Energy Strategy To Combat Climate Change Proposed

In the past year, various reports from the United Nations' Intergovernmental Panel on Climate Change (IPCC) have warned the world in no uncertain terms that in order to achieve a stable climate on our planet by the end of this century, any increase in CO₂ emissions in the coming decades must be curbed before the emissions can be appreciably reduced. According to the IPCC, the maximum amount of CO₂ emissions that can be tolerated globally by the end of the 21st century amounts to roughly 2000 gigatons. This will mean a considerable reduction in the emission of CO₂ per capita.

The per capita emission of carbon dioxide in Switzerland is currently 9 tons per year, approximately twice the global average. "Our objective for the climate and energy policy for the century has to be to induce each member of the human race to produce not more than 1 ton of carbon dioxide per year", Professor Ralph Eichler, President ETH Zurich, explained.

Systematic implementation of 3E strategy

This proposed emission target for carbon dioxide may seem ambitious by today's standards, but it can be achieved by the end of the century both in Switzerland and throughout the world. This is reflected in the calculations made by ETH Zurich's own Energy Science Center (ESC). In order to reach the target, an energy strategy will have to be consistently implemented. As stated by Professor Konstantinos Boulouchos, the proposed strategy is based on three pillars:

1. the exhaustion of efficiency potential,
2. the extended use of renewable energy sources and
3. the increased share of electricity in the energy mix.

Exhausting the efficiency potential will mean increasing efficiency in every link of the energy conversion chain, from extraction at the energy source, through storage and distribution up to energy usage. This alone would harbour great savings potential, especially when combined with market-based instruments to influence the demand side.

The second E of the strategy focuses on the use of renewable energy sources, such as photovoltaics, water, and wind. Important to note is that economic as well as ecological aspects must be taken into consideration when using renewable energy sources.

Electricity as the backbone of the energy system

The newcomer to the 3-E strategy constitutes the third E: electrification. According to ETH Zurich researchers, in future C0₂-poor electricity will establish itself as the backbone of a sustainable energy system. It is increasingly being used in heating and cooling buildings (with heat pumps, for example), and is expected to extend to individual mobility (moving, in the long run, from hybrid vehicles to fully electric cars).

A reorientation of the energy system, however, will not happen overnight. It is likely to take several decades. All the more reason that it is crucial that steps be taken today: infrastructure in industrialized countries (transmission network, power plants) needs to be renewed and in threshold countries, erected.

Innovative research

ETH Zurich conducts intensive research with a mind to finding new solutions and methods to face the CO₂ problem. Professor Marco Mazzotti from the Institute for Process Engineering is researching the possibilities of eliminating CO₂ in fossil-fueled power stations and combining it with stable and solid substances. This so-called mineralization thus facilitates the permanent and secure storage of greenhouse gases.

Power electronics are becoming increasingly smaller and more efficient: the research group headed by Professor Johann Kolar from the Power Electronic Systems Laboratory is devoted to developing such components that are deployed, for example, in hybrid vehicles. Efficient control of the drive system of such cars makes a significant contribution towards environmentally-friendly private transport.

Promising ETH Zurich research is also being carried out in the field of building systems engineering. The technology at our fingertips today would already enable us to replace CO₂-emitting heating and boiler systems with a combination of innovative wall insulation and heat pumps - with free renewable energy from the ground. This ingenious concept is also just the ticket for existing buildings. "We just need to get cracking", explains Professor HansJürg Leibundgut from the Institute for Building Systems. Within five to six years it should be possible to produce the necessary components on an industrial level so that for the price of a mid-range car, a four-room apartment can be refurbished, with the effect that practically all of the CO₂ previously generated by heating and warm water can be prevented.