Die Firma Bayer AG, Ernst-Schering-Straße 14, 59192 Bergkamen, hat mit Datum
vom 28.09.2023, eingegangen am 17.10.2023, die Erteilung einer Genehmigung
nach § 16 Bundes-Immissionsschutzgesetz (BImSchG) zur wesentlichen Änderung
der Production Unit A (PUA) durch Errichtung und Betrieb eines Apparateabgassam-
melsystems und einer thermischen Abgasreinigungsanlage (TAR) B119 zur Entsor-
gung von IIC-Apparateabgasen auf ihrem Grundstück in 59192 Bergkamen, Ernst-
Schering-Straße 14, Gemarkung Bergkamen, Flure 11 und 17, Flurstücke 577 und
242 beantragt.
Das Projekt "Verbesserung des biologischen Abbaus an mit leichten NAPLs verunreinigten Standorten vor Ort: Beseitigung von Einschraenkungen mit extensiven Massnahmen" wird vom Umweltbundesamt gefördert und von Technische Universität München, Wissenschaftszentrum Weihenstephan für Ernährung, Landnutzung und Umwelt, Department für Ökologie, Lehrstuhl für Bodenkunde durchgeführt. Ail EU-countries face the problem of soils and aquifers contaminated with hydrocarbons lighter than water (called LNAPLs: Light Non Aqueous Phase Liquids). The light hydrocarbon spills accumulate at the phreatic water table in the form of free (liquid) product. The contaminated sites are partly industrial plants (tar production, oil refinement), partly small enterprises (metal rectification, dry cleaning), but sometimes also due to massive bombing of industrial plants during world war II. Such LNAPLs hydrocarbons are usually volatile but relatively insoluble in water. Nevertheless, even at small concentrations they pose a risk to the consumability of water. Among others, major (toxic) components are light oil, gasoline/kerosene, PAHs, phenols, BTEX, and chlorinated hydrocarbons. Different forces act on the LNAPLs and determine their fate in the soil environment: Organic phase transport; Evaporation to the gas phase; Dissolution in the water phase; Sorption to the solid phase; Degradation by microorganisms and enzymes. The specific problem arising from an oil phase floating on top of (unconfined) groundwater aquifers is the distribution of the oil phase in the groundwater fluctuation zone. This leads to vertical lubrication of the hydrocarbon phase, resulting in a drastic increase of the oil covered surface (oil-film formation) in the zone of water table fluctuation. This oil film not only is the source of a number of different contaminants but also changes almost all structural and functional properties of the aquifer. The light hydrocarbons are generally (bio)degradable under aerobic conditions. Nevertheless, spills formed during the massive bombing of industrial plants during WWII, which may involve polluted areas of tens of km2, have been persistent against degradation until now. This suggests that the conditions at the contaminated layers are unfavourable for degradation. The main objectives for the project group are I) to assess how large spills of LNAPLs behave in the subsurface strata in physical, chemical and biological respect, II) to assess which conditions are favourable for extensive in situ biodegradation; III) to investigate whether such favourable conditions can be created at actually contaminated sites with labour - and cost effective remediation strategies, i e natural attenuation, as intensive in situ biomediation may not be achievable in view of the large areas and many sites involved; IV) to quantify the release rate of the 'subsurface' contaminant source to the surroundings during extensive remediation, because of the hazard of further spreading of the contamination during the time span needed for degradation. The project will focus on light NAPL with major emphasis on natural attenuation or intrinsic bioremediation. The proposed research provides basic understanding of processes involved in extensive and passive remediation and gives guidelines to identify which combination of site parameters are likely to ...
Das Projekt "Entwicklung von Verschluss- und Stellorganen fuer staubhaltige, heisse, hochgespannte Gase" wird vom Umweltbundesamt gefördert und von Herion durchgeführt. Das Ziel der vorgeschlagenen Entwicklung sind betriebssichere Verschluss- und Stellorgane (Armaturen) zur Steuerung von heissen, staubbeladenen Gasen unter hohem Druck fuer Kohle-Staubdruckvergasungsanlagen. - Die im Gehaeuseinneren arbeitenden Bauteile sollen zur Vermeidung von chemischen Reaktionen und Ablagerungen nahe der Mediumstemperatur arbeiten. Als spezifisches Entwicklungsziel sollen Wandungstemperaturen erreicht werden, welche die Kondensation von Teerproduktion im Innenraum verhindern. - Die Gehaeusekonstrukion soll auf Fremdkuehlung verzichten. - Aus Sicherheitsgruenden sollen ergaenzende Antriebe ohne Spindeldurchfuehrung (stopfbuchslos) entwickelt werden.