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Some Issues Quantifying Low-carbon of an Achievement Energy and Industry

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, for use as a unified tool within the framework of ISO 50001, a methodology for rating assessment of the processing of emissions with global pollutants is proposed, which was developed by the authors and recommended for use by state documents of the Republic of Tatarstan, Russia. It is distinguished by the absence of not transparences elements. As the initial data, the actual background concentrations (according to WMO data), the annual ceiling of greenhouse gas emissions and the maximum permissible emissions of toxic compounds, information on the characteristics of emission sources are taken for the enterprise, and as operational constants, the global warming potentials of greenhouse gases (GWP100) and officially approved values of maximum permissible concentrations of toxic compounds (MPC). The method is based on the equation (presented here at annotation in a simplified form), which gives a numerical indicator (rating) R of the efficiency of a production facility in terms of hazardous emissions into the atmosphere, taking into account greenhouse gases and energy costs arising from their removal. Currently, the technique is adapted to the energy sector; for wider adaptation to various industries, a low-carbon rating program has been drawn up for boiler houses, thermal power plants and industrial enterprises. It also meets the needs of understanding and predicting possible deviations of emission parameters from the standardized indicators. Therefore, it can serve as a tool within the framework of ISO 50001, providing objective control over the choice of means to ensure compliance with the requirements for harmful components emissions including greenhouse gases in the design and modernization of production facilities. The developed program is embedded for Russian enterprises in the shell of the ‘1C: Enterprise’ platform – a software product for automating accounting and management at enterprises. The program can also be used in the software shell of the automated accounting of the activities of a particular organization in a one or the other country.
Rocznik
Tom
Strony
446--457
Opis fizyczny
Bibliogr. 9 poz.
Twórcy
  • The Institute of Heat Power Engineering, Department of Thermal Power Plants, Kazan State Power Engineering University, Russia
Bibliografia
  • Berlyand, M.E., Genikhovich, E.L. (1971). Atmospheric diffusion and air flow structure over a heterogeneous underlying surface. // Meteorological aspects of atmospheric pollution – L.: Gidrometizdat, 49-69.
  • Berlyand, M.E., Kiselev, V.B. (1972). On the influence of relief on the distribution of impurities taking into account their initial rise. Meteorology and Hydrology, 3, 3-10.
  • Communiqué (2014) by the G20 Leaders following the 2014 Brisbane Summit (Australia) http://news.kremlin.ru/media/events/files/41d51ac333c6c9b83233.pdf
  • Multiple Impacts (2020) of Energy Efficiency. Horizon-2020 project COMBI presents results. Press Releases 05/18/2018 https://wupperinst.org/en/a/wi/a/s/ad/4331
  • Rubino, M., Etheridge, D.M., et al. (2019). Revised records of atmospheric trace gases CO2, CH4, N2O, and δ13C-CO2 over the last 2000 years from Law Dome, Antarctica. Earth System Science Data, 11(2), 473-492, DOI: https://doi.org/10.5194/essd-11-473-2019
  • U.S.-China (2021) Joint Statement Addressing the Climate Crisis https://www.state.gov/u-s-china-joint-statement-addressing-the-climate-crisis/
  • WMO Greenhouse Gas Bulletin (2019) (GHG Bulletin) – No. 15: The State of Greenhouse Gases in the Atmosphere Based on Global Observations through 2018 https://library.wmo.int/index.php?lvl=notice_display&id=21620#.YMNdwuAza70
  • Ziganshin, M.G. (2019). Method of assessment generation efficiency at thermal power plants taking into account emissions of pollutants. Power engineering: research, equipment, technology, 21(6), 29-38. DOI: https://doi.org/10.30724/1998-9903- 2019-21-6-29-38
  • Ziganshin, M.G. & Sivkov, A.L. (2016). The system of rating assessment of the activities of organizations on the basis of "low-carbon". Reliability and safety of energy, 4(35), 7-11. In: https://www.sigma08.ru/jour/article/view/135/136
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ab50c8d2-dea0-4497-bbf7-6e7706e93739
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