the design choices and on the gas feeding the purification unit. The best purity and recovery values were obtained with the VPSA system, which achieves a recovery between 50% and 60% at a vacuum pressure of 0.1 bar and a hydrogen purity of 99.999%. The SR and ATR plants were designed in Aspen Plus, integrating the studied VPSA model, and analyzing the behavior of the systems at the variation of the pressure and the type of input biogas. The SR system achieves a maximum efficiency, calculated on the LHV, of 52% at 12 bar, while the ATR of 28% at 18 bar. The economic analysis determined a hydrogen production cost of around 5 €/kg of hydrogen for the SR case.
topic biogas
hydrogen production
biogas reforming
economic analysis
hydrogen separation
pressure swing adsorption
url http://www.mdpi.com/2227-9717/6/3/19
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