Fraunhofer Lighthouse Project "Electricity as a Raw Material"

Electrochemical processes for fluctuating energy and raw materials systems

The energy transition in Germany is in full swing. Renewable energy sources contributed 24 percent of the 630 TWh of electrical power generated in 2013. Their proportion is estimated to climb to 80 percent by 2050, while at the same time greenhouse gas emissions are expected to fall to 80 percent of the comparative 1990 figures. The associated expansion of wind power and photovoltaics will result in a considerably increasing rise of power available from fluctuating energy sources. As an industrialized country, Germany is confronting the pressing question of whether and how the expected excess in the electrical grid can be coupled cost-effectively to energy-intensive manufacturing operations.

The goal: power to chemicals

The Fraunhofer-Gesellschaft views the energy transition and the cost-effective excess electrical power it will increasingly generate as an opportunity for electricity-intensive manufacturing. The goal of the Fraunhofer Lighthouse Project “Electricity as a Raw Material” is to develop new electrochemical processes in order to utilize excess electrical power for manufacturing chemicals. For subsequent pilot production and system integration, it means the processes must be modularized and distributed, and electrochemical production at existing Fraunhofer Group facilities made more adaptive. New technologies and scientific expertise are being developed for future “Power-to-Chemicals" industrial processes that will subsequently be marketed as part of long-established value-added chains. This should lay the scientific and technological foundations for manufacturing products using an increasingly CO2-free mix of electrical power sources.

Synthesis pathways – hydrogen peroxide or CO2 conversion

The technological focus of the Fraunhofer Lighthouse Project is to develop new electrochemical processes, concentrating on two synthesis pathways.

  • One pathway is oriented toward electrochemical manufacture of hydrogen peroxide (H2O2) from oxygen and hydrogen, with prototype demonstrations of the process in a distributed facility. H2O2 is employed as an environmentally friendly oxidant for diverse applications in the chemical, paper, and textile industries. Responsibility for this sub-project lies with the Fraunhofer Institute for Chemical Technology ICT.
  • The second pathway’s goal is to electrochemically or electrocatalytically convert CO2 for manufacturing fundamental hydrocarbon compounds like alkenes and alcohols, demonstrating the technology at the pilot-plant scale. Development of a demonstration setup for one-step electrosynthesis of ethylene from CO2 by means of gas diffusion electrodes is being led by Fraunhofer IGB. Another setup for one-step electrosynthesis of C1-C4 alcohols from CO2 using high-pressure techniques is being led by the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT, while a third setup using two-step activation of CO2 by H2 for synthesizing C4-C20 alcohols is being led by the Fraunhofer Institute for Ceramic Technologies and Systems IKTS.

All of these development projects are being paralleled by process simulations (at the Fraunhofer Institute for Industrial Mathematics ITWM) as well as by joint development of electrochemical components and process analysis systems by Fraunhofer ISC, IST, and IAP. A work package for system analysis and sustainability considerations carried out by Fraunhofer IGB and UMSICHT rounds out the project.

© Fraunhofer IGB
Principle behind electrochemical manufacture of ethylene from CO2.

Sub-project: Electrochemical generation of ethylene

Fraunhofer IGB is coordinating the sub-project entitled “Development of a new one-step electrochemical process with which alkenes, mainly ethylene, will be electrochemically produced from CO2 and water". The primary innovation in this sub-project consists of producing ethylene or other alkenes through direct reduction of CO2 in just a one-step process. The goalpost for the process is to demonstrate ethylene production on a scale of one kilogram per day.

A total of four departments at Fraunhofer IGB are working together on this project. The BioCat group in Straubing is looking after the development of the catalysts, optimizing reaction of the electrodes, and characterizing the materials. The research focus of the Department of Interfacial Engineering and Materials Science is developing and characterizing charge-carrying materials (membranes and gas diffusion electrodes) as well as characterizing and optimizing interface phenomena at triple-point phase changes. The Department of Physical Process Technology is looking after the electrode configuration, system integration and setup, and the testing and optimizing of the pilot plant. The necessary measurement, monitoring, and control engineering is being contributed by the Department of Environmental Biotechnology and Bioprocess Engineering.

The development is being carried out in close cooperation with the parallel work packages for process simulation (Fraunhofer ITWM) and component development & process analysis (ISC, IST and IAP).

Project information

Project title

Fraunhofer Lighthouse Project "Electricity as a Raw Material"


Project duration

August 2015 – September 2018


Project partners

  • Fraunhofer Institute for Applied Polymer Research IAP
  • Fraunhofer Institute for Chemical Technology ICT
  • Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB
  • Fraunhofer Institute for Ceramic Technologies and Systems IKTS
  • Fraunhofer Institute for Silicate Research ISC
  • Fraunhofer Institute for Surface Engineering and Thin Films IST
  • Fraunhofer Institute for Industrial Mathematics ITWM
  • Fraunhofer Institute for Process Engineering and Packaging IVV (consulting)
  • Fraunhofer Institute for Environmental, Safety, and Energy Technology UMSICHT (coordination)
  • Fraunhofer Institute for Wood Research Wilhelm-Klauditz-Institut WKI


The Fraunhofer-Gesellschaft intends to strengthen Germany as a center for commerce by rapidly transforming original scientific ideas into marketable products through the Lighthouse Project initiative.

Fraunhofer lighthouse projects are geared toward providing German industry with concrete technologies capable of rapid commercialization.

With its rich fund of scientific expertise from a broad spectrum of fields, Fraunhofer is ideally placed to help industrial companies swiftly turn innovative ideas into marketable products.

In so doing, Fraunhofer seeks to focus on the current challenges facing industry, especially those with a strategic significance for the economy. By involving industrial partners at an early stage, Fraunhofer ensures that its research remains firmly grounded and focused on practical concerns.