porensystem – English Translation – Keybot Dictionary

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Unmittelbar nach der Operation dringen Zellen in das interkonnektierende Porensystem ein, wo sie sich anheften, vermehren und differenzieren. 6
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Immediately after the surgery, cells enter the interconnected network of pores, where they can attach, proliferate, and differentiate.6
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Saugsonden werden für die zerstörungsfreie Entnahme von Wasser aus dem Porensystem des Bodens eingesetzt. Der wesentliche Bestandteil der Saugsonde ist die poröse Saugkerze, die zur Probengewinnung in direkten Kontakt mit dem Boden gebracht wird.
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Suction probes are used for the non-destructive removal of soil water from the pore system of the soil. The essential part of the suction probe is the porous suction cup that has to be brought into direct contact with the surrounding soil to remove water from the pore system. By applying a vacuum, the water is sucked from the surrounding soil through the pores of the cup into the interior of the suction probe and then into a sample vessel. As long as the pores of the porous cup are water filled, they are airtight and thus only water can be transported via the pores.
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Eine weitere Voraussetzung für die korrekte Funktion von Tensiometern ist der korrekte Einbau. Der poröse Körper muss guten Kontakt zum Boden haben, damit das Porensystem des Bodens und des porösen Körpers in Verbindung stehen.
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A further prerequisite for the correct function of tensiometers is the correct installation. The porous part has to be in good contact with the soil in order for the pore system of the soil and of the porous part to be connected. Tensiometers should be installed in wet soil if possible. For installation with predrilling, the diameter of the bore hole has to be slightly smaller than the diameter of the porous part. If the porous part is a ceramic, the mechanical force on the ceramic has to be kept as low as possible. Obstacles, such as stones in the soil, can lead to cracks or fractures in the ceramic, so that the system is no longer airtight and therefore no longer functional. Detailed and Tensiometer-specific information about the installation and maintenance of the tensiometers can be found in the respective operator`s manuals.
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Die Abbaustimulation kann durch Injektion der Nanopartikel am Schadensherd oder in der Schadstofffahne erfolgen. Aufgrund ihrer Größe im Nanometerbereich und ihrer Suspendierbarkeit werden die Eisenoxid-Nanopartikel weitestgehend im gleichen Porensystem wie die Schadstoffe transportiert.
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Aim of the project that is funded by the German Ministry of Education and Research (BMBF) is a new technology for a biological in situ remediation of benzine and creosote contamination in groundwater. Specific iron-oxide-nanoparticles (iron-oxide-NP) are applied to stimulate the biological metabolization of contaminants.Experiments at the Institute of Groundwater Ecology (HMGU) showed that iron-oxide-NP are able to strongly stimulate the microbial iron-reduction. This was shown in small-scale static experiments, however, also in larger-scale column experiments. It is assumed that the nanoparticles have a shuttle function between the external membrane of the microorganisms and the inert, ferreous surface of the matrix, thus stimulating the degradation. This catalytic activation will be developed for the application in remediation actions.In contaminated aquifers the potential of natural purification by microorganisms can often not by used, because the abundant electron acceptor iron(III) is present as solid phase or coating of minerals and thus simply not bioavailable. By adding a readily bioavailable iron(III) surface, in form of parametrically defined and ecotoxicologically assessed iron-oxid-NP, this project wants to carry out and validate an innovative in situ remediation on site.The stimulation of the decontamination will take place by injecting the nanoparticles at the source or the plume of contamination. Due to the nano-size and the ability to suspend in water, the iron-oxide-NP partition in the same pore system as the contaminants. Their mobility is dependent on their surface characteristics and the environmental conditions, that influence agglomeration, coagulation and (re)dispersion. The success of remediation will be proofed using innovative isotope methods and evaluated in terms of cost effectiveness. In principle, the new remediation technology is considerably more (cost) efficient, environmentally sound and sustainable compared to conventional techniques (e.g. pump-and-treat; H2O2-Injection).
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Die Abbaustimulation kann durch Injektion der Nanopartikel am Schadensherd oder in der Schadstofffahne erfolgen. Aufgrund ihrer Größe im Nanometerbereich und ihrer Suspendierbarkeit werden die Eisenoxid-Nanopartikel weitestgehend im gleichen Porensystem wie die Schadstoffe transportiert.
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Aim of the project that is funded by the German Ministry of Education and Research (BMBF) is a new technology for a biological in situ remediation of benzine and creosote contamination in groundwater. Specific iron-oxide-nanoparticles (iron-oxide-NP) are applied to stimulate the biological metabolization of contaminants.Experiments at the Institute of Groundwater Ecology (HMGU) showed that iron-oxide-NP are able to strongly stimulate the microbial iron-reduction. This was shown in small-scale static experiments, however, also in larger-scale column experiments. It is assumed that the nanoparticles have a shuttle function between the external membrane of the microorganisms and the inert, ferreous surface of the matrix, thus stimulating the degradation. This catalytic activation will be developed for the application in remediation actions.In contaminated aquifers the potential of natural purification by microorganisms can often not by used, because the abundant electron acceptor iron(III) is present as solid phase or coating of minerals and thus simply not bioavailable. By adding a readily bioavailable iron(III) surface, in form of parametrically defined and ecotoxicologically assessed iron-oxid-NP, this project wants to carry out and validate an innovative in situ remediation on site.The stimulation of the decontamination will take place by injecting the nanoparticles at the source or the plume of contamination. Due to the nano-size and the ability to suspend in water, the iron-oxide-NP partition in the same pore system as the contaminants. Their mobility is dependent on their surface characteristics and the environmental conditions, that influence agglomeration, coagulation and (re)dispersion. The success of remediation will be proofed using innovative isotope methods and evaluated in terms of cost effectiveness. In principle, the new remediation technology is considerably more (cost) efficient, environmentally sound and sustainable compared to conventional techniques (e.g. pump-and-treat; H2O2-Injection).