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Optimization of Energy Production Under the View of Technical, Economic and Environmental Conditions

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Sustainable Manufacturing

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Abstract

The global growing of electricity production and consumption increase the pollution of the biosphere. In the conventional generation of electricity with coal, oil and gas the emissions of carbon dioxide to the atmosphere increase. According to the actual technical state of the art in the production of nuclear electricity, the waste disposal of dangerous radioactive materials is not clear. The generation of electricity with nuclear power is a technology with incalculable economic and ecological risks to people and the environment. In the future globally considered the production of nuclear and conventional power is not economically and ecologically. For these reasons, the production of electricity from renewable energy sources has to be enlarged and realized consequently. In this paper, the concept of the described model can be used to represent the technological, economic and environmental conditions for regions or countries to optimize the energy production. From this model, then a global representation can be developed. The aim of the model is to minimize the energy production on the base of coal, oil, gas, to optimize the production of electricity by renewable energy sources and stop the generation of nuclear power under technical, economic and environmental point of views.

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References

  • BP Statistical Review of World Energy June 2011. [Internet Source]. – Access under: http://www.bp.com/statisticalreview.

  • 25 years after the Chernobyl catastrophe: results and perspectives. National Presentation of the Republic of Belarus, Minsk, Department for the liquidation of damages caused by the Chernobyl disaster, Ministry of Emergency of Belarus, 2011 – 90 Pages. [Internet Source]. – Access under: http://www.chernobyl.gov.by.

  • Andrey Suew. Japanese-hour. Power generation in Russia. Journal of Centralized Distribution of Energy, Nr. 4. – Moscow, 2011. – Page 40.

    Google Scholar 

  • Thirteenth Law amending the Atomic Energy Act, German Bundestag, 17th Term, Printed matter 17/6361, 29.06.2011 [Internet Source]—Access under: http://dipbt.bundestag.de/dip21/btd/17/062/1706246.pdf.

  • The path to energy future—sure, payable and environmentally friendly, Key Elements of an energy policy plan. [Internet Source]—Access under: http://www.bmwi.de/BMWi/Navigation/Energie/Energiepolitik/energiekonzept.html.

  • Build with quality and just in time. Monthly magazine of the Russia’s nuclear industry “Rosenergoatom”, Nr. 6, June 2011 – Page 5.

    Google Scholar 

  • Order from the Ministry of Energy of the Russian Federation “On the definition of plan and program for the development of the Unified Energy System of Russia in the period 2010-2016” Nr. 333 15. Juli 2010. [Internet Source]. – Access under: http://minenergo.gov.ru/documents/fold13/.

  • Herminghaus H.: CO2-comparison by the electricity production in Germany. [Internet Source]. – Access under: http://www.co2-emissionen-vergleichen.de.

  • Olga Borozdina, Irina Eliseeva, Kai Mertins, Hans Rittinghausen: Concept of wind energy in Russia: Tendencies, potentials and perspectives. Scientific Journal “Finance und Business”, Nr. 2. – Moscow, 2011 - Page 122-137.

    Google Scholar 

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Author information

Authors and Affiliations

  1. St.Petersburg State University of Economics and Finance, Moscow, Russia

    I. Eliseeva & O. Borozdina

  2. Department for Machine Tools and Factory Management, Technische Universität Berlin, Berlin, Germany

    H. Rittinghausen

Authors
  1. I. Eliseeva
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  2. O. Borozdina
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  3. H. Rittinghausen
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Corresponding author

Correspondence to H. Rittinghausen .

Editor information

Editors and Affiliations

  1. Fak. V Verkehrs- und Maschinensysteme, Inst. Werkzeugmaschinen/Fabrikbetrieb, TU Berlin, Pascalstr. 8-9, Berlin, 10587, Berlin, Germany

    Günther Seliger

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© 2012 Springer-Verlag Berlin Heidelberg

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Eliseeva, I., Borozdina, O., Rittinghausen, H. (2012). Optimization of Energy Production Under the View of Technical, Economic and Environmental Conditions. In: Seliger, G. (eds) Sustainable Manufacturing. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-27290-5_33

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