Best Available Techniques (BAT) Reference Document:for:Manufacture of Glass:Industrial Emissions Directive 2010/75/EU:(Integrated Pollution Prevention and Control)
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TL;DR: This reference document for the Iron and Steel Production forms part of a series presenting the results of an exchange of information between EU Member States, the industries concerned, non-governmental organisations promoting environmental protection and the Commission, to draw up, review, and where necessary, update BAT reference documents as required by Article 13(1) of the Directive on industrial emissions (2010/75/EU).
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Abstract: This BAT reference document for the Iron and Steel Production forms part of a series presenting the results of an exchange of information between EU Member States, the industries concerned, non-governmental organisations promoting environmental protection and the Commission, to draw up, review, and where necessary, update BAT reference documents as required by Article 13(1) of the Directive on industrial emissions (2010/75/EU). This document is published by the European Commission pursuant to Article 13(6) of the Directive.
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Citations
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TL;DR: In this paper, the authors presented the first comprehensive estimate of ORC units that can be installed in cement, steel, glass and oil&gas industries in the 27 countries of the European Union based on an accurate methodology related to real plants in operation or under construction.
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Current status and future perspectives for energy production from solid biomass in the European industry
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TL;DR: In this article, the current European industrial energy consumption is reviewed, with a focus on bioheat, and the available solid biomass feedstock and energy conversion alternatives are examined, along with future perspectives for further biomass consumption in several industrial sectors.
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The CO2 reduction potential for the European industry via direct electrification of heat supply (power-to-heat)
Silvia Madeddu,Falko Ueckerdt,Michaja Pehl,Juergen H. Peterseim,Michael Lord,Karthik Ajith Kumar,Christoph Krüger,Gunnar Luderer +7 more
TL;DR: In this paper, the authors present the results from a comprehensive bottom-up analysis of the energy use in eleven industrial sectors (accounting for 92% of Europe's industry CO2 emissions), and estimate the technological potential for industry electrification in three stages.
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TL;DR: Wang et al. as discussed by the authors presented the results of thermal energy modeling to quantify the technical maximum waste heat potential in three energy-intensive industrial sectors: cement, iron and steel, and glass.
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A review of cross-sector decarbonisation potentials in the European energy intensive industry
TL;DR: In this article, a review of pathway and roadmap publications and scientific literature is presented to identify key areas for emission abatement across all subsectors, and significant discrepancies in the literature regarding the expected emission reductions achievable, but permit us to identify areas that are key for the transition towards a low-emission EII.
144
References
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Five years of operational experience with the SORG LoNOx ∫ melter
R. Ehrig,J. Wiegand,E. Neubauer +2 more
TL;DR: In this article, the prototype of the LoNO x ® Melter was shut down in the bottle glass plant at Steinbach am Wald, repaired and then put into operation again.
5
•Journal Article
Processes for heat recovery and energy savings in oxy-fired glass furnaces : A technology survey
TL;DR: In this paper, the feasibility and potential energy savings available with various heat recovery processes on oxy-fuel melters were evaluated, and the possible uses of the flue gas were classified in three distinct areas: combustion modifications, co-production and input preheating.
3
•Journal Article
Oxycombustion : The problems and perspectives for development of its use in glass containers production
TL;DR: In this article, the competitiveness of 100% oxy-fired furnaces for soda lime glass container furnaces is analyzed and compared with conventional for NOx emission control, for heat balance and specific energy consumption and concludes that it is necessary to find an efficient way for heat recovery from the oxy-fired waste gas.
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