Global ETD Search

211	Design and Operation of Multistage Flash (MSF) Desalination: Advanced Control Strategies and Impact of Fouling. Design operation and control of multistage flash desalination processes: dynamic modelling of fouling, effect of non-condensable gases on venting system design and implementation of GMC and fuzzy control Alsadaie, Salih M.M. January 2017 (has links) The rapid increase in the demand on fresh water due the increase in the world population and scarcity of natural water puts more stress on the desalination industrial sector to install more desalination plants around the world. Among these desalination plants, multistage flash desalination process (MSF) is considered to be the most reliable technique of producing potable water from saline water. In recent years, however, the MSF process is confronting many problems to cut off the cost and increase its performance. Among these problems are the non-condensable gases (NCGs) and the accumulation of fouling which they work as heat insulation materials. As a result, the MSF pumps and the heat transfer equipment are overdesigned and consequently increase the capital cost and decrease the performance of the plants. Moreover, improved process control is a cost effective approach to energy conservation and increased process profitability. Thus, this study is motivated by the real absence of detailed kinetic fouling model and implementation of advance process control (APC). To accomplish the above tasks, commercial modelling tools can be utilized to model and simulate MSF process taking into account the NCGs and fouling effect, and optimum control strategy. In this research, gPROMS (general PROcess Modeling System) model builder has been used to develop the MSF process model. First, a dynamic mathematical model of MSF is developed based on the basic laws of mass balance, energy balance and heat transfer. Physical and thermodynamic properties of brine, distillate and water vapour are included to support the model. The model simulation results are validated against actual plant data published in the literature and good agreement with these data is obtained. Second, the design of venting system in MSF plant and the effect of NCGs on the overall heat transfer coefficient (OHTC) are studied. The release rate of NCGs is studied using Henry’s law and the locations of venting points are optimised. The results reveal that high concentration of NCGs heavily affects the OHTC. Furthermore, advance control strategy namely: generic model control (GMC) is designed and introduced to the MSF process to control and track the set points of the two most important variables in the MSF plant; namely the Top Brine Temperature (TBT) which is the output temperature of the brine heater and the Brine Level (BL) in the last stage. The results are compared to conventional Proportional Integral Derivative Controller (PID) and show that GMC controller provides better performance over conventional PID controller to handle a nonlinear system. In addition, a new control strategy called hybrid Fuzzy-GMC is developed and implemented to control the same aforementioned loops. Its results reveal that the new control outperforms the pure GMC in some areas. Finally, a dynamic fouling model is developed and incorporated into the MSF dynamic process model to predict fouling at high temperature and high velocity. The proposed dynamic model considers the attachment and removal mechanisms of calcium carbonate and magnesium hydroxide with more relaxation of the assumptions. Since the MSF plant stages work as a series of heat exchangers, there is a continuous change of temperature, heat flux and salinity of the seawater. The proposed model predicts the behaviour of fouling based on the physical and thermal conditions of every single stage of the plant. Dynamic model Fouling model Calcium carbonate (CaCO3) Magnesium hydroxide (Mg(OH)2) Generic model control (GMC) general PROcess Modeling System (gPROMS) Hybrid fuzzy-GMC Noncondensable gases (NCGs)
212	Unsicherheitsbilanzen in der quantitativen FT-IR-Spektroskopie Yozgatli, Hakan Peter 22 May 2002 (has links) Die Unsicherheit analytischer Ergebnisse lässt Rückschlüsse auf die Zuverlässigkeit der angewandten Analyseverfahren zu. Entsprechend den Qualitätsanforderungen an akkreditierte Prüf- und Kalibrierlaboratorien (siehe u.a. Norm ISO/IEC 17025) ist daher die Angabe der Messunsicherheit erforderlich. Zur Ermittlung der Messunsicherheit typischer FT-IR-spektroskopischer Analysen von Feststoffen und Flüssigkeiten wurde eine systematische Untersuchung des Einflusses zahlreicher FT-, proben- und gerätespezifischer Parameter auf den Messwert durchgeführt. Die Überprüfung der Ordinatenrichtigkeit bei FT-IR-spektroskopischen Messungen an Gläsern erfolgte mit Hilfe eines Transmissionsstandards des National Physical Laboratory (NPL), der aus einem Schott NG11 Neutralglasfilter besteht, und bei Messungen an Flüssigkeiten durch Vergleich der nach einem Absolutverfahren bestimmten Extinktionskoeffizienten des Dichlormethans mit von der IUPAC publizierten Standardwerten. Nach Optimierung der Messbedingungen stimmen die Transmissionswerte des NPL-Standards und die Extinktionskoeffizienten des Dichlormethans mit den entsprechenden Standardwerten überein. Die für die Bestimmung dieser Messgrößen aufgestellten Unsicherheitsbilanzen gestatten die quantitative Abschätzung des Einflusses einzelner Parameter auf die Gesamtunsicherheit. Bei Anwendung der KBr-Presstechnik für die quantitative Analyse von unlöslichen Feststoffen haben die Partikelgröße des Analyten und die Homogenität der Presslinge einen dominierenden Einfluss auf die Qualität der Spektren. Um die Unsicherheit zu minimieren, die auf dem Einfluss der Partikelgröße beruht, muss es ein Ziel der Probenvorbereitung sein, dass die Partikeldurchmesser der Kalibriersubstanz und des Analyten einen Wert von ca. 2 µm nicht überschreiten und möglichst gleich groß sind. Bei Untersuchungen mit Calciumcarbonat-Proben unterschiedlicher Partikeldurchmesser hat sich die Halbwertsbreite der auszuwertenden Bande, die mit der Partikelgröße korreliert, als ein geeignetes Maß für die Beurteilung erwiesen, wie gut letztere Bedingung erfüllt ist. Eine inhomogene Verteilung der absorbierenden Partikel im Pressling kann durch Durchstrahlen der gesamten Oberfläche des Presslings oder durch Mitteln der an verschiedenen Positionen des Presslings gemessenen Spektren berücksichtigt werden. Diese Arbeiten zeigen, dass die Anwendung der KBr-Presstechnik bei sorgfältiger Probenvorbereitung und Einhaltung optimaler Messbedingungen im Rahmen der Messunsicherheit zu richtigen Ergebnissen führt. / The uncertainty of analytical results allows to assess the reliability of the applied analytical methods. According to quality requirements for accredited laboratories (see e.g. ISO/IEC 17025) it is necessary to report the uncertainty of measurement. In order to evaluate the uncertainty of typical quantitative FT-IR spectroscopic analysis of solids and liquids a detailed study of the influence of numerous FT-, sample- and instrument-specific parameters on the measurand was performed. The trueness of FT-IR spectroscopic measurements on glasses was tested with a transmittance standard of the National Physical Laboratory (NPL) that consists of a Schott NG11 neutral density filter. The trueness of FT-IR spectroscopic measurements on liquids was checked by the comparison of the molar absorptivities of dichloromethane determined by transmission measurements with the standard values published by IUPAC. After optimisation of the measurement conditions the transmittance values of the NPL standard and the molar absorptivities of dichloromethane are in accordance with the corresponding standard values. The uncertainty budgets evaluated for these measurends makes it possible to assess the contribution of a single parameter on the combined uncertainty. By using the KBr pressed pellet technique for the quantitative analysis of insoluble solids the particle size of the analyte and the homogeneity of the pellets are the major contributions to the quality of spectra. In order to minimize the uncertainty due to the particle size a purpose of the sample preparation must be to reduce the particle sizes of the calibration sample and the analyte to a maximum size of 2 µm and both particle sizes should agree. A detailed study with calcium carbonate samples with different mean particle sizes has shown that the half-width of the analysed band depends on the particle size and is suitable to test how far the last mentioned condition is fulfilled. In order to minimize the uncertainty due to an inhomogeneous distribution of the absorbing particles in the pellets the infrared beam must pass through the whole surface area of a pellet or the mean value of the spectra measured at different positions on the surface area has to be evaluated. This work proves that the use of the pressed pellet technique can lead to correct results within the limits of the uncertainty if the sample preparation is carried out carefully and optimal measurement conditions are kept. FT-IR-Spektroskopie Messunsicherheit Transmissionsstandards molare Extinktionskoeffizienten Schott NG11 Neutralglasfilter Dichlormethan Calciumcarbonat FT-IR spectroscopy uncertainty transmittance standards molar absorptivity Schott NG11 neutral density filter dichloromethane calcium carbonate 30 Chemie VG 9207 ddc:540
213	Ocean acidification effects on marine organisms : a study of Littorina littorea and Balanus improvisus Domeij Hilliges, Isak, Stendahl, Cecilia January 2011 (has links) The world’s oceans are becoming more acid in a process called ocean acidification. The pH of the ocean have already decreased by 0.1 units from pre-industrial time until today. Scientists predict that by the year of 2100 the pH will decrease by as much as 0.4 units. This is a big potential problem to many marine species, because they have developed in such a stable environment that has not changed for millions of years. It is difficult to predict how they might be affected by such a decrease in pH during a relatively short time period. Several studies have been made on marine species exposed to decreased pH-levels, the results showed changes in their physiology but it is hard to predict how these changes will affect the organism in a long-term scale and if this might change ecosystem dynamics. Our study measured the activity of Littorina littorea and Balanus improvisus when exposed to lower pH, the results of our study showed an increase in activity for the lower pH (pH 6.0-7.5) when compared to the control (~pH8). The area of ocean acidification is a field that requires further studies to fully understand its effects on the marine ecosystems and the species within it. ocean accidification accidification pH sea marine organism marine littorina littorea balanus improvisus periwinkle barnacle CO2 acid ecosystem activity cirral movement calcium carbonate system buffering low pH havsförsurning försurning pH hav marina organismer marin littorina littorea balanus improvisus havstulpan strandsnäcka CO2 surt ekosystem aktivitet cirrala rörelser buffrande lågt pH
214	Reactive replacement and addition of cations in bioclastic silica and calcite Allan, Shawn Michael 05 May 2005 (has links) Numerous organisms produce ornately detailed inorganic structures (often known as shells) with features on length scales from 50 nm to several centimeters. One class of such organisms are the diatoms; microscopic algae that form silica frustules. Another group of algae, the coccolithophorids, produce similar calcium carbonate structures. Over 100,000 species comprise these two classes of algae, every one of which is endowed with a unique cytoskeleton structure. Using various types of displacement reactions, the chemistry of the original structure can be modified to produce a new material. Magnesium vapor has been found to displace the silicon in diatom frustules to yield an MgO structure. The conversion has been reported at temperatures from 650°C to 900°C. In the current work, the conversion and processing of silica frustules to MgO was examined in depth. The effect of reaction temperature on grain size and extent of conversion was evaluated. With the goal of obtaining high purity MgO structures, various methods for removing the silicon products of reaction were investigated. Wet chemistry and high temperature vapor etches were evaluated. The MgO reaction served as an intermediate step in the production of magnesium tungstate diatoms, which were imbued with photoluminescent properties. Reactions were identified to allow the conversion of calcium carbonate (calcite) structures to alternative chemistries. Calcite sand-dollars were converted to calcium tungstate or calcium molybdate by aqueous solution chemistry. In this process, sand dollar tests (shells) and coccolithophore frustules were reacted with ammonium para-molybdate or ammonium para-tungstate. The reactions were evaluated for shape preservation, phase purity, and photoluminescence of the structures. Self-replication Phosphor Diatom Coccolithophore Shape-preserving reaction Magnesium tungstate Silicon etching Displacement reactions Calcium molybdate Calcium tungstate Magnesium Mangesium oxide Chlorine etching X-ray diffraction Bioclastic Fluorescence Bio mineral Scanning electron microscopy Calcite Cations Substitution reactions Silicates Calcium carbonate Nanostructured materials Synthesis Biotechnological microorganisms Diatoms Microstructure Ammonium Photoluminescence
215	Investigation of Graphene Oxide Based Multilayered Capsules/Films for Drugs Delivery And Antimicrobial Applications Kurapati, Rajendra January 2013 (has links) (PDF) Polyelectrolyte multilayer capsules fabricated by layer-by-layer (LbL) self-assembly technique consistsing of core-shell structure have emerged as potential drug delivery systems along with their applications in micro-reactors, cosmetics, vaccines and antimicrobial coatings. Various ligands and stimuli responsive entities can be incorporated into the core and shell of the capsules for targeted delivery and/or controlled release applications. Though multilayer capsules have been studied extensively as delivery systems, their utility for encapsulation of hydrophobic drugs and multiple drugs have not been explored in detail so far. Application of traditional polyelectrolyte capsules has several limitations, which renders them inapplicable for encapsulation of multiple drugs, hydrophobic drugs and also for releasing drugs on demand without addition of the external photothermal agents such as metal nanoparticles into the shells of the capsules. Thus, in this thesis, an attempt has been made to develop novel multifunctional multilayered capsules to overcome the above mentioned limitations. We have formulated two novel methods to functionalize the core with cyclodextrin molecules and the shell of the capsules with two-dimensional material, graphene oxide (GO). The properties such as high surface area along with π bonds, broad NIR-absorption, superior photothermal conversion and antimicrobial activity of graphene oxide has been explored and it has been demonstrated that 2-D graphene oxide is unique compared to the regular polyelectrolytes. By functionalizing the shell of capsules with GO as one of the layer material, a simple and efficient way for encapsulating multiple drugs into core and shell of the capsules is achieved by utilizing the large surface area and amphiphilic nature of GO. Based on the unique optical absorption and photothermal conversion properties of GO, we have demonstrated a facile route for near-infrared (NIR)-laser triggered release with low laser power. In the second part, functionalization of the hollow core of the capsules has been functionalized using cylodextrin (CD)-incorporated CaCO3 porous sacrificial templates, where both CD-CaCO3 and CD-modified capsules are used as high efficient carriers for hydrophobic drugs. In the third part, synergistic antimicrobial therapy was achieved using composite graphene oxide/polymer LbL films by combining the intrinsic antimicrobial activity and photothermal conversion ability of graphene oxide and the results depicted superior antimicrobial activity towards E. coli. These composite films also can be used as efficient antimicrobial coatings on biomedical devices or implants. The thesis has been divided into five chapters based on the individual works. In Chapter 1, a brief review on the history of LbL self-assembly, mechanism of self-assembly along with factors affecting the process have been discussed. Followed by a brief discussion about the fabrication of multilayered hollow capsules (core-shell structure), their applications in drug delivery and fabrication of multifunctional multilayered capsules through core and shell have been discussed. Finally, recent developments in LbL self-assembly and multilayered hollow capsules using carbon based materials (fullerenes, carbon nanotubes and graphene oxide) and their biomedical applications have been presented. Chapter 2 deals with the study on fabricating multifunctional multilayered capsules for facile encapsulation of multiple drugs into the capsules, which is achieved by functionalizing the capsules with graphene oxide (GO) as one of the layer materials. The GO composite capsules exhibited unique permeability properties compared to traditional multilayered capsules made of two polyelectrolytes. Multiple drugs could be simultaneously encapsulated in the capsules in a simple and effective manner. These capsules were found to exhibit a “core-shell” loading property for encapsulation of dual drugs into the core and shell of the capsules respectively. In addition, the graphene oxide composite capsules showed excellent biocompatibility towards MCF-7 cells. This study is the first one that demonstrates the potential of hybrid polyelectrolyte capsules without the use of micelles or polymer-drug conjugates for multi-drug encapsulation. Chapter 3 deals with the development of a facile route for near-infrared (NIR)-light triggered release of encapsulated drugs from the multilayered capsules via incorporation of graphene oxide (GO) into layer-by-layer (LbL) assembled capsules without addition of any external additives such as metal nanoparticles (NPs) or carbon nanotubes (CNTs) into the shells of the capsules. Till now, there is no report on light-responsive drug delivery system by utilizing the NIR-optical absorption properties of GO. Here, graphene oxide (GO) plays a dual role, serving as a structural component of LbL capsules as well as strong NIR-light absorbing agent, which efficiently converts absorbed light into heat. Upon NIR-laser irradiation, the microcapsules were opened in “point-wise fashion” due to local heating caused by laser irradiation. The rupturing mechanism of the capsules has been clearly demonstrated using confocal fluorescence microscopy and high resolution transmission electron microscopy. The light-triggering ability of these capsules has been applied successfully to release the encapsulated anticancer drug, doxorubicin. Chapter 4 deals with simple and versatile simple routes for encapsulation of model hydrophobic drug. Encapsulation of hydrophobic drugs in pharmaceutical industries is always a big challenge due to limited number of available drug carrier systems and poor aqueous solubility of hydrophobic drugs. Here, by combining the special properties of cyclodextrins (CDs) with biodegradable inorganic calcium carbonate microparticles, the hybrid CD-CaCO3 mesoporous microparticles have been prepared for the first time. These CD-CaCO3 microparticles were utilized as sacrificial templates to prepare CDs-modified LbL capsules. We have demonstrated that both the hybrid CD-CaCO3 microparticles and CDs-modified capsules are potential carriers for encapsulation of model hydrophobic drugs (self-fluorescent coumarine and nile red dyes) with high loading efficiency using supramolecular host-guest interaction between entrapped CDs and hydrophobic dye molecules. Compared with other inorganic drug carrier systems (mesoporous silica), CaCO3 porous particles have better biocompatibility, biodegradability and cost-effective and without use of any organic solvents. Both these hybrid CD-CaCO3 microparticles and CDs-modified capsules can be good candidates for encapsulation of hydrophobic drugs without involving extreme chemical conditions for fabrication. Chapter 5 deals with development of facile synergistic method for killing pathogenic bacteria by combining the intrinsic antimicrobial activity of graphene oxide (GO) and unique photothermal conversion property of GO into a single material. We fabricated composite LbL films of graphene oxide (GO) and poly(allylamine hydrochloride) (PAH) films. Antimicrobial activity of these GO composite films has been studied using Escherichia coli (E. coli) cells by varying number of deposited layers on glass slides (20 to 80 layers) and results suggest that by increasing the number of deposited layers, antimicrobial activity is also increased gradually. Based on the unique optical properties of GO, photothermal therapy have been carried out for killing of E. coli using GO composite films by varying number of deposited layers (20 to 80 layers) by irradiation of NIR-pulse laser at 1064 nm wavelength (Nd:YAG, 10 ns pulse, 10 Hz). The photothermal results revealed the enhanced antimicrobial activity compared to GO composite films alone without NIR-laser irradiation. The synergistic photothermal killing ability along with intrinsic antimicrobial activity of GO films results in much faster killing compared to films alone. Graphene Oxide Multilayered Capsules Polyelectrolyte Multilayer Capsules Drug Delivery Hydrophobic Drugs Antimicrobial Therapy Hydrophobic Drug Encapsulation Graphene Oxide Multilayered Films Graphene Oxide Multilayered Capsules Graphene oxide Based Multilayer Capsules Materials Engineering
216	Etude et modification des propriétés du poly(butylène succinate), un polyester biosourcé et biodégradable / Study and modification of poly(butylene succinate) properties, a biobased and biodegradable polyester Freyermouth, Floriane 13 January 2014 (has links) Dans le contexte de développement durable actuel, les matériaux biosourcés et biodégradables commencent à prendre une place importante d’un point de vue économique et écologique. L’objectif de remplacer les polyoléfines utilisées actuellement dans des domaines clés tels que l’emballage et l’automobile est cependant difficile car les matériaux « verts » sont rarement aussi performants. Ils présentent en général des lacunes au niveau de leurs propriétés mécaniques et sont sensibles à des dégradations qui limitent leur durée de vie. Le poly(butylène succinate) est un polyester connu depuis longtemps mais qui regagne de l’intérêt grâce à son potentiel biosourcé et biodégradable ainsi que ses propriétés mécaniques proches de celles des polyoléfines. Néanmoins, sa rigidité est encore trop faible et sa sensibilité importante à l’hydrolyse limite son utilisation dans le temps, même dans des conditions standards de température et d’humidité. Des améliorations de la stabilité du PBS sont possibles et plusieurs solutions ont été envisagées. L’intérêt s’est porté sur la modification de la balance hydrophile/hydrophobe du PBS par l’ajout d’un comonomère ramifié très hydrophobe, le Pripol 1009 ou possédant un cycle aromatique, l’acide téréphtalique. L’addition de charges dans le matériau peut également s’avérer efficace pour neutraliser les fins de chaines acides catalysant la dégradation, en utilisant du carbonate de calcium, ou pour limiter la perméabilité du matériau, par incorporation de talc. Dans l’optique de moduler les propriétés mécaniques du PBS, la voie de modification la plus fructueuse est le mélange par incorporation de charges minérales, comme le carbonate de calcium ou le talc, ou le mélange avec d’autres polyesters possédant une rigidité plus importante, tels que le poly(acide lactique) ou le poly(butylène téréphtalate). Les mélanges doivent présenter une bonne compatibilité et être mis en œuvre à des températures convenables pour limiter la dégradation du PBS et conserver la ductilité du matériau final, comme c’est le cas des mélanges PBS/PLA. Des combinaisons ont également été envisagées entre les différentes solutions efficaces pour améliorer à la fois les propriétés mécaniques et la stabilité face à l’hydrolyse chimique. / Within the frame of sustainable development, biobased and biodegradable polymers are going to play an important role according to economic and environmental perspectives. The polyolefins currently used in packaging and automotive industries will be replaced by biomaterials. The poly(butylene succinate), an “old” aliphatic polyester, has recently regained interest thanks to its biobased and biodegradable potential and mechanical properties similar to polyolefins. However, this polyester is very sensitive to degradation even at mild ambient conditions and, even though its flexibility is comparable to polyethylene or polypropylene, its modulus is too low. Some modifications of the chemical structure were considered to improve the long-term use of PBS. The synthesis of random copolymers using long-chain fatty acid Pripol 1009 or terephthalic acid allows to reduce significantly the hydrolysis rate and properties are maintained during a longer time. The incorporation of fillers like calcium carbonate and talc also enhance the PBS stability. The addition of calcium carbonate neutralizes carboxyl terminal group, which play an autocatalytic role in the hydrolytic degradation. High aspect ratio of talc increases the gas and liquid diffusion path, reducing permeability and providing better barrier properties to the material. In order to improve Young’s modulus, formulating blends with mineral fillers like calcium carbonate and talc, or with more rigid polyesters like polylactic acid or poly(butylene terephthalate) are efficient. The most interesting results are obtained by using calcium carbonate and polylactic acid, which allow the preservation of PBS’s flexibility. Processing parameters should be maximized to limit the degradation of PBS. Combinations of the most interesting solutions were investigated and lead to materials which fulfill the required specifications. Polymère biosourcé Polymère biodégradable Dégradation hydrolytique PBS - Poly(butylène succinate) Copolymère Blocage de fin de chaine Ajout de charge Carbonate de calcium Talc Mélange de polyesters Biobased polymer Biodegradable polymer Hydrolytic degradation PBS - Poly(butylene succinate) Copolymer Chain-End neutralization Filler incorporation Calcium carbonate Talc Polyester blend 620.192 430 72
217	Ověřování efektu jemných vláken a absorpčních přísad na proces self-healing betonu / Verification of the effect of fine fibers and absorbent additives on the process of self-healing concrete Dokoupil, Tomáš January 2022 (has links) The diploma thesis deals with self-healing of concrete composite. In the theoretical part, it represents the effect of polymer microfibers on reducing the development of cracks and on improving self-healing properties. It also describes the most commonly used types of bacteria used to enhance the self-healing process and their effect both alone and in interaction with fibers, calcium sources and absorbent additives. It also represents auxiliary additives in the form of superabsorbent polymers. In the practical part, it verifies the influence of the above elements and describes how much the self-healing of concrete has been enhanced by the use of combinations of fibers, absorbent polymers and a source of calcium in the form of calcium lactate. It also indicates whether the self-healing properties used were not improved at the expense of deteriorating the mechanical properties of the composite.
218	Das Auftreten acidophiler/calcifuger Pflanzenarten in Kalk-Halbtrockenrasen / The occurence of acidophile/calcifuge plant species in semi-arid calcareous grasslands Fühner, Christoph 02 November 2005 (has links) No description available. 580 Pflanzen (Botanik) WVR 240 Einfluss des Bodens WVE 440 Mineralstoffwechsel WVR 300 Pflanzensoziologie Vegetationskunde Mathematics and Natural Science acidophil basiphil calcicol calcifug Kalk-Halbtrockenrasen Vegetationsdifferenzierung Kalkboden Boden-pH Eisen Phosphor Phosphat Stickstoff Calciumcarbonat Hydrogencarbonat Eisendefizienz Mineralstoffernährung Mineralstoffökologie Nährstoffmangel Nährstoffeffizienz Mineralstofftoxizität Mineralstofftoleranz Ökologie Autökologie Ökophysiologie Synökologie Mineralstoffökologie Symbiose Bodenanalytik Bodenlösung Boden-pH Calluna vulgaris Danthonia decumbens Koeleria pyramidata Potentilla neumanniana Potentilla erecta acidophile basiphile calcicole calcifuge semi-arid calcareous grassland vegetation differentiation calcareous soil soil pH iron phosphorus phosphate nitrogen calcium carbonate bicarbonate iron deficiency mineral nutrition ecology of mineral nutrition nutrient deficiency nutrient efficiency tolerance toxicity ecophysiology ecology ecology of mineral nutrition symbiosis soil analyses soil solution Calluna vulgaris Danthonia decumbens Koeleria pyramidata Potentilla neumanniana Potentilla erecta 42.38 Botanik: Allgemeines 42.44 Pflanzengeographie Pflanzenökologie Pflanzensoziologie

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