Abstract
Based on a physical-chemical-biological database, the behavior of MTBE and CAH (chlorinated aliphatic hydrocarbons) in the subsoil is described and compared. In contrast to MTBE, CAH can form independent phase bodies that can infiltrate deep into aquifers. Due to its striking higher solubility, MTBE spreads much faster in groundwater. The longest CAH plume recorded in literature so far amounts to 10 000 km. The longest reported MTBE plume reaches 1900m. Interpreting the available worldwide data, spreading of MTBE groundwater contaminations leads plume lengths that fall rather into the category of the BTEX as into the class of CAH. A substantial reason for comparison with the lower CAH plume expansions might consist of the fact that MTBE plumes—due to high water solubility and thereby the connected fast development of the MTBE source transfer—progress comparatively fast into the stable and/or regressive status of the plume development. Beyond this, MTBE infiltrates as subordinated portion of gasolines (predominantly 1–3 wt% in regular grade fuel and/or premium fuel), in comparatively low quantities into the subsoil, so that these comparatively low quantities do not possess large source strengths over longer periods. Only spills with very large gasoline quantities may longer MTBE plumes develop under certain conditions.
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References
Stupp HD, Bakenhus A, Stauffer R, Lorenz D (2005) Sanierungsoptimierung von CKW-Grundwasserschäden: Möglichkeiten zur Reduzierung der Sanierungskosten. Altlasten Spektrum, 06/2005
Scholz-Muramatsu H, Fleming HC (1991) Unter welchen Milieubedingungen erfolgt ein Abbau leichtflüchtiger chlorierter Kohlenwasserstoffe (LCKW)? In: Wagner R (ed) Wasserkalender 1991, 25. Jahrgang, pp 135–158
Könen R, Püttmann W (2006) Ersatz von MTBE durch ETBE als Oxygenat in Ver- gaserkraftstoffen: Ein Vorteil für das Grundwasser? Grundwasser, 4/2005, pp 227–236
Stupp D, Paus HL (1999) Migrationsverhalten organischer Grundwasser-Inhaltsstoffe und Ansätze zur Beurteilung von MNA. Terra Tech, 5/1999, pp 32–37
Moyer EE, Kostecki PT (eds) (2004) MTBE remediation handbook. Amherst Scientific Publishers, Amherst, MA
Ministerium für Ernährung, Umwelt und Forsten, Baden-Württemberg (1983) Leit- faden für die Beurteilung und Behandlung von Grundwasserverunreinigungen durch leichtflüchtige Chlorkohlenwasserstoffe. Schriftenreihe CKW-Leitfaden, Heft 13
Wiedemeier TH, Hanadi SR, Newell CJ, Wilson JT (1999) Natural attenuation of fuels and chlorinated solvents in the subsurface. Wiley, New York
Weaver JW, Haas JE, Sosik CB (1999) Characteristics of gasoline releases in the water table aquifer of Long Island. Proceedings of 1999 petroleum hydrocarbons and organic chemicals in ground water. API/NGWA, Houston, Texas
Happel AM, Beckenbach EH et al (1998) An evaluation of MTBE impacts to California groundwater resources. Lawrence Livermore National Laboratory, University of California, pp 1–68
Mace RE (1998) Spatial and temporal variability of MTBE plumes in Texas. American Petroleum Institute, pp 1–44
State Investigation Reports on MTBE (2003) New England Interstate Water Pollution Control Commission (NEIWPCC), http://www.epa.gov/swerust1/mtbe/mtbestat.htm (last visited: 10-2006)
Integrated Science & Technology, 1349 Old Highway 41, Marietta, Georgia (1999) Comparative MTBE versus benzene plume behavior. BP Oil Company Florida Facilities, Tech Report
http://www.epa.gov/ahaazvuc/research/patcogue.html (last visited: 9-2006)
Persönliche Mitteilung Dr. M. Martienssen, Projektleiterin des METLEN-Projektes am Standort Leuna, Umweltforschungszentrum Leipzig-Halle GmbH 04–2006
Stupp HD, Bakenhus A, Stauffer R, Lorenz D (2005) Verfahren zur Reinigung von mit MTBE verunreinigtem Grundwasser unter Einbeziehung der Kosten zur Sanierung. Altlasten Spektrum 3/2005, pp 134–148
Stupp HD, Bakenhus A, Stauffer R, Lorenz D (2005) Grundwasserverunreinigungen durch tertiär-Butyl-Alkohol (TBA) – Migrationsverhalten im Grundwasser und Verfahren zur Sanierung. Altlasten Spektrum 1/2005, pp 13–19
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Stupp, H. (2007). Spreading of MTBE and Chlorinated Hydrocarbons in Groundwater: Comparison of Groundwater Transport and Plume Dimensions. In: Barceló, D. (eds) Fuel Oxygenates. The Handbook of Environmental Chemistry. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-72641-8_6
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DOI: https://doi.org/10.1007/978-3-540-72641-8_6
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