Neue Reaktortypen: Wie neue Atomkraftwerke den Klimawandel stoppen wollen

Ich bin so cool, ich habe einen fetten Tesla. Was früher der Nerzmantel für die Damen war, ist heute der hippe Tesla. Eine Riesenkarre für Spitzenverdiener, bei dessen Anblick der umweltfrevelnde Schrott-Dieselfahrer erstarrt. Aber halt, war da nicht noch was? Wo kommt eigentlich das ganze Cobalt her, das die E-Autos so dringend brauchen? The Times hat es am 10. März 2019 seinen Lesern verraten: Ein gewichtiger Teil des Cobalts kommt aus der Demokratischen Republik Congo (früher Zaire):

Congo’s miners dying to feed world’s hunger for electric cars

Exploited by Chinese firms, workers as young as nine risk their lives to feed the world’s growing hunger for cobalt. Christina Lamb reports from Kolwezi

olange Kanena sits on her broken orange sofa, heavily pregnant, resting. Looking around her three-room shack, she wonders how she will feed her eight children. Her husband died in a mining accident 10 days ago.

She has never held an iPhone and has no idea what an electric car is. But when the deep, muddy tunnel collapsed on her husband, he was digging for a commodity that is critical to the batteries of both: cobalt.

Weiterlesen in The Times, oder via GWPF

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Stern am 14. Juli 2019:

Neue Reaktortypen: Wie neue Atomkraftwerke den Klimawandel stoppen wollen

Unbegrenzte Energie ohne Klimaemissionen – das verspricht die Atomenergie. Neue Kraftwerkstypen sollen sicherer als die alten sein. Doch wahrscheinlich werden sie nicht im Westen gebaut.

Jeden Freitag demonstrieren Schüler für eine bessere Klimapolitik. Aber immer noch ist Kohle für 38 Prozent der weltweiten Energieerzeugung verantwortlich. Im letzten Jahr sanken die Treibhausemissionen nicht, sie stiegen um 2,7 Prozent. In einigen Ländern wird daher wieder mehr über den Ausbau von Kernenergie nachgedacht, um die Klimaziele zu erreichen. Allerdings nicht in Deutschland, dort sollen alle Anlagen bis 2022 stillgelegt werden. Die Stromlücke soll durch regenerative Energie wie Windkraft geschlossen werden und durch gasbetriebene Kraftwerke. Die erzeugen zwar weniger Emissionen als Kohlekraftwerke, aber doch wesentlich mehr als die Atomkraft. Darüber hinaus werden Gaskraftwerke den politisch umstrittenen Import von Gas aus Russland noch erhöhen. Der Atomkraft setzt nicht nur die Ablehnung in der Bevölkerung zu, werden die realen Kosten zugrunde gelegt, wäre der Atomstrom teurer als der Gasstrom. In den USA wurden mehrere Kraftwerke auch ohne Atomprotest geschlossen, weil sie nicht mit dem billigen Gas konkurrieren können.

Neue Entwicklungen in der Technik

Dennoch wird weltweit weiter an der Atomkraft geforscht. Die „MIT Technology Review“ hat einen Überblick über die Reaktoren der Zukunft zusammengestellt. Ein Ansatz ist der Bau kleiner modularer Reaktoren (Small Modular Reactors – SMR). Überspitzt formuliert könnte man sagen, hier handele es sich um Reaktoren vom Fließband. Anstatt einzelner Blöcke mit großer Leistung, die nach kundenspezifischen Vorgaben individuell gebaut werden, sollen diese Mini-Reaktoren seriell hergestellt werden. Standardisierte Prozesse und gleiche Bauteile sollen die Kosten senken.

Weiterlesen im Stern

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Die Europäer essen zuviel Importe aus tropischen Ländern, die dafür den Regenwald abholzen und damit den Klimawandel anheizen, sagt das Chalmers University of Technology aus Göteborg:

EU consumption linked to tropical deforestation

A sixth of all emissions resulting from the typical diet of an EU citizen can be directly linked to deforestation of tropical forests. Two new studies, from Chalmers University of Technology, Sweden, shed new light on this impact, by combining satellite imagery of the rainforest, global land use statistics and data of international trade patterns. „In effect, you could say that the EU imports large amounts of deforestation every year. If the EU really wants to achieve its climate goals, it must set harder environmental demands on those who export food to the EU,“ says Martin Persson from Chalmers, one of the researchers behind the studies.

The link between production of certain foods and deforestation has been known before. But what Martin Persson and Chalmers colleague Florence Pendrill have now investigated is the extent to which deforestation in the tropics is linked to food production, and then where those foods are eventually consumed. In the first study, they focused on how the expansion of cropland, pastures, and forestry plantations has taken place at the expense of the rainforest. „We can see that more than half of deforestation is due to production of food and animal feed, such as beef, soy beans and palm oil. There is big variation between different countries and goods, but overall, exports account for about a fourth of that deforestation which is connected to food production. And these figures have also increased during the period we looked at,“ says Florence Pendrill.

Using this information, the researchers investigated, in the second study, the amount of carbon dioxide emissions resulting from this production (see the picture below), and where the produce is then consumed. The figures for the EU are particularly interesting, since the EU is a large food importer. Furthermore, the EU shall soon present a plan for how to reduce its contribution to deforestation. The EU already has strict requirements in place connected to deforestation which producers of timber and wood products must adhere to in order to export their goods to the EU. This demonstrates their ability to influence other countries‘ work in protecting the rainforest.

„Now, as the connection between food production and deforestation is made clearer, we should start to discuss possibilities for the EU to adopt similar regulations for food imports. Quite simply, deforestation should end up costing the producer more. If you give tropical countries support in their work to protect the rainforest, as well as giving farmers alternatives to deforestation to increase production, it can have a big impact,“ says Florence Pendrill. The current studies were done in collaboration with researchers from the Stockholm Environment Institute in Sweden, Senckenberg Biodiversity and Climate Research Centre in Germany, and NTNU, the Norwegian University of Science and Technology. They are a continuation of research which was done through the Prince project (Policy Relevant Indicators for National Consumption and Environment), where the connections between Swedish consumption and emissions from deforestation were presented in the autumn.

The studies indicate that, although there is a big variation between different EU countries, on average a sixth of the emissions from a typical EU diet can be directly traced back to deforestation in the tropics. Emissions from imports are also high when compared with domestic agricultural emissions. For several EU countries, import emissions connected to deforestation are equivalent to more than half of the emissions from their own, national agricultural production. „If the EU really wants to do something about its impact on the climate, this is an important emissions source. There are big possibilities here to influence production so that it avoids expanding into tropical forests,“ says Martin Persson.

Above all, Martin Persson believes the responsibility for achieving these changes lies with bigger actors, such as countries and large international organisations. But he also sees a role for the consumer to get involved and have an influence. „Public opinion is vital for the climate question — not least in influencing politicians, but also commercially. We can see already that several companies have made commitments to protecting tropical forests, through voluntarily pledging to avoid products which are farmed on deforested land. And in large part, that results from the fact that popular opinion is so strong on this issue,“ he concludes.

More information on: Carbon dioxide emissions due to tropical deforestation:

For the period 2010-2014, the researchers estimate net emissions of 2.6 gigatonnes of carbon dioxide due to deforestation associated to the expansion of croplands, pastures and forestry plantations in the tropics. The main commodity groups associated with these emissions were cattle meat (0.9 gigatonnes of CO2) and oilseed products (including both palm oil and soybeans; 0.6 gigatonnes of CO2).

There are large geographic variations in what commodities are associated with deforestation-related emissions. In Latin America, cattle meat is the dominant contributor (0.8 gigatonnes of CO2), mainly attributed to Brazilian production. In Indonesia almost half of the emissions (0.3 gigatonnes of CO2) come from oilseeds (mainly oil palm). In the rest of Asia-Pacific and Africa, a more diverse mix of commodities drives emissions from deforestation.

Papers:

Florence Pendrill, U. Martin Persson, Javier Godar, Thomas Kastner, Daniel Moran, Sarah Schmidt, Richard Wood. Agricultural and forestry trade drives large share of tropical deforestation emissions. Global Environmental Change, 2019; 56: 1 DOI: 10.1016/j.gloenvcha.2019.03.002

Florence Pendrill, Martin Persson, Javier Godar, Thomas Kastner. Deforestation displaced: trade in forest-risk commodities and the prospects for a global forest transition. Environmental Research Letters, 2019; DOI: 10.1088/1748-9326/ab0d41

 

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