Frank Müller’s research while affiliated with Humboldt-Universität zu Berlin and other places

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Publications (5)


Figure 1 Mining authorizations in Germany (yellow, last revision: 31 December 2011) for exploration for unconventional hydrocarbon reservoirs (ochre: regions with the basic geological conditions for formation of shale gas) [1]. 
Table 1 Potential unconventional gas reservoirs in Germany
Figure 2 Structure of risk analysis for assessment of unconventional gas exploitation. 
Table 2 Functions of additives used in fracking fluids (based on [4,9]) Additive Function Proppants Keeping the fractures created open under the pressure of the surrounding rock and allows gas/fluid to flow to the well bore
Figure 3 Schematics of potential impact pathways. 

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Potential water-related environmental risks of hydraulic fracturing employed in exploration and exploitation of unconventional natural gas reservoirs in Germany
  • Article
  • Full-text available

May 2014

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493 Reads

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29 Citations

Environmental Sciences Europe

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Georg Meiners

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Frank Müller

The application of hydraulic fracturing during exploration and exploitation of unconventional natural gas reservoirs is currently under intense public discussion. On behalf of the German Federal Environment Agency we have investigated the potential water-related environmental risks for human health and the environment that could be caused by employing hydraulic fracturing in unconventional gas reservoirs in Germany. Here we provide an overview of the present situation and the state of the debate in Germany and summarize main results of the conducted risk assessment. We propose a concept for a risk assessment considering the site-specific analysis of the geosystem, the relevance of possible impact pathways and the hazard potential of the fracking fluids employed. The foundation of a sound risk analysis is a description of the current system, the relevant impact pathways and their interactions. An evaluation of fracking fluids used in Germany shows that several additives were employed even in newer fluids that exhibit critical properties or for which an assessment of their behaviour and effects in the environment is not possible or limited due to lack of current knowledge. The authors propose an assessment method that allows for the estimation of the hazard potential of specific fracking fluids, formation water, and the flowback based on legal thresholds and guidance values as well as on human- and eco-toxicologically predicted no-effect concentrations. The assessment of a previously employed and a prospectively planed fracking fluids shows that these fluids exhibit a high hazard potential. The flowback containing fracking fluid, formation water, and possibly reaction products can also exhibit serious hazard potentials, requiring environmentally acceptable techniques for its treatment and disposal. The risk analysis must be conducted always site-specifically and consider regional groundwater flow conditions. The study concludes that currently missing knowledge and data prevent a profound assessment of the risks and their technical controllability in Germany. Missing knowledge and information includes data on the properties of the deep geosystem and of the behaviour and effects of the deployed chemical additives. In this setting the authors propose several recommendations for further action and procedures regarding the application of hydraulic fracturing in unconventional gas reservoirs in Germany.

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Citations (4)


... The fracturing process consumes a large amount of water. Data collected in different countries and at different stages of exploration/exploitation presents the amount of water per one well that varies between 7500 and 38,000 m 3 in the USA (Kuwayama et al. 2015;Vengosh et al. 2014), 2000 and 77,000 m 3 in Canada (Jacobsen and Gravesen 2016), 10,000 and 30,000 m 3 in the UK (Hammond et al. 2015;Stumford and Azapagic 2014), and 12,095 m 3 in Germany (Olsson et al. 2013;Bergman 2014). In Poland, where hydraulic fracturing was performed only for the hydrocarbon exploration stage, the amount of used water varied between 1284 and 37,849 m 3 . ...

Reference:

Hydraulic fracturing flowback chemical composition diversity as a factor determining possibilities of its management
Potential water-related environmental risks of hydraulic fracturing employed in exploration and exploitation of unconventional natural gas reservoirs in Germany

Environmental Sciences Europe

... The geological situation of these deposits are being investigated and evaluated, for example by the US Environmental Protection Agency (EPA), for their possible impacts on the environment [19]. These issues have also been evaluated in Germany in several different studies: including by the BGR [20,21], by a group of independent experts commissioned by ExxonMobil Production Deutschland [22], on behalf of the Federal Agency for the Environment [23], on behalf of North Rhine-Westphalia [24] as well as by acatech, which is the German National Academy of Science and Engineering [25]. These technological advances could counteract an increase in the prices for oil and natural gas in the future. ...

Umweltauswirkungen von Fracking bei der Aufsuchung und Gewinnung von Erdgas aus unkonventionellen Lagerstätten - Kurzfassung

... Recently, Paulik et al. (2015) reported an increase in polycyclic aromatic hydrocarbons in air samples near UGD sites with a resultant cancer risk that exceeded the United States Environmental Protection Agency (US EPA) acceptable risk standard. The risk of water contamination has also been explored (Meiners et al., 2012;Rozell and Reaven, 2012;EPA, 2015;Krupnick, 2012) (see discussion, Chapter 4). ...

Umweltauswirkungen von Fracking bei der Aufsuchung und Gewinnung von Erdgas aus unkonventionellen Lagerstätten – Risikobewertung, Handlungsempfehlungen und Evaluierung bestehender rechtlicher Regelungen und Verwaltungsstrukturen (Langfassung)

... In some cases, human health risks have been exclusively based on data of acute toxicity (Stringfellow et al. 2014(Stringfellow et al. , 2017a. However, human risk evaluation of HF-associated processes should not be limited to the analysis of the inherent acute and chronic toxicity of chemicals in frac fluids or components of the flow-back, i.e., the hazard of the individual compounds (Stringfellow et al. 2014(Stringfellow et al. , 2017aElliott et al. 2017a, b;Wattenberg et al. 2015;Webb et al. 2014;Bergmann et al. 2014;Meiners et al. 2012a, b;Meiners 2012;Yost et al. 2016). In fact, the identification of inherent toxicity (hazard) represents a first and essential step in risk evaluation (NRC 1983(NRC , 2009Wattenberg et al. 2015). ...

Fracking in unkonventionellen Erdgas-Lagerstätten in NRW. Kurzfassung zum Gutachten „Gutachten mit Risikostudie zur Exploration und Gewinnung von Erdgas aus unkonventionellen Lagerstätten in Nordrhein-Westfalen (NRW) und deren Auswirkungen auf den Naturhaushalt insbesondere die öffentliche Trinkwasserversorgung“