Hydrogen: the future energy carrier

Author:

Züttel Andreas1,Remhof Arndt1,Borgschulte Andreas1,Friedrichs Oliver1

Affiliation:

1. Empa Materials Sciences and Technology, Department of Environment, Energy and Mobility, Division of Hydrogen & Energy, CH-8600 Dübendorf, Switzerland

Abstract

Since the beginning of the twenty-first century the limitations of the fossil age with regard to the continuing growth of energy demand, the peaking mining rate of oil, the growing impact of CO 2 emissions on the environment and the dependency of the economy in the industrialized world on the availability of fossil fuels became very obvious. A major change in the energy economy from fossil energy carriers to renewable energy fluxes is necessary. The main challenge is to efficiently convert renewable energy into electricity and the storage of electricity or the production of a synthetic fuel. Hydrogen is produced from water by electricity through an electrolyser. The storage of hydrogen in its molecular or atomic form is a materials challenge. Some hydrides are known to exhibit a hydrogen density comparable to oil; however, these hydrides require a sophisticated storage system. The system energy density is significantly smaller than the energy density of fossil fuels. An interesting alternative to the direct storage of hydrogen are synthetic hydrocarbons produced from hydrogen and CO 2 extracted from the atmosphere. They are CO 2 neutral and stored like fossil fuels. Conventional combustion engines and turbines can be used in order to convert the stored energy into work and heat.

Publisher

The Royal Society

Subject

General Physics and Astronomy,General Engineering,General Mathematics

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4. Engdahl F. W.. 2008 Perhaps 60% of today’s oil price is pure speculation. See http://www.financialsense.com/editorials/engdahl/2008/0502.html.

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