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Lange, Martin

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  • Veröffentlichung
    A resource efficient pathway towards a greenhouse gas neutral Germany
    (2018) Günther, Jens; Butz, Wolfgang; Lorenz, Ullrich; Fee, Eric; Hain, Benno; Döring, Ulrike; Herbener, Reinhard; Hermann, Tim; Hofmeier, Katja; Kessler, Kai; Knoche, Guido; Kosmol, Jan; Kristof, Kora; Koller, Matthias; Lange, Martin; Lehmann, Harry; Lambrecht, Martin; Leprich, Uwe; Mönch, Lars; Obermaier, Nathan; Pfeiffer, David; Plickert, Sebastian; Purr, Katja; Rechenberg, Bettina; Schmied, Martin; Schuberth, Jens; Seven, Jan; Starke, Sue-Martina; Werlein, Max; Wuttke, Joachim; Deutschland. Umweltbundesamt
    The study shows that it is possible to transform Germany to both greenhouse gas neutral and resource efficient. One side of the balance is greenhouse gas and raw material saving due to exit from fossil energy carriers and the other is the increased raw material use for the construction of the renewable energy system. In the “GreenEe” scenario it is possible to reduce the GHG emissions in 2050 by 95 % compared to 1990 and the raw material consumption (RMC) by almost 60 % compared to 2010. The study shows also that related ambitious climate and resource efficiency policies helps to achieve both goals. Considering both policy field in a systemic way, should be further discussed and implemented in future politics.
  • Veröffentlichung
    A resource efficient pathway towards a greenhouse gas neutral Germany
    (2019) Günther, Jens; Butz, Wolfgang; Lorenz, Ullrich; Fee, Eric; Herbener, Reinhard; Döring, Ulrike; Hermann, Tim; Hofmeier, Katja; Kessler, Kai; Knoche, Guido; Kosmol, Jan; Kristof, Kora; Koller, Matthias; Lange, Martin; Lehmann, Harry; Lambrecht, Martin; Leprich, Uwe; Mönch, Lars; Nuss, Philip; Obermaier, Nathan; Pfeiffer, David; Plickert, Sebastian; Purr, Katja; Rechenberg, Bettina; Schmied, Martin; Schuberth, Jens; Seven, Jan; Starke, Sue-Martina; Werlein, Max; Deutschland. Umweltbundesamt. Fachgebiet I.2.1 - Internationaler Klimaschutz; Deutschland. Umweltbundesamt
    The study shows that it is possible to transform Germany to both greenhouse gas neutral and resource efficient. One side of the balance is greenhouse gas and raw material saving due to exit from fossil energy carriers and the other is the increased raw material use for the construction of the renewable energy system. In the “GreenEe” scenario it is possible to reduce the GHG emissions in 2050 by 95 % compared to 1990 and the raw material consumption (RMC) by almost 60 % compared to 2010. The study shows also that related ambitious climate and resource efficiency policies helps to achieve both goals. Considering both policy field in a systemic way, should be further discussed and implemented in future politics.
  • Veröffentlichung
    Resource-Eficient Pathways towards Greenhouse-Gas- Neutrality - RESCUE
    (Umweltbundesamt, 2019) Günther, Jens; Drosihn, Detlef; Nuss, Philip; Fee, Eric; Balzer, Frederike; Futterlieb, Matthias; Ehlers, Knut; Hain, Benno; Herbener, Reinhard; Günther, Dirk; Hofmeier, Katja; Knoche, Guido; Kristof, Kora; Lange, Martin; Lehmann, Harry; Lambrecht, Martin; Müller, Felix; Obermaier, Nathan; Pfeiffer, David; Plappert, Marie-Luise; Plickert, Sebastian; Proske, Christopher; Purr, Katja; Rechenberg, Bettina; Rudolph, Manuel; Schmied, Martin; Steinbrenner, Joscha; Vollmer, Carla; Werlein, Max; Deutschland. Umweltbundesamt
    The RESCUE study describes in six scenarios possible development paths towards a resource-efficient and greenhouse-gas (GHG) neutral Germany until 2050. For this, assumptions related to the level of ambition for reaching GHG-neutrality, the magnitude of materials- and energy-efficiency, and the implementation of sustainable life-styles are varied. Until 2050, GHG-emissions can be reduced by 95 percent to 97 percent compared to 1990-levels. Net zero emissions can be achieved through sustainable agriculture and forestry management. Primary raw materials consumption is reduced by 56 percent to 70 percent (however, an increased demand for certain raw materials is also observed). This summary report, provides a concise overview of the central assumptions, results, and policy-relevant conclusions from this multi-year research project. Quelle: Bericht
  • Veröffentlichung
    Integration of Power to Gas/ Power to Liquids into the ongoing transformation process
    (2016) Adlunger, Kirsten; Burger, Andreas; Hain, Benno; Klaus, Thomas; Lange, Martin; Lehmann, Harry; Mönch, Lars; Osiek, Dirk; Proske, Christopher; Purr, Katja; Schmied, Martin; Vollmer, Carla
    Power to gas (PtG) is a technology for producing hydrogen and methane using electricity, while power to liquids (PtL) is an electricity-based process for the generation of liquid fuels. Jointly with other so-called power-to-x technologies PtG and PtL make it possible to provide renewable energies for all applications. This position paper assesses the role and prospects of the power-to-gas/power-to-liquids (PtG/PtL) technology in a fully renewable energy system and identifies, in particular, the challenges for integration and further development of this technology in the ongoing transformation process, which should be addressed in the next few years.