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Swiss researchers presenting paper on Power-to-X to Swiss Federal Energy Research Commission

In a joint research project of five Swiss competence centers for energy research, scientists of the Paul Scherrer Institute PSI; the Swiss Federal Laboratories for Materials Science and Technology (Empa); Swiss Federal Instiute of Technology (ETH) Zurich; the Zurich University for Applied Sciences (ZHAW); the University of Applied Sciences Rapperswil (HSR); the University of Geneva; and the University of Lucerne have prepared a white paper on "Power-to-X" for consideration by the Swiss Federal Energy Research Commission (CORE).

The goal of the white paper is to gather together the most important insights available on Power-to-X technologies. Among other things, the study sheds light on contributions that could be made to Switzerland’s energy strategy by different technologies based on conversion and storage of various forms of energy. The researchers are presenting the findings of this study on 8 July at ETH Zurich.

According to Switzerland’s Energy Strategy 2050, by 2030 emissions of greenhouse gases should decrease by 50% compared to 1990, and up to a maximum of 85%by 2050. After 2050, the energy supply in Switzerland should be climate-neutral—that is, without emissions of greenhouse gases such as CO2.

One component of the effort to achieve this goal could be Power-to-X techniques. Here surplus electricity from new renewable energy sources is used to produce, through electrochemical conversion, liquid or gaseous energy carriers such as hydrogen, methane, or methanol. These are then used in the consumer sectors to power vehicles or to generate heat or electricity again. The advantage is that the liquid or gaseous energy sources can be stored for a longer time.

Theenergysys

In a Power-to-X scenario, electricity from new renewable energy sources is used to produce hydrogen (H2) or methane (CH4), thus storing surplus energy. This can then be recovered at a later point in time, for example as fuel for heating or to generate electricity again. The white paper analyses various sub-areas and perspectives for the Swiss energy system. (Graphic: Paul Scherrer Institute/Jörg Roth)


Within the framework of Energy Strategy 2050, the Power-to-X techniques are of interest because new sources of renewable energy from photovoltaics or wind power are not available continuously, but rather with fluctuating intensity.

To compensate for phases of low power generation, energy from production-intensive phases is expected to be temporarily stored with the help of Power-to-X techniques. Thus Power-to-X processes can contribute to balancing energy supply and demand over a longer period of time, increase the short-term flexibility of the electric grid through intelligent load management, and create substitutes for fossil fuels as well as raw materials for industry.

Scientists from the Paul Scherrer Institute PSI, together with colleagues from six other Swiss universities and research institutions, have amassed extensive information on various aspects of Power-to-X technologies, including their potential to contribute to Energy Strategy 2050, what challenges each technology faces, and what key factors could promote their widespread use.

Tom Kober, head of the Energy Economics Group at PSI and one of the lead authors of the white paper commissioned by the Swiss Federal Energy Research Commission, summarizes one of the findings:

In comparison to other new renewable energy sources, there is a particularly high potential in Switzerland for electricity from solar facilities, which makes Power-to-X an important flexibility option and a link between energy production and consumption in a sustainable, low-CO2 energy system.

The contributions Power-to-X can make in individual energy sectors such as transportation and heating or through reconversion are very different. Thus, the recovery of electricity from energy sources such as hydrogen or methane produced with Power-to-X methods is currently still very expensive. However, the costs of such processes could decrease by as much as two-thirds by 2030, thanks to advances in technology and increasing experience with these new technologies, Kober estimates.

The extent to which Power-to-Power technologies can prevail over other flexibility options in the electricity system also depends on developments in the European market and associated conditions for Switzerland’s foreign trade in electricity.

The study concludes that, for Power-to-X to be applied successfully within the framework of Energy Strategy 2050, it is essential to concentrate research and innovation on the optimal integration of Power-to-X into the overall energy system of Switzerland.

The white paper commissioned by the Swiss Federal Energy Research Commission (CORE) was prepared by the partners of five Swiss competence centers for energy research (SCCER)—Heat and Electricity Storage, BIOSWEET, CREST, FURIES, and Mobility—and financed by Innosuisse as well as the Swiss Federal Office of Energy (SFOE).

Comments

HarveyD

This technology, (Power to X & VoG) could easily be expanded to ensure lower cost of plentiful 24/7 REs in many places, specially where Hydro-Wind-Solar potentials exist.

Curent and future electrified vehicles, of all sizes, can become major energy users and energy storage sources using smart grid applications.

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