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Die Dissertation beschreibt den Bewerber als Kunden eines Unternehmens und das damit verbundene Erleben während der Bewerbungsphase. Die Gesamteindrücke des Bewerbers werden auch als Candidate Experience bezeichnet. Die theoretische Herangehensweise der Arbeit orientiert sich am Marketingkonzept Customer Experience Management (CEM), welches den Kunden in den Mittelpunkt der Betrachtung stellt. Neben der theoretischen Herleitung wurde für die empirische Datengrundlage ein vielfältiges Methodenspektrum gewählt, um sowohl die Kundensicht zu beleuchten als auch die Unternehmensseite. Die Analyse zeigt, dass Standards bzw. selbstverständliche Verhaltensregeln (Recruiting-Basics) in der Interaktion mit dem Bewerber noch lange nicht von allen Unternehmen eingehalten werden, was teilweise zu Unzufriedenheit und negativen Kommentaren im Social Web führt. Die unmittelbare Veröffentlichung und Verbreitung von Kommentaren im Internet bieten aus Sicht der Unternehmen Risiken, aber auch Chancen. Die Ergebnisse der Arbeit zeigen, dass Candidate Experience in einem durch den Fachkräftemangel bedingten "Arbeitnehmermarkt" zur Notwendigkeit wird. Es entsteht ein Umwerben von Talenten, wodurch sich der bisherige Recruiting-Ansatz umdreht. Ein modernes Recruiting kennzeichnet sich dabei durch eine aktive Ansprache der potentiellen Bewerber. Als Konsequenz dieser Entwicklung sollte das Recruiting ganzheitlich auf Maßnahmen ausgerichtet werden, die gemäß eines abgeleiteten Candidate-Experience-Management-Ansatz den persönlichen Dialog mit dem Kandidaten fördern, Orientierung und Transparenz schaffen sowie relevante Informationen aus Kundensicht bereitstellen. Dazu kann bereits eine Karriereseite mit kundenorientierten Inhalten beitragen. Weiterhin gilt der erlebte persönliche Dialog mit den Unternehmensvertretern als entscheidend. Im Hinblick auf die Erkenntnisse der Arbeit ist es für die Zukunft empfehlenswert, sowohl im Wettbewerb um die besten Talente als auch hinsichtlich einer positiven Reputation on und offline alle Kontaktpunkte des Bewerbers mit dem Unternehmen zu identifizieren und zu analysieren. Das positive Bewerbererlebnis kann dabei auf Basis der Identifizierung kritischer Kundenkontaktpunkte und gleichzeitiger Implementierung von Maßnahmen gestaltet werden. Als Strukturierungshilfe dient ein durch den Verfasser entwickeltes Prozessmodell, welches in der Praxis auf Basis einer Fallstudie angewendet wurde. Um Erwartungen von Bewerbern nicht nur zu erfüllen, sondern zu übertreffen, gilt es zusätzlich kreative Maßnahmen zu implementieren, die auch eine zunehmende Weiterempfehlungs-bereitschaft fördern. Insgesamt lässt sich hinsichtlich der Erwartungshaltung der Bewerber konstatieren, dass ein Unternehmen auch bei den jungen Akademikern der Generation Y punkten kann, wenn es sich in einem ersten Schritt zunächst auf die Einhaltung der Recruiting-Basics konzentriert.
Evaluation of desalination techniques for treating the brackish water of Olushandja sub-basin
(2014)
The groundwater of Olushandja sub-basin as part of Cuvelai basin in central-northern Namibia is saline with TDS content varying between 4,000ppm to 90,000ppm. Based on climatic conditions, this region can be classified as a semi-arid to arid region with an annual rainfall during summer time varying between 200mm to 500mm. The mean annual evaporation potential is about 2,800mm, which is much higher than the annual rainfall. The southern block of this sub-basin is of low population density. It has not been covered by the supply networks for electricity and water. Therefore, the inhabitants are forced to use the untreated groundwater from the hand-dug wells for their daily purposes. This groundwater is not safe for human consumption and therefore needs to be desalinated for that purpose. The goal of this thesis has been to select a suitable desalination technology for that region. The technology to be selected is from those which use renewable energy sources, which have capacity of production from 10m3 to 100m3 per day, which are simple and robust against existing harsh environmental conditions and have already been implemented successfully in some place. Based on these criteria, the technologies which emerged from the literature are: multistage flashing (MSF), multi effect distillation (MED), multi effect humidification (MEH), membrane distillation (MD), reverse osmosis (RO) and electro dialysis reversed (ED). Out of these technologies, RO & ED are based on membrane techniques and MSF, MED & MEH use thermal processes whereas MD technology uses a hybrid process of thermal and membrane techniques for desalinating the water. For evaluation of technical performance, environmental sustainability and financial feasibility of the above mentioned desalination techniques, the following criteria have been used: gained output ratio, recovery rate, pretreatment requirements, sensitivity to feed water quality, post treatment, operating temperature, operating pressure, scaling and fouling potential, corrosion susceptibility, brine disposal, prime energy requirement, mechanical and electrical power output, heat energy, running costs and water generation costs. The data regarding the performance standards of the successfully implemented desalination techniques have been obtained from the literature of performance benchmarks. The Utility Value Analysis Tool of the Rafter-Group of Multi-Criteria Analysis (MCA) has been used for measuring the performance score of a technology. To perform the utility analysis, an evaluation matrix has to be constructed through the following procedures: selection of the decision options (or assessment groups), identification of the evaluation criteria, measurement of performance and transformation of the units. Then the criteria under the objective groups are assigned a level of importance for determining their weights.To perform the sensitivity analysis the level of importance of a criterion is changed by giving more weight or rate to the assessment group of interest (or study). Within the assessment group of interests, the best performing desalination technology has been selected according to the outcome of the sensitivity analysis. The important conclusions of this study are the identification of the capabilities of thermal and membrane based small scale desalination technologies and their applicability based on site specific needs. The sensitivity analysis indicates that the MED technology is the most environmental friendly technology that uses minimum energy and produces least concentrated brine for disposal. The ED technology has emerged to be technically suitable, but it is only applicable when source water has less than 12.000 ppm salt content. The MSF process has favorable thermal efficiency and it is insensitive to feed water quality. Its major drawbacks are energy needs and post treatment requirements that affected its net score. The MD and MSF process have scored the lowest for the technical and economic assessment groups and are concluded not to be suitable for Olushandja sub-basin. The MEH process is cheaper and technically more appropriate than the MED in the two assessment groups. Based on the above mentioned evaluations, this study concluded that Olushandja sub-basin needs more data collection on the geological profile, distinctive identification of aquifers and evidence on the interaction between the aquifers. From the best available data obtained, it could not be established with certainty where the highest level of salinity can be found in the profile, or how the geological profile is layered. More data on ground water quality for spatial overview of the trends and pattern of the sub-basin will be useful in drawing better conclusion on the specific desalination technology needed which is suitable for a specified village or living space.
High-resolution projections of the future climate are required to assess climate change realistically at a regional scale. This is in particular important for climate change impact studies since global projections are much too coarse to represent local conditions adequately. A major concern is thereby the change of extreme values in a warming climate due to their severe impact on the natural environment, socio-economical systems and the human health. Regional climate models (RCMs) are, however, able to reproduce much of those local features. Current horizontal resolutions are about 18-25km, which is still too coarse to directly resolve small-scale processes such as deep-convection. For this reason, projections of a possible future climate were simulated in this study with the regional climate model COSMO-CLM at horizontal resolutions of 4.5km and 1.3km for the region of Saarland-Lorraine-Luxemburg and Rhineland-Palatinate for the first time. At a horizontal scale of about 1km deep-convection is treated explicitly, which is expected to improve particularly the simulation of convective summer precipitation and a better resolved orography is expected to improve near surface fields such as 2m temperature. These simulations were performed as 10-year long time-slice experiments for the present climate (1991"2000), the near future (2041"2050) and the end of the century (2091"2100). The climate change signals of the annual and seasonal means and the change of extremes are analysed with respect to precipitation and 2m temperature and a possible added value due to the increased resolution is investigated. To assess changes in extremes, extreme indices have been applied and 10- and 20-year return levels were estimated by "peak-over-threshold" models. Since it is generally known that model output of RCMs should not directly be used for climate change impact studies, the precipitation and temperature fields were bias-corrected with several quantile-matching methods. Among them is a new developed parametric method which includes an extension for extreme values and is hence expected to improve the correction. In addition, the impact of the bias-correction on the climate change signals and on the extreme value statistics was investigated. The results reveal a significant warming of the annual mean by about +1.7 -°C until 2041"2050 and +3.7 -°C until 2091"2100, but considerably stronger signals of up to +5 -°C in summer in the Rhine Valley. Furthermore, the daily variability increases by about +0.8 -°C in summer but decreases by about -0.8 -°C in winter. Consequently, hot extremes increase moderately until the mid of the century but strongly thereafter, in particular in the Rhine Valley. Cold extremes warm continuously in the complete domain in the next 100 years but strongest in mountainous areas. The change signals with regard to annual precipitation are of the order -±10% but not significant. Significant, however, are a predicted increase of +32% of the seasonal precipitation in autumn until 2041"2050 and a decrease of -28% in summer until 2091-2100. No significant changes were found for days with intensities > 20 mm/day, but the results indicate that extremes with return periods ≤2 years increase as well as the frequency and duration of dry periods. The bias-corrections amplified positive signals but dampened negative signals and considerably reduced the power of detection. Moreover, absolute values and frequencies of extremes were altered by the correction but change signals remained approximately constant. The new method outperformed other parametric methods, in particular with regard to extreme value correction and related extreme indices and return levels. Although the bias correction removed systematic errors, it should be treated as an additional layer of uncertainty in climate change studies. Finally, the increased resolution of 1.3km improved predominantly the representation of temperature fields and extremes in terms of spatial heterogeneity. The benefits for summer precipitation were not as clear due to a severe dry-bias in summer, but it could be shown that in principle the onset and intensity of convection improves. This work demonstrates that climate change will have severe impacts in this investigation area and that in particular extremes may change considerably. An increased resolution provides thereby an added value to the results. These findings encourage further investigations, for other variables as for example near-surface wind, which will be more feasible with growing computing resources. These analyses should, however, be repeated with longer time series, different RCMs and anthropogenic scenarios to determine the robustness and uncertainty of these results more extensively.
Dans une perspective du développement touristique durable du territoire d'Agadir / région Souss Massa Draa (Maroc), qu'est un territoire touristique offrant un produit balnéaire diversifié et généralement consolidé par une offre en matière du tourisme rural. Ce travail de recherche vise la mise en œuvre d"un management environnemental adapté à la situation locale, conforme aux normes internationales et à l'apporté des entreprises touristiques y opérant. Ainsi, la réalisation d"un diagnostic environnemental est une étape fondamentale et se fera à l'aide de quatre différents outils d'enquête (Observation, guide d"entretien, grille d'évaluation et questionnaires). Cependant, il va falloir choisir les cas leadeurs en la matière - s'ils existent - pour les présenter aux managers afin de les sensibiliser concrètement à la nécessité d'adopter un management environnemental au sein de leurs structures et de prendre ces cas sélectionnés comme modèles. Cette étude a permis de tirer les conclusions suivantes : - Une maturité du territoire d'étude de la région SMD, lui permettra de s"inscrire dans une démarche de développement touristique durable à travers l'adoption d'un management environnemental en passant par l"assurance de la qualité des services. - La qualité des services est satisfaisante au sein des EHT étudiés et relevant du milieu urbain. En revanche, en milieu rural elle à rehausser en soulignant qu'ils sont dotés d'un paysage régional remarquable et exceptionnel. - Les responsables interviewés n'ont cité que les impacts positifs de leurs activités sur l"environnement (Création d'emplois, promotion de l'économie et de la culture locales, financement des événements à caractère social...). - Une faible existence du Management environnemental au sein des EHT étudiés (4,16 % l'échantillonnage dispose d'une politique environnementale). Ainsi que à l'issue de l'évaluation deux cas ont été proposés comme modèles en la matière. - La charte et le Manuel comme de deux solutions locales visant la promotion du Management Environnemental. Actuellement, la charte a été mise en Å“uvre en milieu rural dans une perspective de la généraliser sur la totalité du territoire régional voire même national. Enfin, cette étude a apporté une réponse à la problématique et aux hypothèses de recherche et a permis par la même occasion de proposer des outils visant l'instauration et/ou la promotion du management environnemental à l'échelle régionale.
Mankind has dramatically influenced the nitrogen (N) fluxes between soil, vegetation, water and atmosphere " the global N cycle. Increasing intensification of agricultural land use, caused by the growing demand for agricultural products, has had major impacts on ecosystems worldwide. Particularly nitrogenous gases such as ammonia (NH3) have increased mainly due to industrial livestock farming. Countries with high N deposition rates require a variety of deposition measurements and effective N monitoring networks to assess N loads. Due to high costs, current "conventional"-deposition measurement stations are not widespread and therefore provide only a patchy picture of the real extent of the prevailing N deposition status over large areas. One tool that allows quantification of the exposure and the effects of atmospheric N impacts on an ecosystem is the use of bioindicators. Due to their specific physiology and ecology, especially lichens and mosses are suitable to reflect the atmospheric N input at ecosystem level. The present doctoral project began by investigating the general ability of epiphytic lichens to qualify and quantify N deposition by analysing both lichens and total N and δ15N along a gradient of different N emission sources and severity. The results showed that this was a viable monitoring method, and a grid-based monitoring system with nitrophytic lichens was set up in the western part of Germany. Finally, a critical appraisal of three different monitoring techniques (lichens, mosses and tree bark) was carried out to compare them with national relevant N deposition assessment programmes. In total 1057 lichen samples, 348 tree bark samples, 153 moss samples and 24 deposition water samples, were analysed in this dissertation at different investigation scales in Germany.The study identified species-specific ability and tolerance of various epiphytic lichens to accumulate N. Samples of tree bark were also collected and N accumulation ability was detected in connection with the increased intensity of agriculture, and according to the presence of reduced N compounds (NHx) in the atmosphere. Nitrophytic lichens (Xanthoria parietina, Physcia spp.) have the strongest correlations with high agriculture-related N deposition. In addition, the main N sources were revealed with the help of δ15N values along a gradient of altitude and areas affected by different types of land use (NH3 density classes, livestock units and various deposition types). Furthermore, in the first nationwide survey of Germany to compare lichens, mosses and tree bark samples as biomonitors for N deposition, it was revealed that lichens are clearly the most meaningful monitor organisms in highly N affected regions. Additionally, the study shows that dealing with different biomonitors is a difficult task due to their variety of N responses. The specific receptor surfaces of the indicators and therefore their different strategies of N uptake are responsible for the tissue N concentration of each organism group. It was also shown that the δ15N values depend on their N origin and the specific N transformations in each organism system, so that a direct comparison between atmosphere and ecosystems is not possible.In conclusion, biomonitors, and especially epiphytic lichens may serve as possible alternatives to get a spatially representative picture of the N deposition conditions. Furthermore, bioindication with lichens is a cost-efficient alternative to physico-chemical measurements to comprehensively assess different prevailing N doses and sources of N pools on a regional scale. They can at least support on-site deposition instruments by qualification and quantification of N deposition.