Power-to-Syngas: An Enabling Technology for the Transition of the Energy System?

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2016 Oct 8

PMID 27714905

Citations 20

Authors

Severin R Foit

Izaak C Vinke

Lambertus G J de Haart

Rudiger-A Eichel

Affiliations

Soon will be listed here.

Abstract

Power-to-X concepts promise a reduction of greenhouse gas emissions simultaneously guaranteeing a safe energy supply even at high share of renewable power generation, thus becoming a cornerstone of a sustainable energy system. Power-to-syngas, that is, the electrochemical conversion of steam and carbon dioxide with the use of renewably generated electricity to syngas for the production of synfuels and high-value chemicals, offers an efficient technology to couple different energy-intense sectors, such as "traffic and transportation" and "chemical industry". Syngas produced by co-electrolysis can thus be regarded as a key-enabling step for a transition of the energy system, which offers additionally features of CO -valorization and closed carbon cycles. Here, we discuss advantages and current limitations of low- and high-temperature co-electrolysis. Advances in both fundamental understanding of the basic reaction schemes and stable high-performance materials are essential to further promote co-electrolysis.

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