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Compost bioremediation of oil sludge by using different manures under laboratory conditionsUbani, Onyedikachi 06 1900 (has links)
This study was conducted to measure the reduction in polycyclic aromatic hydrocarbons (PAHs) content in oil sludge by co-composting the sludge with pig, cow, horse and poultry manures under laboratory conditions. Four kilograms of soil spiked with 800g of oil sludge was co-composted differently with each manure in a ratio of 2:1 (w/w) spiked soil: manure and wood-chips in a ratio of 2:1 (w/v) spiked soil: wood-chips. Control was set up similar as the one above but without manure. Mixtures were incubated for 10 months at room temperature. Compost piles were turned weekly and moisture level was maintained at between 50% and 70%. Moisture level, pH, temperature, CO2 evolution and oxygen consumption were measured monthly and the ash content at the end of experimentation. Bacteria capable of utilizing PAHs were isolated, purified and characterized by molecular techniques using polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE), amplification of the 16S rDNA gene using the specific primers (16S-P1 PCR and 16S-P2 PCR) and the amplicons were sequenced. Extent of reduction of PAHs was measured using automated soxhlet extractor with Dichloromethane as the extraction solvent coupled with gas chromatography/mass spectrometry (GC/MS). Temperature did not exceed 27.5OC in all compost heaps, pH ranged from 5.5 to 7.8 and CO2 evolution was highest in poultry manure at 18.78μg/dwt/day. Microbial growth and activities were enhanced. Bacteria identified were Bacillus, Arthrobacter and Staphylococcus species. Results from PAH measurements showed reduction between 77 and 99%. The results from the control experiments may be because it was invaded by fungi. Co-composting of spiked soils with animal manures enhanced the reduction in PAHs. Interestingly, all bacteria isolated and identified in this study were present in all treatments, including the control. / Environmental Sciences / M.Sc. (Environmental Sciences)
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Stanovení organických sloučenin ve vzorcích biouhlu získaných mikrovlnou torefakcí biomasy / Determination of organic compounds in biochar produced by microwave torrefaction of biomassMeindl, Jiří January 2019 (has links)
The thesis is focused on a determination of polycyclic aromatic hydrocarbons (PAHs) contained in dried pelletized sewage sludge and pelletized biochar. Biochars were made in mild conditions by microwave torrefaction of prepared sewage sludge. There were analyzed and quantified the 34 of standardized PAHs compounds in two series. The first serie, also called “Sada 1”, has been aimed at comparison of extraction methods for the chosen sample of sewage sludge and the sample of biochar. In serie “Sada 1”, there were compared efficiencies of chosen type of solvent or solvent mixture by comparison of yields for 34 standardized analytes in a sample of biochar and a sample of sewage sludge. There were compared also to total yields of PAHs and to number of quantified compounds in analyzed samples. The most reliable extraction method has been used for the next analyses of samples in the second serie called “Sada 2”. In Sada 2, there were compared different samples of the same type (e.g. biochar, sludge). The origin of sewage sludge (small or big sewage treatment plant expressed as PE) and used additives (cellulose, chaff, hay) as modificators for torrefaction process were variables for different type of sample. The results of analysis were identification of the most suitable sewage sludge and additive to be used as modificator for microwave torrefaction process. The main goal of correctly chosen sludge and additive was to minimize production of PAH’s during torrefaction and in samples of biochar.
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Charakterizace chemického složení dehtu po zplyňování biomasy / Characterization of the chemical composition of the tar produced in the gasification of biomassMahelová, Zora January 2016 (has links)
Biomass is a renewable source of energy and represents an acceptable alternative to fosil fuels. Usable methods of energetic use of biomass are combustion and gasification. Main interest is focused on gasification in last years. Gasification is based on conversion of organic material to usable gaseous product called syngas, which can be used as a fuel for energy production. Large amount of tar is formed as a by-product of incineration and gasification of biomass. Tar is composed by various mixture of organic substances, has a negative effect on operating conditions and is a potential threat to environment. Experimental part of this study was focused on analysis of tar obtained by gasification of various kind of biomass. Selected groups of hydrocarbons and oxygen compounds were identified in analysed samples. Individual biomass samples were compared regarding to determined relative content of selected substances. Analysis was done by complete twodimensional gas chromatography with mass spectrometric detection (GCxGC/TOF-MS).
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Phytoremédiation des sols pollués par les hydrocarbures : inventaires floristiques, évaluation des performances des espèces végétales et modélisation du transfert sol-plante des HAP / Phytoremediation of hydrocarbon polluted soils : floristic surveys, assessment of plant species performances and modelling the soil-plant transfer of PAHsMatsodoum Nguemte, Pulchérie 20 May 2019 (has links)
Proposer l’adoption de la procédure de phytoremédiation des sites de déversement d’hydrocarbures au Cameroun nécessite des arguments scientifiques vérifiés. L’objectif principal de cette thèse est de (i) faire une étude floristique des sites de déversement anarchique de produits pétroliers au Cameroun, (ii) tester les potentialités de phytoremédiation de quelques espèces végétales sur des sols contaminés au fioul domestique, (iii) évaluer l’effet de différentes concentrations d’hydrocarbures sur la morpho-anatomie et la physiologie des plantes, (iv) modéliser le transfert sol-plante des HAP. Les prospections floristiques des sites de déversement d’hydrocarbures menées dans 4 villes du Cameroun ont permis d’identifier 106 espèces appartenant à 76 genres et 30 familles ; dont seules 15 espèces sont qualifiées de polluo-tolérantes. Les expérimentations ont permis de montrer que toutes les 3 espèces (C. dactylon, E. indica et A. sessilis) sont impliquées dans les processus de rhizodégradation des HCT et HAP ; E. indica and C. dactylon ayant favorisé une meilleure phytoextraction de quelques HAP comparé à A. sessilis. La modélisation mécaniste du transfert sol-plante des HAP a confirmé ces observations. La tolérance aux HAP est plus accrue chez E. indica et C. dactylon par rapport à A. sessilis. La culture mixte de E. indica et C. dactylon est très impactée par les HAP. En culture seule, le ralentissement des processus physiologiques de C. dactylon dans les sols pollués n’a pas d’impacts majeurs sur ses capacités phytoremédiatrices. Ceci permet donc de recommander C. dactylon pour la gestion durable des sols pollués par les hydrocarbures dans le monde entier en général, et au Cameroun en particulier ; pour des pollutions de sols n’excédant pas 33500 ppm. / To propose the implementation of phytoremediation process to clean up oil spill sites in Cameroon requires verified scientific arguments. The main objective of this thesis is to (i) carry out a floristic study of anarchic oil spill sites in Cameroon, (ii) test the phytoremediation potential of some plant species in soils contaminated with fuel oil, (iii) evaluate the effect of different hydrocarbon concentrations on morpho-anatomy and plant physiology, (iv) modelling the soil-plant transfer of PAHs. Floristic surveys of oil spill sites carried out in 4 Cameroonian cities have identified 106 species belonging to 76 genera and 30 families; amoung which 15 species are qualified as polluo-tolerant. Experiments have shown that the (C. dactylon, E. indica and A. sessilis) are involved into rhizodegradation of TPHs and PAHs; E. indica and C. dactylon having promoted a better phytoextraction of some PAHs compared to A. sessilis. Mechanistic modelling of the soil-plant transfer of PAHs confirmed these observations. Tolerance to PAHs is higher for both E. indica and C. dactylon than A. sessilis. The mixed cropping of E. indica and C. dactylon is highly impacted by PAHs. Cropping alone, the slowing down of C. dactylon's physiological processes in polluted soils does not have a significant impact on its phytoremediation potentialities. This makes it possible to recommend C. dactylon in the sustainable management of hydrocarbon-polluted soils worldwide in general, and particularly in Cameroon; for soil pollution not exceeding 33500 ppm.
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Assessment of Pollution Levels Resulting from Biomass GasificationMenya, Emmanuel January 2012 (has links)
Today the large scale introduction of biomass gasification is hampered by health, safety and environmental issues which present a major barrier in the deployment of this technology. The condensate in particular resulting from producer gas cooling before use in gas engines is highly toxic and carcinogenic which, if not adequately controlled, can lead to detrimental impacts on human health and the environment. The study was therefore aimed at assessment of pollution levels resulting from biomass gasification organic condensates. The study involved assessing the concentration of polycyclic aromatic hydrocarbons (PAHs) and BTEX (i.e. benzene, toluene, ethylbenzene and xylene) in the condensate deemed toxic and carcinogenic, mention their impact on human health and the environment as well as recommend measures aimed at minimizing pollution levels resulting from biomass gasification. The gasifier installation at Makerere University was run in downdraft mode using maize cobs as biomass fuel. The producer gas was cooled using a water cooled condenser connected to the exhaust pipe of the gasifier. The condensate was then transferred into sampling bottles made of opaque glass to minimize photochemical reactions in water samples and preserved in a cooler at 2oC to 6oC until the time for analysis to minimize volatilization and bacterial degradation of the hydrocarbons. The capillary gas chromatography with mass spectrometric detector (CGCMSD) was used to analyze the condensate for the selected hydrocarbons. The procedures involved preparation of PAHs and BTEX standard solutions using standard mixtures and internal standards, calibration of the CGCMSD, extraction of the aromatic hydrocarbons using hexane, performing a surrogate analysis to assess percent recoveries and injecting a 2 µl aliquot of the final solution of each test sample in a CGCMSD for analysis. Identification of targeted hydrocarbons was based on the retention time match and mass spectra match against the calibration standards while quantitation was done by use of internal standards. The average concentration of naphthalene was 204.3 mg/m3, benzene-16.8 mg/m3,toluene-105.5 mg/m3, ethylbenzene-200.9 mg/m3, 1,2-dimethyl benzene-209.5 mg/m3 and 1,3+1,4-dimethyl benzene-790.4 mg/m3. Acenaphthylene, acenaphthene, fluorene, phenanthrene and anthracene were not detected in the condensate by the CGCMSD due to their concentration levels being below the detection limit of the CGCMSD. The concentrations of naphthalene and xylene were considerably high compared to the recommended permissible exposure limits thus posing risks on both human health and the environment. It is therefore important to treat the condensate before disposal to the environment. On the other hand, the concentrations of benzene, toluene and ethylbenzene were below the permissible exposure limit and therefore for this study, the liquid effluent was considered to meet the regulatory standards. The recommendations aimed at minimizing pollution levels during biomass gasification were also discussed.
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Predictive Modeling of Organic Pollutant Leaching and Transport Behavior at the Lysimeter and Field ScalesAmankwah, Edward Akwasi 08 October 2007 (has links)
Soil and groundwater pollution has become a global issue since the advent of industrialization and mechanized agriculture. Some contaminants such as PAHs may persist in the subsurface for decades and centuries. In a bid to address these issues, protection of groundwater must be based on the quantification of potential threats to pollution at the subsurface which is often inaccessible. Risk assessment of groundwater pollution may however be strongly supported by applying process-based simulation models, which turn out to be particularly helpful with regard to long-term predictions, which cannot be undertaken by experiments. Such reliable predictions, however, can only be achieved if the used modeling tool is known to be applicable. The aim of this work was threefold. First, a source strength function was developed to describe the leaching behavior of point source organic contaminants and thereby acting as a time-dependent upper boundary condition for transport models. For general application of these functions dimensionless numbers known as Damköhler numbers were used to characterize the reaction of the pollutants with the solid matrix. Two functions were derived and have been incorporated into an Excel worksheet to act as a practical aid in the quantification of leaching behavior of organic contaminant in seepage water prognoses. Second, the process based model tool SMART, which is well validated for laboratory scale data, was applied to lysimeter scale data from two research centres, FZJ (Jülich) and GSF (München) for long term predictions. Results from pure forward model runs show a fairly good correlation with the measured data. Finally, the derived source term functions in combination with the SMART model were used to assess groundwater vulnerability beneath a typical landfill at Kwabenya in Ghana. The predicted breakthrough time after leaking from the landfill was more than 200 years considering the operational time of the facility (30 years). Considering contaminant degradation, the landfill would therefore not cause groundwater pollution under the simulated scenarios and the SMART model can be used to establish waste acceptance criteria for organic contaminants in the landfill at Kwabenya / Seit dem Beginn der Industrialisierung und der mechanisierten Landwirtschaft wurde die Boden- und Grundwasserverschmutzung zu einem weltweiten Problem. Einige Schadstoffe wie z. B. PAK können für Jahrzehnte oder Jahrhunderte im Untergrund bestehen. Um diese Probleme behandeln zu können, muss der Schutz des Grundwassers basierend auf der Quantifizierung potentieller Gefährdungen des zumeist unzugänglichen Untergrundes erfolgen. Risikoabschätzungen von Grundwasserverschmutzungen können jedoch durch die Anwendung prozess-basierter Simulationsmodelle erheblich unterstützt werden, die sich besonders im Hinblick auf Langzeitvorhersagen als hilfreich erweisen und nicht experimentell ermittelbar sind. Derart zuverlässige Vorhersagen können jedoch nur erhalten werden, wenn das verwendete Modellierwerkzeug als anwendbar bekannt ist. Das Ziel dieser Arbeit bestand aus drei Teilen. Erstens wurde eine Quellstärke-funktion entwickelt, die das Ausbreitungsverhalten organischer Schadstoffe aus einer Punktquelle beschreibt und dadurch als zeitabhängige obere Randbedingung bei Transportmodellen dienen kann. Im Hinblick auf die allgemeine Anwendbarkeit dieser Funktion werden als Damköhler-Zahlen bekannte, dimensionslose Zahlen verwendet, um die Reaktion von Schadstoffen mit Feststoffen zu charakterisieren. Zwei Funktionen wurden abgeleitet und in ein Excel-Arbeitsblatt eingefügt, das ein praktisches Hilfsmittel bei der Quantifizierung des Freisetzungsverhaltens organischer Schadstoffe im Rahmen der Sickerwasserprognose darstellt. Der zweite Teil dieser Arbeit beinhaltet die Anwendung des prozessbasierten und mittels Laborexperimenten validierten Modellwerkzeugs SMART für Langzeitprognosen auf der Lysimeterskala anhand von Daten zweier Forschungszentren, FZJ (Jülich) und GSF (München). Ergebnisse reiner Vorwärtsmodellierungsläufe zeigten gute Übereinstimmungen mit den gemessenen Daten. Im dritten Teil wurden die erhaltenen Quellstärkefunktionen in Kombination mit dem SMART-Modell eingesetzt, um das Grundwassergefährdungspotential unter einer typischen Deponie in Kwabenya, Ghana, einzuschätzen. Die vorhergesagten Durchbruchszeiten nach einer Leckage in der Deponie betragen über 200 Jahre bei einer Betriebszeit von 30 Jahren. Unter Berücksichtigung des Schadstoffabbaus verursacht die Deponie somit keine Grundwasserverunreinigung im Rahmen der simulierten Szenarien und das SMART-Modell kann verwendet werden, um Schadstoffgrenzwerte für organische Schadstoffe in der Deponie in Kwabenya festzulegen.
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Natural Revegetation of an Aged Petroleum Landfarm Impacted With Polycyclic Aromatic Hydrocarbons (PAHs) and Heavy Metals (Cr, Pb, Zn, Ni, Cu): Ecological Restoration, Remediation, and RiskHenry, Heather Fort January 2004 (has links)
No description available.
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Molécules et nanoparticules aromatiques du milieu interstellaire : production et caractérisation au laboratoire / Aromatic molecules and nanoparticles in the interstellar medium : production and characterization in the laboratoryFeraud, Géraldine 09 November 2012 (has links)
Ce travail de thèse traite d'expériences d'astrophysique de laboratoire sur des matériaux aromatiques, étudiés pour la plupart dans des conditions proches de celles rencontrées dans les milieux interstellaire et circumstellaire, comprenant rayons cosmiques et irradiations UV. Ces dernières sont à l’origine de bandes d'émission dans l'infrarouge moyen, dont les porteurs supposés sont principalement les Hydrocarbures Aromatiques Polycycliques (PAHs) et les nanoparticules aromatiques. Un nouveau spectromètre, FIREFLY (Fluorescence in the InfraRed from Excited FLYing molecules), contenant une réplique des filtres circulaires variables à bord de l'instrument ISOCAM du satellite ISO, a été mis au point et caractérisé au cours de cette thèse. Cet instrument a permis de mesurer la désexcitation infrarouge dans la région des modes d'élongations CH (3.3 µm, soit 3000 cm-1) des dérivés du benzène et du naphtalène à température ambiante, suite à l’absorption d'un photon UV. Ceci montre, avec l’appui de la modélisation, que la spectroscopie d’émission IR est un outil puissant permettant de comprendre les effets d'anharmonicité liés à l'énergie interne, l’isomérisation voire même la dynamique intramoléculaire non-adiabatique, au travers de la spectroscopie d'excitation de fluorescence infrarouge (une nouvelle technique). Ce travail est préliminaire à la future mesure de fluorescence infrarouge de nanoparticules aromatiques en phase gazeuse et à basse température produites par une flamme basse pression, dans le but de comparer les spectres de laboratoire avec les observations astrophysiques. Le dépôt d'énergie par les rayons cosmiques a été étudié grâce à une autre expérience, l'irradiation ionique d'analogues de poussières interstellaires et circumstellaires (suies produites par la flamme basse pression), mettant en évidence une réorganisation chimique. Les suies sont caractérisées par différents diagnostics complémentaires tels que la Microscopie Electronique en Transmission à Haute Résolution et les spectroscopies infrarouge à Transformée de Fourier et Raman. L'ensemble des informations tirées permet de mieux cerner la nanostructuration des analogues et ainsi mieux identifier les différentes signatures spectrales astrophysiques (interprétation de la bande à 7.7 µm comme une bande de défauts). Grâce à ces expériences, nous espérons améliorer notre compréhension de la structure, croissance et évolution de la poussière, d'un point de vue astrophysique. / The work presented in this thesis deals with laboratory astrophysics experiments of aromatic compounds, mostly studied in conditions similar to those encountered in interstellar and circumstellar environments, including cosmic rays and UV irradiations. These are the source of mid-infrared emission bands whose carriers are supposed to be composed mainly of Polycyclic Aromatic Hydrocarbons (PAHs) and aromatic nanoparticles.A new spectrometer, FIREFLY (Fluorescence in the InfraRed from Excited FLYing molecules), containing a replica of the circular variable filters of the ISOCAM instrument on-board the ISO satellite, was developed and characterized in this thesis. This instrument was used to measure the infrared de-excitation in the CH stretching mode region (3.3 µm or 3000 cm-1) from benzene derivatives and from naphthalene at room temperature, following the absorption of a single UV photon. With the support of modelling, IR emission spectroscopy is a powerful tool for understanding the effects of anharmonicity related to the internal energy, isomerization and also the non-adiabatic intramolecular dynamics through the new technique of IR fluorescence excitation spectroscopy. This work is preliminary to the infrared fluorescence measurement of low-temperature gas phase aromatic nanoparticles produced by a low pressure flame, in order to compare the laboratory spectra with astrophysical observations.Cosmic-ray energy deposition has been studied with another experiment: the ionic irradiation of interstellar and circumstellar dust analogues (soot produced by the low pressure flame) highlights a chemical reorganization. Soot is characterized by complementary diagnostics such as High Resolution Transmission Electron Microscopy, Fourier Transform Infrared spectroscopy and Raman spectroscopy. The results help identify the analogue nanostructures and better identify the astrophysical spectral signatures (interpretation of the 7.7 µm band as a defect band). Through these experiences, we hope to improve our understanding of the structure, growth and evolution of the dust, in the astrophysical context.
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Analysis of PAHs and their transformations products in contaminated soil and remedial processesLundstedt, Staffan January 2003 (has links)
Soil that is heavily contaminated with polycyclic aromatic hydrocarbons (PAHs) is often found at the sites of former gasworks and wood-impregnation plants. Since PAHs are toxic these sites represent a hazard to human health and the environment, and therefore they need to be treated, preferably by a method that destroys the contaminants, and thus eliminates the problem permanently. However, during biological and chemical degradation of PAHs other toxic compounds may be formed. If these transformation products are sufficiently persistent they could potentially accumulate during remedial processes. In the work underlying this thesis the degradation and transformation of PAHs were studied in three remedial processes: viz. a pilot-scale bioslurry reactor, microcosms with wood-rotting fungi and lab-scale treatments with Fenton's reagent. A group of transformation products referred to as oxygenated-PAHs (oxy-PAHs) was found to be particularly important, as these compounds are toxic and were shown to be relatively persistent in the environment. The oxy- PAHs were, for instance, found at significant concentrations in the gasworks soil used in most of the studies. This soil was highly weathered and had therefore been depleted of the more readily degradable compounds. In addition, experiments in which earthworms were exposed to the gasworks soil showed that the oxy-PAHs were more easily taken up in living organisms than PAHs. To facilitate the studies, new extraction and fractionation methods were developed. For instance, pressurized liquid extraction (PLE) was investigated for its reliability and efficiency to extract PAHs and oxy-PAHs from soil. Furthermore, a selective PLE-method was developed that can simultaneously extract and separate the PAHs and oxy-PAHs into two different fractions. This was accomplished by adding a chromatographic material (silica or Florisil) to the extraction cell. Under certain conditions all three remedial processes resulted in increasing amounts of oxy- PAHs in the soil. For example, 1-acenaphthenone and 4-oxapyrene-5-one accumulated in the bioslurry reactor. Similarly, in the soil inoculated with a white-rot fungus 9-fluorenone, benzo[a]anthracene-7,12-dione, 4-hydroxy-9-fluorenone and 4-oxapyrene-5-one accumulated. Finally, in an ethanol-Fenton treatment the concentration of some PAH-quinones increased in the soil. The results show that it might be necessary to monitor oxy-PAHs as well as PAHs during the remediation of PAH-contaminated sites. Otherwise, the soil may be considered detoxified too early in the process. In the long term it would be desirable to include analyses with sufficient marker compounds to follow the possible production and elimination of the oxy-PAHs. However, until such compounds can be identified it is suggested that contaminated soil should be screened for oxy-PAHs in general. The selective PLE-method presented in this thesis could be a useful tool for this.
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Growth of unsaturated, cyclic, and polycyclic aromatic hydrocarbons: Reactions under the conditions of the interstellar medium / Wachstum ungesättigter, zyklischer und polyzyklischer aromatischer Kohlenwasserstoffe: Reaktionen unter den Bedingungen des interstellaren RaumesBarthel, Robert 26 March 2009 (has links) (PDF)
Hydrocarbons, in particular polycyclic aromatic hydrocarbons (PAHs), have been long discussed to be carriers of interstellar infrared (IR) emission and ultraviolet (UV) absorption features. Yet, their origin in dense phases of the interstellar medium (ISM), such as molecular clouds, remains unclear. In this work, growth mechanisms based on ion-molecule reactions between cationic PAHs/hydrocarbons and methyne (CH) were investigated. The reaction type and the precursor were derived and selected from known chemical and physical properties of the ISM. These chemical reactions were characterised by calculating branching ratios (based on cross sections) and capture rate coefficients, minimum reaction paths, reaction enthalpies, thermal equilibrium constants, and microcanonic isomerisation and radiative deactivation rate coefficients. In order to cope with the variety of reaction parameters, a hierarchic workflow scheme was set up. First, the reaction potential energy surface was sampled by molecular dynamics simulations. Then, minimum energy paths of the most probable reaction channels were investigated. Finally, molecular and kinetic properties of stationary points were calculated. The quantum chemical level of theory was increased at each step from DFTB (tight-binding density-functional), to DFT, and finally to post-Hartree-Fock methods. Results on CH based hydrocarbon growth showed the transition from non-cyclic hydrocarbons to cyclic and aromatic structures and from cyclic to polycyclic aromatic hydrocarbons. Additionally, the reactive collisions between hydrocarbons and CH were found to produce sufficient energy for isomerisation and fragmentation processes even at ultra low temperatures. In all, the results indicate that methyne might be a proper precursor for the formation of large interstellar PAHs. / Kohlenwasserstoffe, insbesondere polyzyklische Kohlenwasserstoffe (engl. PAHs), werden seit einigen Jahren als Mitverursacher interstellar IR-Emissions- und UV-Absorptionsbanden angesehen und diskutiert. Dabei ist die Herkunft dieser Moleküle in den dichten Phasen des interstellaren Mediums (ISM) aber noch nicht aufgeklärt. In dieser Arbeit wurden daher die Bildungsmechanismen, welche auf Ion-Molekül-Reaktionen zwischen kationischen PAHs und Kohlenwasserstoffen und dem Molekül CH beruhen, untersucht. Sowohl der Reaktionstyp als auch der Präkursor wurden anhand von bekannten physikalischen und chemischen Eigenschaften des ISM abgeleitet und ausgewählt. Die Analyse der chemischen Reaktionen basierte auf Berechnungen zur Produktzusammensetzung und Einfangsratenkoeffizienten (welche wiederum aus berechneten Reaktionsquerschnitten hervorgingen) Minimumenergiepfade (MEP), Reaktionsenthalpien, thermische Gleichgewichtskonstanten und mikrokanonische Isomerisierungs- und Strahlungsdeaktivierungs-Ratenkoeffizienten. Um der Vielzahl an Reaktionsparameter gerecht zu werden, wurden die Berechnungsmethoden entsprechend eines hierarischen Fließschemas kombiniert. Hierzu wurden zuerst durch Molekulardynamik-Simulationen die Reaktionspotentialenergieflächen abgerastert. Auf der nächsten Stufe wurden statistisch bedeutsame Reaktionskanäle bezüglich ihrer Minimumenergiepfade untersucht. Den Abschluss bildete die Berechnung molekularer und kinetischer Charakteristika stationärer Punkte auf einem MEP. Entsprechend dieses Schemas wurde die quantenchemische Genauigkeit auf jeder Stufe von approximativer DFT über DFT zu post-Hartree-Fock verändert. Die Ergebnisse des CH-basierten Kohlenwasserstoffwachstums zeigten einen Übergang von nichtzyklischen zu zyklischen and aromatischen Strukturen, sowie von zyklischen zu polyzyklischen Kohlenwasserstoffen. Außerdem zeigte sich, dass reaktive Kollisionen zwischen Kohlenwasserstoffen und CH auch bei Tiefsttemperaturen immer ausreichend Energie für Isomerisierungs- und Fragmentationsprozesse liefert. Die Ergebnisse dieser Arbeit lassen den Schluss zu, dass CH ein geeigneter Präkursor für die Bildung großer interstellarer PAH ist.
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