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This thesis addresses the electro-optical properties of silicon, containing dislocations. The interest in those properties is driven mainly by two practical reasons. One is the optical characterisation of multicrystalline silicon for solar cells, and the other is the design of light emitting diodes based on silicon by enhancement of silicon radiative properties via introduction of dislocations. The work demonstrates that dislocation specific radiation may provide a means for optical diagnostics of solar cell grade silicon. It provides insight into the mechanisms governing the dislocation recombination activity, their radiation, and how are they influenced by other defects present in silicon. We demonstrate that photoluminescence mapping is useful for monitoring the recombination activity in solar cell grade silicon and can be applied for identification of contaminants, based on their photoluminescence signatures. It is shown that the recombination at dislocations is strongly influenced by the presence of metals at the dislocation sites. The dislocation radiation activity correlates with their electrical activity. Thus, photoluminescence mapping at room temperature may provide a means for revealing and characterising of dislocation-rich regions in multicrystalline silicon. It is shown that the dislocation and band-to-band luminescence are essentially anti-correlated. The band-to-band intensity being related to the diffusion length of minority carriers can be used for measurements of diffusion length, as long as the surface recombination rate is controlled. Moreover, photoluminescence mapping can be used for the detection of optically active defects in solar grade materials. Thus, betaFeSi2 precipitates, with a luminescence at 0.8 eV, were detected within the grains of block cast materials. They exhibit a characteristic feature of quantum dots, namely blinking. The second aspect of the thesis concerns the topic of silicon based light emitters for on-chip optical interconnects. The goal is an enhancement of sub-band-gap or band-to-band radiation by controlled formation of dislocation-rich areas in microelectronics-grade silicon as well as understanding of the processes governing such enhancement. For light emitters based on band-to-band emission it is shown, that internal quantum efficiency of nearly 2 % can be achieved, but the emission is essentially generated in the bulk of the wafer. On the other hand, light emitters utilizing the emission from dislocation-rich areas of a well localized wafer depth were explored. Three different methods for reproducible formation of a dislocation-rich region beneath the wafer surface were investigated and evaluated in view of their room temperature sub-band-gap radiation: (1) silicon implantation and annealing, (2) epitaxially grown SiGe buffer, and (3) direct wafer bonding. The most promising dislocation-based emitter appears the utilization of a dislocation network produced by wafer bonding. It is shown, that monochromatic D1 radiation (wavelength 1.5 µm) can be generated in a well localised depth of the wafer. The radiation is not absorbed in silicon and such localized emitter can, potentially, be coupled with silicon waveguides and Ge-based detectors for optical interconnects.
Groundwater is an important resource in Sub-Saharan Africa to supply water for domestic, industrial, mining and irrigation for agricultural purposes. In Ghana, groundwater supply program is mostly pragmatic to give people drinking water, however to ensure sustainability a long term groundwater management system is essential. One such approach is the use source protection (well protection) with the declaration and installation of protection zones. To achieve the goal of this research three hypothetical questions were asked which relates to the Availability and Vulnerability of groundwater, and the use of an analytical model to estimate source protection zones (SPZ). The regions of Adansi, Lawra, Sunyani and Sekyere West were chosen as study areas to test the hypothesis of this research with detailed investigation concentrating on Adansi area. The overall aim from the study areas was to estimate SPZ for Granite, Phyllite, Schist, Sandstone and weathered materials and give recommendations as to which activity should be permitted or otherwise within each of these zones. The available groundwater for a particular well or location was determined based on its hydraulic conductivity and specific capacity of a well. Regionalization of the available groundwater was achieved by comparing the results of the hydraulic conductivity and specific capacity with the regional structural map. To determine the vulnerability of the available groundwater, the radius of influence (ROI) for the different boreholes was determined using Sichard and Dupuits formula whilst for Source protection zones, Darcy and the volumetric equation was used. Results of hydraulic conductivity estimated from pumping test data for the five major rock types showed a trimodal distribution (E-5, E-6 and E-7 m/s). There was a general trend of decreasing hydraulic conductivity to decreasing transmissivity. Results of plots of specific capacity verses hydraulic conductivity shows that only rock types with hydraulic conductivity greater than E-5 m/s yields sustainable groundwater supply. Three aquifer types were encountered in the study areas which were pore aquifers in shallow or alluvial, regolith and fracture aquifers in bedrocks. High hydraulic conductivity from the different rock types corresponds to higher ROI. The results of hydraulic conductivity, specific capacity, ROI and SPZ are used as input parameters for the estimation of the suitability of a groundwater source. A ranking matrix was developed for easy interpretation of hydrogeological data by combining the results of the input parameters into a single score. Results from the ranking matrix were used to determine specific regulations for the various aquifers in the study areas. Within the fractured crystalline rocks with k ≥E-5m/s siting of wells should target fracture zones whilst pumping during abstraction phase can exceed 15m3/s/m. The intermediate source protection zone should be at least 150m. Conclusions from the study could be applied in other areas of Ghana and be implemented during the initial development, abstraction and groundwater policy phases of other groundwater projects.
In 2012 a group of researchers proposed a basic research initiative to the German Research Foundation (DFG) as a special priority project (SPP) with the name: Wireless 100 Gbps and beyond. The main goal of this initiative was the investigation of architectures, technologies and methods to go well beyond the state of the art. The target of 100 Gbps was set far away from the (at that time) achievable 1 Gbps such that it was not possible to achieve promising results just by tuning some parameters. We wanted to find breakthrough solutions. When we started the work on the proposal we discussed the challenges to be addressed in order to advancing the wireless communication speed significantly. Having the fundamental Shannon boundary in mind we discussed how to achieve the 100 Gbps speed.
In bubbling fluidized beds, bubble characteristics such as size, shape and velocity have a vital influence on the hydrodynamics of the bed and hence on its performance as a chemical reactor and/or a heat exchange unit. In many industrial applications such as lignite dryer heat transfer tubes are usually inserted to enhance the rate of heat and mass transfer and chemical conversion. However, their presence strongly influences the bubbling behavior of the beds. Therefore, reliable design and scale-up of these systems come only after fundamental understanding of the bubbling behavior is achieved. Therefore, in this research work the influences of tube bank geometries and particle size on bubble characteristics were thoroughly investigated. In this research work, both numerical and experimental studies were employed. For the experimental measurements, a new nonintrusive digital image analysis technique was developed. The technique allowed for the simultaneous measurements of bed expansion and various bubble properties. An in-house software was developed to fully automate the image acquisition and data processing procedure. For the numerical studies, the Eulerian-Eulerian two-fluid model based on the kinetic theory of granular flow was used. Though, this CFD model has been considered as a fundamental tool for modeling gas-solid fluidized beds, its quantitative validation remains insufficient for a wide range of reactor geometries and operating conditions. Therefore, in this work validation of the model using experimental measurements of bed expansion and bubble properties obtained from a pseudo-two-dimensional fluidized bed was performed. The influence of two-dimensional simulations and different modeling parameters such as the friction packing limit, drag model and solid-wall boundary conditions were investigated. The two-fluid model generally showed reasonable agreement with the experimental measurements of pressure drop, bed expansion and bubble properties in bubbling regime. However, as the gas superficial velocity is increased and the bed moved towards slugging and turbulent regimes a big deviation arose and the two-fluid model failed to predict reasonably the fluidized bed hydrodynamics for the freely bubbling bed. The mean bubble properties predicted by two-dimensional simulations were in reasonable agreement with experiments at lower superficial velocities. They deviated at higher bed height and this was more pronounced at higher gas superficial velocities. The results from three-dimensional simulations were in better agreement with the experimental measurements; however, the computational effort need was very high making them impractical for parametric studies and sensitivity analyses. It was also showed that the choice of friction packing limits, drag laws and specularity coefficients have little influence on the bubble properties. For a bubbling bed, both experimental measurements and numerical simulations showed that inserting horizontal tube banks had either no or marginal influence on the static bed pressure drop and bed expansion. On the other hand, bubble hydrodynamics were strongly influenced and controlled by the geometry of the immersed tubes. In freely bubbling fluidized beds bubble size as well as rise velocity increased with bed height and superficial velocity. In beds with immersed tubes, such general trends were completely disturbed. Tubes appeared to restrict rapidly growing bubbles. As a result the mean bubble diameter and rise velocity were lower in the vicinity of the tube banks than in the freely bubbling bed. Results from different particle sizes showed that in a freely bubbling bed increasing the mean particle size increased the bubble diameter and rise velocity as well as bed expansion. In fluidized beds with dense horizontal tubes on the other hand, the mean bubble properties were almost independent of the particle sizes.
As the issue of pollutant emissions from aviation propulsion escalates, research into alternative powertrains is gaining momentum. Two promising technologies are the Hybrid Electric Propulsion System (HEPS) and Pressure Gain Combustion (PGC). HEPS is expected to reduce pollutant emissions by decreasing fuel consumption, whereas PGC uses detonation in the combustor to increase the thermal efficiency of engines by elevating the total pressure during combustion. This study extensively explores the integration of these two emerging technologies, thoroughly assessing the advantages that arise from their combination. First, the renowned turboprop engine PW127 is benchmarked and modeled using Gasturb software. The model is integrated into Simulink using the T-MATS tool, with HEPS and pressure gain components added to analyze the thermodynamics of various configurations under different pressure gain values and HEPS parameters. The analysis, conducted up to the cruise phase of the baseline aircraft, reveals that applying pressure gain combustion through Rotating Detonation Combustion (RDC) results in a more significant increase in efficiency and decrease in fuel consumption compared to HEPS with conventional gas turbines. However, HEPS helps maintain a more uniform combustor inlet condition and reduces the Turbine Inlet Temperature (TIT) at the takeoff phase, where the highest TIT otherwise occurs. The results suggest that integrating HEPS with PGC can be beneficial in maintaining optimal combustor conditions and mitigating turbine efficiency degradation.
Recycling and material recovery are gaining more grounds in applicability as viable options to sustainable solid waste management especially in Municipal Solid Waste Management (MSWM) schemes. In this dissertation a critical analyzes is made of the MSWM problem in Cameroon and an assessment of the role Small- and Medium-Size Enterprises have been playing in the area of recycling and material recovery. The main research methods applied in this research include: fieldwork, administration of questionnaires, interview and literature review. Using two case study localities (Limbe and Buea municipalities), the various practices in MSWM are elaborated, the constraints and challenges faced by management discussed and proposals for either expanding/upgrading existing schemes to be more sustainable as well as strategies to initiate new systems presented. Innovations within collection systems such as the introduction of household bins and specialized collection of specific waste could be quite beneficial to existing schemes. Waste Electrical and Electronic Equipment (WEEE) which constitute one of the fastest growing waste streams presents greater management challenges. Two case study localities (Buea and Kumba) are used to analyze the problem of WEEE in Cameroon. An overview of the handling of Electrical and Electronic Equipment (EEE) at end-of-life (EoL) in Cameroon is made with special focus on households and repair units. At household level, WEEE is disposed of alongside other waste arisings in the available disposal facilities for given household. Repair units represent a very vital connection between dysfunctional EEE and EoL forms as all users of EEE tend to bring these devices to these units for repairs. An inventory of the various EEE at repair units for these two localities shows that above 40% percent of such equipments are totally out of use. In Kumba, Classes 1 and 4 EEE (according to EU WEEE directive classification) dominate while class 3 is almost absent. In Buea, Class 3 and 4 are dominant. These results show that socio-cultural, economic and even climatic factors influence the choice of EEE that people in this area acquire. The intense level of repair activities and recovery of useful parts by repair units show that there exist adaptable options to handle WEEE in especially economically and environmentally beneficial ways. The recycling of aluminum for production of household utensils represents a very basic and adaptive industrial set-up, which can easily be operated and run at very cheap cost and with a little manpower. While this venture seems apparently successful in economic terms as an option to poverty alleviation through income generation, it is plagued by some problems which, if given due consideration will render it a prospective option for poverty alleviation (through small enterprise business development) and environmental sustainability (as an option to sustainable MSWM). In this dissertation, a model is thus presented, which can be utilized by stakeholders to improve on the sector. An assessment of efforts and constraints to implementing comprehensive recycling and recovery schemes in Cameroon was also carried out. Results show that there are existing practices on which comprehensive recycling and recovery can be built upon that would be beneficial to both councils and engaged schemes – mostly SMEs and NGOs. The challenges faced and likely to be faced and the way forward to implementing any broad scale recovery and recycling are presented. If municipal councils choose to operate existing MSWM schemes without significant changes, then collective collaboration will be highly required. Such collaboration will present benefits to both waste collection and disposal. On the other hand, if they wish to expand schemes or create new schemes, adaptive innovation would be highly recommended. Such adaptive innovation would have to incorporate local practices and approaches of MSWM as well as socio-economic considerations so as to ensure new or expanded schemes survive within local socio-economic context. A greater challenge in enhancing recycling and material recovery in particular and MSWM in general, in Cameroon is on the role the government takes on designing appropriate policies and legislative frameworks to cover such activities in economically and ecological beneficial ways. In the absence of these, SMEs, councils and NGOs (working in partnership with other specialized groups) concerned with activities related to recycling and material recovery may be left with the option of regulating activities within their sectors as such activities stand to alleviate poverty and also present ecological benefits.
Over the last twenty years, Petri nets have been increasingly adopted for modelling and simulating biological systems, as they offer an intuitive and graphical approach for this purpose. Their usability convenience comes from the fact that they offer many types of elements to describe systems in a qualitative and quantitative way. Coloured Petri nets are particularly useful to model systems with repeated components in a compact fashion. Our tool Snoopy for modelling and simulating Petri nets is one of the most well-known tools supporting a family of related Petri net classes comprising stochastic, continuous and hybrid Petri nets, and covering uncoloured and coloured Petri nets alike. However, kinetic information of a biological system, i.e. kinetic parameters may be uncertain, due to many reasons, e.g. environmental factors. Besides, coloured Petri nets as they were previously supported in Snoopy suffered from some inconsistencies. Due to these inconsistencies, exploring the model behaviour using different sizes (scaleability) was not feasible. Both challenges call for a new and more powerful approach integrating the modelling of uncertainties together with modelling features supporting repeated structures in a compact and scalable way.
This thesis comprises two major contributions: Firstly, we introduce the definition and present the simulation algorithm for both uncoloured and coloured fuzzy Petri nets, by extending the existing quantitative uncoloured and coloured Petri nets in Snoopy. This includes discretising the uncertain kinetic parameters to crisp values by using sampling strategies. Secondly, we harmonise coloured Petri nets in Snoopy with their uncoloured counterparts and we extend the Snoopy’s coloured Petri nets by all the features, which are supported by the coloured abstract net description language - an exchange format of coloured Petri nets in our PetriNuts tool family.
By performing fuzzy simulation, one can obtain two kinds of output: fuzzy bands of each output variable and their corresponding timed-membership functions. Each fuzzy band describes the uncertainties associated with the input, whereas membership functions give more accurate information about the associated uncertainties. The most important features that we obtain by harmonising coloured Petri nets are to develop scaleable models, by defining scaling factors as constants and unifying the usage of coloured Petri nets with the other tools in our PetriNuts tool family.
We deal with a very complex and hard scheduling problem. Several types of products are processed by a heterogeneous resource set, where resources have different operating capabilities and setup times are considered. The processing of the products follows different workflows, allowing also assembly lines. The goal is to process all products in minimum time, i.e., the makespan is to be minimized. Because of the complexity of the problem an exact solver would require too much running time. We propose a compound method where a heuristic is combined with an exact solver. Our proposed heuristic is composed of several phases applying different smart strategies. In order to reduce the computational complexity of the exact approach, we exploit the makespan determined by the heuristic as an upper bound for the time horizon, which has a direct in uence on the instance size used in the exact approach. We demonstrate the efficiency of our combined method on multiple problem classes. With the help of the heuristic the exact solver is able to obtain an optimal solution in a much shorter amount of time.
In dieser Arbeit wird ein neues Konzept für den Entwurf fehlertoleranter digitaler Schaltungen vorgestellt. Die als spezifische Fehlertoleranz bezeichnete Entwurfsmethode erweitert den Stand der Technik um die Möglichkeit, Fehlertoleranz gezielt für gewünschte Ein- und Ausgabezuweisungen einer Schaltung bereitzustellen. Die generell sehr aufwändigen Maßnahmen zur Realisierung von Fehlertoleranz lassen sich so an die tatsächlich vorhandenen Zuverlässigkeitsanforderungen einer gegebenen Anwendung anpassen, was im Vergleich zu herkömmlichen Verfahren zu erheblichen Kosteneinsparungen im Hinblick auf Hardware und Stromverbrauch führt. Die Eingaben einer Schaltung werden dazu mit ihren zugehörigen Ausgaben in kritische und unkritische Signale unterteilt. Für kritische Signale wird das gleiche Maß an Fehlertoleranz bereitgestellt, wie es auch durch das Verfahren der dreifach modularen Redundanz garantiert wird. Unkritische Signale werden nicht fehlertolerant ausgelegt, da das für solche Signale nicht gefordert werden muss. Im Bezug auf kombinatorische Schaltungen wird dieses Grundprinzip auf eine beliebig wählbare Teilmenge aller möglichen Eingaben mit ihren zugehörigen Ausgaben angewendet. Die nicht zu schützenden, unkritischen Signale werden zu Optimierungszwecken genutzt. Genau diese Freiheit im Entwurfsprozess ermöglicht beim Entwurf fehlertoleranter Schaltungen signifikante Kosteneinsparungen, die bislang durch andere Verfahren nicht berücksichtigt wurden. Bei sequentiellen Schaltungen wird das Konzept auf Eingabefolgen und ihre entsprechend zugehörigen Ausgabefolgen abgebildet. Ab einem bestimmten Zustand werden in Schaltungen, die nach diesem Prinzip entworfen wurden, alle als kritisch eingestuften Eingabefolgen fehlertolerant verarbeitet, woraufhin die sequentielle Schaltung entsprechend fehlertolerante Ausgabefolgen liefert. Die Länge der kritischen Eingabefolgen und die Anzahl der Zustände, von denen aus eine fehlertolerante Verarbeitung der Eingaben gefordert wird, ist beliebig wählbar. Neben der Beschreibung des Grundkonzeptes der spezifischen Fehlertoleranz für kombinatorische und sequentielle Schaltungen beinhaltet die Arbeit Erweiterungen, mit denen sich die durch das Verfahren bereitgestellte Fehlertoleranz erhöhen lässt. Es wird zudem erläutert, wie die spezifische Fehlertoleranz ohne besonderen Aufwand mit Hilfe gängiger Werkzeuge im Schaltungsentwurf umgesetzt werden kann. Vom Entwerfer werden dazu keine speziellen Kenntnisse über das eigentliche Verfahren vorausgesetzt. Anhand experimenteller Ergebnisse wird auch gezeigt, welche Einsparungen sich durch die spezifische Fehlertoleranz im Vergleich zu herkömmlichen Verfahren aus diesem Bereich ergeben. Dazu wurden verschiedene Benchmark-Schaltungen mit der spezifischen Fehlertoleranz implementiert und ihre Gesamtflächen den Flächen entsprechender Schaltungen, die nach dem Prinzip der dreifach modularen Redundanz entworfen wurden, gegenübergestellt.
An increase in waste production is inextricably linked to population increase and increasing civilization, and depending on the waste management approach, groundwater could be seriously affected. In Limbe, for example, waste disposal methods (sewage, littering, open dumping and burning) have led to the contamination of groundwater resources. This study aims at assessing the degree to which the Limbe waste sites conform to prescribed standards of waste site location, the extent to which the waste sites compromise or enhance groundwater protection. The study further investigates groundwater management around waste sites; investigating the factors responsible for groundwater contamination from waste sites; evaluating the extent to which past and present municipal solid waste management practices minimise or enhance groundwater contamination and suggesting possible methods (techniques) by which the existing situation can be improved. Seven groundwater samples were collected for laboratory (microbiological and physic-chemical) analyses in Cameroon and Germany. Field visits and observations made were supported by pictures and interviews. The method of waste disposal used in Limbe by LUC (until 2006) and HYSACAM (from 2006) already show negative effects on groundwater. Results of microbial analysis are higher than the standards of Cameroon, WHO and ISI 10500-91. Total Coliform showed values >1000CFU/100ml, E. coli showed up to 346CFU/100ml and others showed up to 159CFU/100ml. These excessively high values imply that water is highly contaminated biologically and so groundwater wells in Limbe are not good for human consumption. Physico-chemical analysis revealed, in most samples, values lower than the prescribed standards. However, NH4+ showed higher values in all samples (0.9mg/L-2.6mg/L). The high level of ammonium could be related to high production of sewage in households. L7 and L1 showed the lowest values, whereas, L6 showed the highest values in almost all microbial and physico-chemical parameters analysed. L6 was most contaminated with high values mostly exceeding the given limits. This dominant wetland area must be evacuated and water highly treated because it is very dangerous for human consumption. Vadose water in Limbe requires serious biological treatment and subsequent groundwater monitoring to minimise hazards. L7 and L1 have characteristics of Basalt and because of low level of contamination can be used as the base for comparison (that is natural water). Water must also be thoroughly treated for NH4 contamination. Waste disposal in Limbe is poorly practised and the site used must be changed. Improved waste management schemes like waste reduction, sorting and treatment are required before final disposal. Landfill construction with emphasis on barrier, leachate and gas collection systems will be most appropriate for waste disposal and in minimising leachate spill, and groundwater and other contamination. Geological and hydrogeological maps and investigations as well as recent climatic data are needed in order to choose an appropriate site for landfill construction. Most of all groundwater monitoring and sewage collection should be a very important consideration in the Limbe Municipality. Household dump sites must be thoroughly cleaned and the public sensitised on the importance of proper waste management to reduce groundwater contamination and its effects on man and the environment.
In this thesis we consider probabilistically checkable proofs (PCPs) in the model of computation working with real and complex numbers as introduced by Blum, Shub and Smale (the BSS model). Starting point of this thesis is the so-called PCP theorem, a major result in complexity theory. Roughly speaking this theorem says that one can check the correctness of certain proofs of mathematical statements with high probability by only looking at small parts of the proof. PCPs have a natural formulation in the BSS model as well. Considering the importance of the PCP theorem it seems natural to ask whether a similar theorem holds in this model also. The PCP theorem in the Turing model has two qualitatively very different proofs. The original proof by Arora et al. uses mostly algebraic techniques. Later another, combinatorial proof was discovered by Dinur.
In this thesis we give two corresponding proofs in the BSS model. Thereby we establish the PCP theorem in the framework of the real numbers as well as in the framework of the complex numbers. The main difficulties occur due to the fact that the structures R and C over which we work are uncountably infinite. For both classical proof techniques partially really new ideas are necessary to apply their structure to the new computational model. Apart from the importance of the PCP theorem it helps to better understand the similarities and differences between both models of computation. We hope that the new ideas we develop may be useful in other contexts as well.
In the quest of finding sustainable solution to solid waste management problems in Ghana, this research formulated as its goal, to mitigate policy constraints to sustainable solid waste management in Ghana. This research goal and objectives were addressed through an empirical study that involved interviews and administration of two sets of questionnaires, one set to members of parliament and the other to members of the general public. The development of questionnaires was influenced by a conceptual policy development model “The Bridge Model of Policy Development”. Administration of questionnaires to members of the general public was accomplished through random sampling within churches and mosques in three cities in Ghana; Accra, Kumasi, and Takoradi. The percentage response for members of the general public was 38.9% and that for members of parliament was 18%. Prioritization of policy options was achieved through “Differentiated Perception Ranking”, a method devised by this research process. The results revealed the relative importance of constraints to sustainable solid waste management in Ghana, the relative difficulty of mitigating constraints, and the relative difficulty of implementing policy options among others. These results were integrated with the principles of sustainability into producing a policy package for sustainable solid waste management in Ghana.
Mixed signal integrated circuits (MSICs) contain both analog and digital circuitry, integrated together on the same die. While this integration brings many benefits, it also gives rise to the issue of substrate noise coupling between the noisy digital circuitry and noise-sensitive analog circuitry. In order to counteract this issue, various substrate noise reduction methodologies had been developed so far. This thesis explores a new approach in substrate noise reduction – using a GALS (globally-synchronous, locally-asynchronous) design strategy for the digital part of a MSIC, in order to reduce the noise generation at its source. GALS architectures consist of several locally synchronous modules (LSMs) which communicate asynchronously to each other. By converting an initially synchronous architecture of digital circuitry into a GALS architecture, simultaneous switching noise generated by this circuitry can be reduced. While GALS had already been used for reducing other types of simultaneous switching noise, this is, to the best of the author’s knowledge, the first attempt to develop a GALS-based methodology for substrate noise reduction. In order to be able to theoretically analyze GALS-based methodologies for substrate noise suppression, corresponding models at high abstraction level for substrate noise generation and substrate noise propagation in lightly doped substrates (which is a type of substrate mostly used for MSICs) have been developed. These models have further been used for developing two new GALS-based substrate noise reduction methodologies: harmonic-balanced plesiochronous GALS partitioning (HB) and harmonic-and-area-based plesiochronous GALS partitioning with power domain separation (HAB). A theoretical analysis has shown that HB can reach substrate noise attenuation of up to 20log(M), where M is the number of LSMs of the resulting GALS system. On the other hand, the attenuation achievable by HAB depends on the distribution of switching current harmonics and area among the partitions, as well as from the substrate itself. For each of the two methodologies, a suitable partitioning procedure for a practical application has been developed; these partitionig procedures have been numerically evaluated in MATLAB. HB has further been embedded within the EMIAS CAD tool, where it has been evaluated on a real design example – a wireless sensor node. A special case of HAB for low frequencies has been applied for developing a test chip called SGE (power domain Separation and Galsification Experiment). The measurements on silicon have proved the applicability of the methodology.
Electrostatic precipitators (ESPs) belong to the most efficient devices for control of particle emissions in the process industry and environmental technologies in general. The operating principle of ESPs, relying on particle precipitation by electrical charging, leads to an enhanced turbulent motion by electrohydrodynamic (EHD) effects within the gaseous working fluid passing through the ESP. This enhanced turbulence is generally considered detrimental to the separation efficiency, because the additional shear forces acting on the collection electrodes promote re-entrainment of already precipitated particles. Further, the enhanced turbulent cross mixing diminishes the transport of charged particles by electric forces directed towards the collection electrodes. In other industrial applications however, many process units that are based on heat or mass transport would benefit from enhanced turbulent mixing. These include heat exchangers for energy recuperation or evaporation and absorption units such as flue gas scrubbers. A combination of these with an ESP possibly allows for versatile new applications in the process industry.
The motivation of this thesis is to study the effects of electrohydrodynamically generated motions onto the turbulent cross mixing within gaseous flows over a wide parameter space including variations in geometry and operating conditions. In order to do so, the influence of EHD effects on the three major transport properties, i.e. thermal energy, mass and momentum, were experimentally investigated. Based on analogies caused by similar transport mechanisms, the experimental results were compared despite different methods being used. In order to help with the comparison a simplified eddy viscosity model is applied.
The study for each transport property was conducted with a different setup of a tube type ESP. These setups include axial and radial pressure drop measurements to quantify the momentum transport, a self-built local heat transfer sensor to determine heat transfer coefficients and a wetted wall-column to study the enhancement of mass transport phenomena. Experiments on momentum and heat transport include a large variation of different geometries and operating variables such as discharge electrode design, tube diameter, flow velocity, as well as magnitude and polarity of operating voltage. In addition, selected measurements with aerosol particles were conducted, to gain additional insights on the effects of EHD induced turbulence generation by particle bound space charge compared to ion bound space charge in clean gas flows.
The results do not only provide transport coefficients for the hands-on application by plant designers, but also feature numerous experimental data that can be used as reference values for ongoing research in the numerical simulation of electrohydrodynamically enhanced flow and therefore significantly increase the available amount of data provided by current literature.
Multidimensional visualization of preferential flow pathways using neutron and x-ray radiation
(2016)
The occurrence of preferential flow of water in soils is rather the rule than the exception particularly in heterogeneous structured soils. The quantitative prediction is difficult because of the spatial as well as temporal variability. One aim of the dissertation was to visualize the soil structure and flow patterns in mine soils using a combination of neutron radiography, neutron tomography and x-ray computed tomography experiments. Both radiation techniques were used to describe preferential pathways as a soil structure with CT and the process of preferential flow of water with NT. For the first time neutron radiation was applied on undisturbed soil cores to visualize water distributions in natural soils on three examples for heterogeneities of different origin.
In a first investigation we used neutron radiography to analyze the moisture distribution in undisturbed slab-type and cylindrical samples of mine soils containing lignitic fragments and inclined soil layers. 2D radiography sequences indicated that flow pathways are highly dependent on the shape, distribution, and internal structure of the lignitic fragments. For 3D experiments, the quantitative analysis of water contents failed due to a pronounced beam hardening effect. The tensiometer data indicated the existence of local non-equilibrium in pressure heads between fragments and matric pore regions.
The objective of the second study was to analyze and visualize the effects of initial soil structure formation at the surface of bare soils in an artificial hydrological catchment that has been left to undirected ecological succession for three years. The three-dimensional (3D) micro-morphology was described using the X-ray computed tomography (CT); two-dimensional (2D) infiltration patterns were obtained from drip infiltration experiments using time-resolved neutron radiography (NT). The analyses of CT data indicate the existence of (i) structural crusts on soil consisting of sandy to loamy sediments and (ii) depositional crusts on sandy sediments. The results of combined observations using CT and NT suggest that the initial soil surface structure alterations of young sandy sediment modify moisture patterns of infiltrating water only slightly.
The aim of the 3rd experiment was to study effect of two ‘ecological engineers’, moss vegetation and beetle larvae on pore structure and infiltration. The soil pore structure was characterized by micro-computed tomography analyses of bare soil, sparse and dense moss-vegetated samples containing a single burrow. Flow patterns of infiltration experiments were visualized using the neutron radiography technique. The results of this study suggest that moss vegetation and burrowing activity of ground beetles strongly control the initial soil development by modification of pore structure and surface water infiltration.
Die vorliegende Arbeit beinhaltet eine Nutzungspotentialbewertung einer Bergbaufolgelandschaft (BFL). Mit Hilfe einer zielorientierten Nutzwertanalyse werden die Potentiale Landschaft, Infrastruktur, Wirtschaft, Arbeitsplätze, Ökologie und Nachfrage bewertet und die Gunstfaktoren des Untersuchungsgebietes (UG) herausgestellt, um mögliche Handlungsvorschläge zu geben. Leitbild des UG ist eine den gegebenen Bedingungen entsprechende nachhaltige Entwicklung einer BFL. Eine einst vom Abbau der Braunkohle lebende Region sucht ein neues Gesicht und Möglichkeiten, die durch den Tagebaubetrieb völlig veränderten Bedingungen der Landschaft, Infrastruktur, Wirtschaft, Arbeitsplätze, Ökologie, Nachfrage neu zu formieren. In einer von der Autorin eigens für diese Untersuchung entworfenen Matrix werden die Bewertungsergebnisse räumlich veranschaulicht. In Kopplung mit der Darstellung der mathematisch strukturierten Ergebnisse im Nachhaltigkeitsdreieck wird verdeutlicht, welche ökonomischen, sozialen und ökologischen Bedingungen im UG zu erwarten sind. Vor allem aus der Darstellung der Ergebnisse in der Matrix ist erkennbar, wo im UG welche Potentialfaktoren besonders günstig sind bzw. welche Kombination voneinander positiv beeinflussender Potentiale wo auftreten. Das UG wird sich nicht gleichmäßig entwickeln. Es wird entsprechend einer Knoten-Achsen-Struktur Entwicklungsschwerpunkte geben. Die Wirtschaft und die sozialen Beziehungen als Wachstumspole werden besonders in den Knoten gefördert. Die Achsen erstrecken sich entlang der infrastrukturellen Erschließung über den Rand des Gebietes hinaus und sorgen für eine Anbindung an das Umland. Das UG besitzt sehr günstige ökologische Potentiale, die bei der weiteren Entwicklung unbedingt berücksichtigt werden sollten. Als wenig günstig stellt sich das Potential der Wirtschaft heraus. Das bedeutet, dass besonders Anstrengungen zur Verbesserung der wirtschaftlichen Basis in diesem Gebiet unternommen werden müssen. Schlechte ökonomische Bedingungen ziehen rasch verschlechternde soziale Verhältnisse nach sich. Das UG befindet sich in einer Region, die von Entleerungstendenzen gekennzeichnet ist. Aus diesem Grund ist es wichtig, eine stabile und vielfältige Wirtschaft zu schaffen. Mit dem Totalausfall der ehemaligen wirtschaftlichen Basis, dem Braunkohlenabbau, müssen hier neue Wege gegangen werden, die zudem das ökologische Potential des UG unterstreichen. So genannte „Leuchttürme“ sollten das Gebiet wirtschaftlich wieder attraktiv machen und der Region eine neue Lebenschance geben. Die Autorin stellt Möglichkeiten der touristischen Nutzung vor und plädiert für die Nutzung alternativer Energien und nachwachsender Rohstoffe. Im UG muss Mut zu neuen Wirtschaftsstrukturen bewiesen werden. Je vielfältiger die neuen Möglichkeiten genutzt werden, desto stabiler wird die wirtschaftliche Basis. Je solider sich die ökonomische Grundlage festigt, desto günstiger wirkt sich das auf die sozialen Bedingungen aus. Die ökologische Gunst sollte von Anfang an bei der Gestaltung der Wirtschaft und der Entwicklung neuer Infrastruktur berücksichtigt werden. Dies wurde nicht zuletzt auch durch die Nachfrage bestätigt. Mögliche Ausgänge der Entwicklung werden in Szenarien beschrieben, in denen absichtlich die gegebenen Bedingungen in einer überspitzen Form weitergedacht werden, um das Wesentliche der möglichen Entwicklung darzustellen. Das Besondere der BFL sollte nicht nur als geschichtliche Erinnerung, sondern als raumprägendes Element erkennbar bleiben.
Physiotherapy for patients with hip and knee osteoarthritis in Germany: a survey of current practice
(2023)
Osteoarthritis (OA) of the hip and the knee is common and leads to pain, stiffness and disability. Clinical practice guidelines (CPG) provide recommendations to assist healthcare professionals in clinical decision-making. Although evidence-based physiotherapy has been shown to be effective in the management OA, a gap between clinical practice and guideline recommendations exists. Little is known about OA management provided by physiotherapists in Germany and whether treatment aligns with CPGs. The objectives of this study were (1) to investigate the current physiotherapy practice in patients with hip and/or knee OA in Germany, (2) to evaluate physiotherapists’ adherence to guideline recommendations and (3) to explore barriers and facilitators to guideline use.
The master thesis at hand examines the potential of district heating in Lusatia. The thesis follows the approach of first identifying technical and economic potentials in general and then transferring them to the study region. For the quantitative determination of district heating potential in Lusatia, the status quo is determined and a GIS-based analysis is carried out with regard to minimum heat demand densities. The extent to which district heating is suitable for climate-neutral heat supply will be investigated using the potential of renewable and waste heat energy sources. Furthermore, the regional economic effects of developing these potentials are examined. The results show that despite an overall decline in heat demand, there is potential to increase the relative share of district heating in Lusatia. In terms of climate neutrality, district heating in Lusatia offers special opportunities. Solar thermal energy and Power-to-Heat are of particular importance due to the rural character of Lusatia and its status as an energy region. From a regional economic perspective, climate-neutral district heating has a positive effect on value added and employment.