02 Fakultät Bau- und Umweltingenieurwissenschaften

Permanent URI for this collectionhttps://elib.uni-stuttgart.de/handle/11682/3

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Publication Type: search.filters.UBSTyp.Abschlussarbeit (Master)End date: 2019

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Now showing 1 - 8 of 8
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    Automated calibration for numerical models of riverflow
    (2016) Fernández, Betsaida
    Calibration of numerical models is fundamental since the beginning of all types of hydro system modeling, to approximate the parameters that can mimic the overall system behavior. Thus, an assessment of different deterministic and stochastic optimization methods is undertaken to compare their robustness, computational feasibility, and global search capacity. Also, the uncertainty of the most suitable methods is analyzed. These optimization methods minimize the objective function that comprises synthetic measurements and simulated data. Synthetic measurement data replace the observed data set to guarantee an existing parameter solution. The input data for the objective function derivate from a hydro-morphological dynamics numerical model which represents an 180-degree bend channel. The hydro- morphological numerical model shows a high level of ill-posedness in the mathematical problem. The minimization of the objective function by different candidate methods for optimization indicates a failure in some of the gradient-based methods as Newton Conjugated and BFGS. Others reveal partial convergence, such as Nelder-Mead, Polak und Ribieri, L-BFGS-B, Truncated Newton Conjugated, and Trust-Region Newton Conjugated Gradient. Further ones indicate parameter solutions that range outside the physical limits, such as Levenberg-Marquardt and LeastSquareRoot. Moreover, there is a significant computational demand for genetic optimization methods, such as Differential Evolution and Basin-Hopping, as well as for Brute Force methods. The Deterministic Sequential Least Square Programming and the scholastic Bayes Inference theory methods present the optimal optimization results.
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    Green infrastructure planning in developing countries; developing green concept in Kurdistan region-Iraq
    (2011) Mohamed, Sawsan
    Under the shadow of ‘Climate Change’ and ‘Global Warming’ effects and within the arising interest to sustainable development, this document presents the long-term framework for sustainable development, protecting the natural and historic environment and adapting cities to climate change through Green Infrastructure Planning (GIP). At the national level, the effect of climate change is overheating, with a more frequent sand storm, and major problem of water sacristy and drought. The Case Study Area is particularly vulnerable to, temperature increase, flooding, and to some extent drought conditions. Policies cover climate change mitigation and adaptation are various, starting from natural resource management, economic development, transportation plan, Green Infrastructure plan up to change of individual behaviour regarding energy consumption. In the course of the thesis framework, Climate Change adaptation is limited to Green Infrastructure application as an integral and important practice of the development process. Green Infrastructure Planning approach is an integration of planning at a different spatial level, so mainly two different special levels define the working environment, namely regional and metropolitan level. Also, Green Infrastructure provides a variety of ecosystem benefits. In the course of this study, the focus is on a certain function related to climatic, engineering and ecological benefits that will be used as the basic principal in developing the Green Infrastructure Plan at both Regional and City scale. The proposed GI Plan for Case Study Region (CSR) is an academic initiative at Regional level to identify and safeguard valued natural and cultural resources. The plan aims to bring together the region’s most important biodiversity areas, historical sites, and natural landscape including natural systems such as streams, Karez, watersheds, scenic landscape, and recreational site and to lesser extent working landscapes. In a dense conurbation like the Case Study City (CSC) where green spaces have to be multi-functional, the green infrastructure refers to the network of all green spaces that provides various benefits to the residents. Therefore the proposed GI Plan for Sulaimaniyah City (CSC) is an academic initiative at the municipal level to identify valued community green space resources. The plan aims to bring together the city most important green space resources with development of a new typology. With the provision of providing better climatic engineering function in and around the existing City, to improve the current climatic condition and as an adaptation strategy for climate change effects. So it is an initiative aiming to contribute to change the traditional conceptual understanding of green resource from something good to have, to an essential multifunctional resource that must be planned and developed in an integrated way.
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    Investigation on the removal of selected organic micropollutants from municipal wastewater by trickling filters and sand filters
    (2019) Ghorban, Shima
    Recently several different types of organic micropollutants are detected in the aquatic environment as a result of inadequate wastewater treatment. The adverse effects of the various micropollutants such as pharmaceuticals, personal care products, pesticides, herbicides and industrial chemicals with concentrations less than 1 μgL-1 on the ecosystem are challenging to be assessed. Thus, sufficient approaches are indispensable to curtail the negative impacts that these substances may have on the environment and human health. Much research was done especially in the recent years on the fate and removal of these emerging contaminants from wastewater by different measures. In this work, a systematic literature review (SLR) is conducted to determine the current state of research in micropollutant removal around the globe which discovers the existing approaches for micropollutant treatment and enables applying an unbiased evaluation. Then one of the identified approaches (sand filter and trickling filter) which is the objective of this study was investigated, and the removal behavior of micropollutants by this method was experimented. The influent and effluent of the trickling filters and sand filters in LFKW wastewater treatment plant were taken and the effect of biodegradation and sorption on the removal of the compounds was investigated. Micropollutant analysis regarding non-polar substances was performed bygas chromatography-mass spectrometry (GCMS) while high-performance liquid chromatography coupled with tandem mass spectrometry (HPLC-MSMS) was applied instead for polar compounds. Furthermore, the molecular orbital energies of the substances were investigated. UV/Vis spectrophotometry and DOC analysis were other experimental approaches that have been used in order to shed some light on the behavior of these contaminants. As a result of this study, micropollutants are classified in different groups based on their physical-chemical properties, providing it as an essential factor affecting micropollutant removal behavior. Moreover, different correlations between the physical-chemical properties and the micropollutants elimination are assessed.
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    Evaluating SDG Indicators 6.1.1 and 6.2.1 taking into Consideration the Importance of Gender Equality
    (2018) Kramer, Hanna Katharina
    The present thesis examines the selected indicators to monitor the Sustainable Development Goal (SDG) targets 6.1 and 6.2 of the 2030 Agenda adopted at the United Nations in 2015. It gives an overview of the most important theoretical concepts of indicator development. To evaluate the indicators, further research was done on the interrelation of gender and Water Sanitation and Hygiene (WASH), and the concrete challenges women and girls must face. This includes an overall look at the human right principle of equality and the requirements for the human right to water and sanitation. A Joint Monitoring Programme (JMP) comprising World Health Organization (WHO) and United Nations International Children’s Emergency Fund (UNICEF) is recently responsible for monitoring SDGs 6.1 and 6.2. The programme developed so-called service ladders for monitoring the achievements of the targets. This work continued with the idea of these service ladders and advanced those through the inclusion of all elements of the human right criteria to water and sanitation. Thereby the indicator covers a broader range of aspects stated by the target. Including the target statement, to pay special attention to the needs of women and girls. Furthermore, the application of these service ladders is part of this work. This was possible in the course of a case study in Peru. In order to close existing data gaps and to support the application of the advance service ladders, a Transect Walk has been conducted in San Andrés de Tupicocha/ Huarochirí. The Transect Walk proved to be a valuable instrument in collecting treasured information which goes beyond survey data from national censuses. The use of the indicators in San Andrés de Tupicocha has shown that it is possible with simple means to monitor other aspects of the target, in the awareness of the urgency to leave no one behind to achieve equality and sustainability. In addition to the Transect Walk, the case study included interviews of different institutions like research institutions, public entities, and NGOs to gain an insight into the views of the various stakeholders on the subject.
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    Assessment of selected micropollutants and the effect of rain events in wastewater treatment plant and its receiving water body
    (2017) Riyahi, Amir
    Frequent detection of micropollutants in municipal wastewater raise the concern of these non-regulated pollutants and their adverse effects on aquatic life. The lack of comprehensive investigation and regulations in water policies regarded to micropollutants behavior may lead to the contamination of water resources. In contemplation of extending the groundwork for future water policies, an assessment of the behavior of micropollutants such as pharmaceuticals, industrial chemicals, personal care products and pesticides have been accomplished. Observation of the diurnal behavior, effect of rain events and combined sewer overflows, evaluation of comportment of conventional parameters and heavy metals with micropollutants and an estimation of average diurnal load per capita have been the objectives of this study. The influent and effluent of the wastewater treatment plant of Herbolzheim, its receiving water body and the combined sewer overflows in its catchment area have been investigated. In regard to non-polar substances, gas chromatography and mass spectrometry has been applied, whereas high performance liquid chromatography was used for polar micropollutants. Comparative demonstration of conventional parameters affirms the reliability of results to be compared with the micropollutants. Influent of Triclosan seems to follow a similar pattern as turbidity; moreover, the fluctuation of the ammonium and pharmaceuticals appears to be resemblance due to the same source of diffuse. Furthermore, the elimination percentage for different substances ranges from no degradation for substances such as Carbamazepine, to almost complete removal of 99% for the Ibuprofen. Correlation between the spectral absorption coefficient and the pharmaceuticals as well as turbidity and Triclosan seems to be strong; additionally the strength of the correlation among ammonium and the pharmaceuticals is related to the frequency of consumption of pharmaceuticals. The average effluent concentrations of this study in comparison with other studies in Europe and the state of Baden-Württemberg have been introduced. Influent load fluctuations seem to be almost constant for several substances, hence an average estimation of influent load per capita has been investigated and compared with other studies. Comportment of heavy metals and metals such as potassium and micropollutants is evident. Ultimately, the concentrations of micropollutants in combined sewer overflows in multiple cases are higher than the effluent and even of the influent of the wastewater treatment plant, which implies the necessity of the treatment before discharge into the water body. Enforcement of regulations will enhance the protection of water resources and diminish the pollutants from the diffuse sources.
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    Bayesian Model Selection for hydro-morphodynamic models
    (2017) Mohammadi, Farid
    A good grasp of hydro-morphodynamic processes plays a major role in modern river management to accommodate its often-conflicting functions. In the last century, a variety of models has been developed to improve our perception of sediment transport and the resulting changes in river bed topography, using several empirical formulations. Therefore, there is a demonstrated need to establish a framework that helps the river engineer to select the closest model to the measurements. This study suggested a Bayesian Model Selection (BMS) framework to direct the modeler towards the most robust and sensible representation of the hydro-morphodynamic conditions of the river under investigation. The proposed framework employs Bayesian Model Evidence (BME) resulting from Bayesian Model Averaging (BMA) as a model evaluation yardstick for ranking competing models. BMA performs a compromise between bias and variance, i.e. it blends a measure for goodness of fit with a penalty for unacceptable model complexity. This approach requires many model simulations, which are computationally expensive. However, this issue can be diminished by a mathematically optimal response surface via the aPC technique projects the original model. This response surface, also known as a reduced (surrogate) model can exhibit the reliance of the model on all relevant parameters for calibration at high order accuracy. The proposed framework was implemented in the model selection of two test cases; namely a test case model, based on an experiment done by Yen and Lee (1995) and a river model of a 10-km stretch of the lower Rhine, provided by the FederalWaterways Research Institute (BAW) in Karlsruhe. The results demonstrated that the proposed framework was acceptably able to detect the most desirable model in which a good agreement existed between the simulation results and measurement data when the complete knowledge of initial parameters lacked. Further, the BMS framework could direct us to the most probable parameter regions for the task of optimization via probability density distributions of uncertain variables. Overall, this research fills a void in the literature with respect to the selection of sediment transport equation for representation of hydro-morphodynamics of natural rivers. The suggested approach provides an objective guidance in the model selection to assist even less experienced users by reducing the professional expertise required for further optimization tasks.
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    Assessing vulnerability and capacity of flood affected communities in Punjab, Pakistan : case study: district Jhang and Muzaffargarh
    (2015) Jamshed, Ali
    In Punjab, the continuous floods in the last six years especially in 2010 and 2014, due to climatic and non-climatic reasons, have exposed physical, socio-economic, and environmental vulnerabilities. The flood disaster management in Punjab is primarily focused on rescue, relief, and dependence of structural measures. The assessment of vulnerability is limited to district level (in form of mapping) which is incapable of identifying essential socio-economic drivers of vulnerability and local ability to cope and adapt. The mega flood of 2010 inflicted several changes in government structure and within communities. This research study assessed the vulnerability and capacity of flood affected communities as well as fluctuation in their vulnerability and capacity by analyzing planned and unplanned post flood responses. The study also determined the role of spatial planning in reducing flood vulnerabilities. To conduct the study, a vulnerability assessment framework was modified from sustainable livelihood and BBC framework. Qualitative and quantitative analysis and their triangulation were conducted to apprehend the pertaining issues. Interviews with officials of disaster management and spatial planning institutes were conducted to analyze changes after 2010 flood and government interventions. Participatory Rapid Appraisal (PRA) for two flood events (2010 and 2014) and household survey provided the vulnerability and capacity assessment of four flood affected communities in two severely affected districts (Jhang and Muzaffargarh) of Punjab. The results indicated that government interventions were limited to financial aid and early warning. These measures remained victim to political biasness, mismanagement, and lack of coordination and communication between departments. Other formal changes (legislation, policies, plans etc.) seemed to be less effective due to top-down approach, lack of technical man power; disaster management knowledge and financial constraints. Spatial planning appeared ineffective in mitigating flood risk as it was limited to urban areas and deficient incorporation of DRR measures in development plans. The results of PRA and household survey indicated that vulnerability of immovable assets increased or remained the same after 2014 flood disaster, but reduced significantly for moveable assets. Complex relationships existed within and between various dimensions of vulnerability that fluctuated vulnerability of related elements and factors. These relationships demonstrated that lack of physical infrastructure and awareness were the key drivers of vulnerability in Punjab.