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Harmonie und Konflikt durch Recht? Oder: Wieso die chinesische Rechtsordnung an ihre Grenzen stößt
(2014)
Objective
The aim of this study was to assess the influence of cranio-cervical posture on the maximal mouth opening (MMO) and pressure pain threshold (PPT) in patients with myofascial temporomandibular pain disorders.
Materials and Methods
A total of 29 patients (19 females and 10 males) with myofascial temporomandibular pain disorders, aged 19 to 59 years participated in the study (mean years±SD; 34.69±10.83 y). MMO and the PPT (on the right side) of patients in neutral, retracted, and forward head postures were measured. A 1-way repeated measures analysis of variance followed by 3 pair-wise comparisons were used to determine differences.
Results
Comparisons indicated significant differences in PPT at 3 points within the trigeminal innervated musculature [masseter (M1 and M2) and anterior temporalis (T1)] among the 3 head postures [M1 (F=117.78; P<0.001), M2 (F=129.04; P<0.001), and T1 (F=195.44; P<0.001)]. There were also significant differences in MMO among the 3 head postures (F=208.06; P<0.001). The intrarater reliability on a given day-to-day basis was good with the interclass correlation coefficient ranging from 0.89 to 0.94 and 0.92 to 0.94 for PPT and MMO, respectively, among the different head postures.
Conclusions
The results of this study shows that the experimental induction of different cranio-cervical postures influences the MMO and PPT values of the temporomandibular joint and muscles of mastication that receive motor and sensory innervation by the trigeminal nerve. Our results provide data that supports the biomechanical relationship between the cranio-cervical region and the dynamics of the temporomandibular joint, as well as trigeminal nociceptive processing in different cranio-cervical postures.
Körperhaltung und Muskelspannung beeinflussen den Klang der Stimme. Aber gibt es auch einen Zusammenhang zwischen der motorischen Kontrolle der Nacken-, Gesichts- und Kieferregion und der Stimme? Die Pilotstudie mit 12 Sängerinnen ging dieser Frage nach und zeigt: Es ist sinnvoll, die motorische Kontrolle zu testen, wenn Patient*innen mit Stimmproblemen zur Physiotherapie kommen.
Aus der Praxis und für die Praxis : Entwicklung von pflegedidaktisch reflektierten Transferaufgaben
(2019)
Mit dem Start von primärqualifizierenden Pflegestudiengängen stehen die Hochschulen und die Pflegepraxis vor Herausforderungen, in denen die Vernetzung von Praxis und Theorie besondere Bedeutung hat. Pflegepraxis und akademisches Pflegewissen stehen im Besonderen dialektisch, in ihrer wechselseitigen Dynamik, im Mittelpunkt der Diskussion.
The biennial plant Gentianella bohemica is a subendemic of the Bohemian Massif, where it occurs in seminatural grasslands. It has become rare in recent decades as a result of profound changes in land use. Using amplified fragment length polymorphisms (AFLP) fingerprint data, we investigated the genetic structure within and among populations of G. bohemica in Bavaria, the Czech Republic, and the Austrian border region. The aim of our study was (1) to analyze the genetic structure among populations and to discuss these findings in the context of present and historical patterns of connectivity and isolation of populations, (2) to analyze genetic structure among consecutive generations (cohorts of two consecutive years), and (3) to investigate relationships between intrapopulational diversity and effective population size (Ne) as well as plant traits. (1) The German populations were strongly isolated from each other (pairwise FST= 0.29–0.60) and from all other populations (FST= 0.24–0.49). We found a pattern of near panmixis among the latter (FST= 0.15–0.35) with geographical distance explaining only 8% of the genetic variance. These results were congruent with a principal coordinate analysis (PCoA) and analysis using STRUCTURE to identify genetically coherent groups. These findings are in line with the strong physical barrier and historical constraints, resulting in separation of the German populations from the others. (2) We found pronounced genetic differences between consecutive cohorts of the German populations (pairwise FST= 0.23 and 0.31), which can be explained by local population history (land use, disturbance). (3) Genetic diversity within populations (Shannon index, HSh) was significantly correlated with Ne (RS= 0.733) and reflected a loss of diversity due to several demographic bottlenecks. Overall, we found that the genetic structure in G. bohemica is strongly influenced by historical periods of high connectivity and isolation as well as by marked demographic fluctuations in declining populations.
The distribution of a species along a thermal gradient is commonly approximated by a unimodal response curve, with a characteristic single optimum near the tempera‐ture where a species is most likely to be found, and a decreasing probability of occur‐rence away from the optimum. We aimed at identifying thermal response curves (TRCs) of European freshwater species and evaluating the potential impact of climate warming across species, taxonomic groups, and latitude. We first applied generalized additive models using catchment‐scale global data on distribution ranges of 577 freshwater species native to Europe and four different temperature variables (the current annual mean air/water temperature and the maximum air/water temperature of the warmest month) to describe species TRCs. We then classified TRCs into one of eight curve types and identified spatial patterns in thermal responses. Finally, we in‐tegrated empirical TRCs and the projected geographic distribution of climate warm‐ing to evaluate the effect of rising temperatures on species’ distributions. For the different temperature variables, 390–463 of 577 species (67.6%–80.2%) were char‐acterized by a unimodal TRC. The number of species with a unimodal TRC decreased from central toward northern and southern Europe. Warming tolerance (WT = maxi‐mum temperature of occurrence—preferred temperature) was higher at higher lati‐tudes. Preferred temperature of many species is already exceeded. Rising temperatures will affect most Mediterranean species. We demonstrated that fresh‐water species’ occurrence probabilities are most frequently unimodal. The impact of the global climate warming on species distributions is species and latitude depend‐ent. Among the studied taxonomic groups, rising temperatures will be most detri‐mental to fish. Our findings support the efforts of catchment‐based freshwater management and conservation in the face of global warming.
Niche-based species distribution models (SDMs) have become an essential tool in conservation and restoration planning. Given the current threats to freshwater biodiversity, it is of fundamental importance to address scale effects on the performance of niche-based SDMs of freshwater species’ distributions. The scale effects are addressed here in the context of hierarchical catchment ordering, considered as counterpart to coarsening grain-size by increasing grid-cell size. We combine fish occurrence data from the Danube River Basin, the hierarchical catchment ordering and multiple environmental factors representing topographic, climatic and anthropogenic effects to model fish occurrence probability across multiple scales. We focus on 1st to 5th order catchments. The spatial scale (hierarchical catchment order) only marginally influences the mean performance of SDMs, however the uncertainty of the estimates increases with scale. Key predictors and their relative importance are scale and species dependent. Our findings have useful implications for choosing proper species dependent spatial scales for river rehabilitation measures, and for conservation planning in areas where fine grain species data are unavailable.
Extending assessments of climate change-induced range shifts via correlative species distribution models by including species traits is crucial for conservation planning. However, comprehensive assessments of future distribution scenarios incorporating responses of biotic factors are poorly investigated. Therefore, the aim of our study was to extend the understanding about the combined usage of species traits data and species distribution models for different life stages and distribution scenarios. We combine global model predictions for the 2050s and thermal performances of Salmo trutta and Salmo salar under consideration of different life stages (adults, juveniles, eggs), timeframes (monthly, seasonally, yearly), and dispersal scenarios (no dispersal, free dispersal, restricted dispersal). We demonstrate that thermal performances of different life stages will either increase or decrease for certain time periods. Model predictions and thermal performances imply range declines and poleward shifts. Dispersal to suitable habitats will be an important factor mitigating warming effects; however, dams may block paths to areas linked to high performances. Our results emphasize enhanced inclusion of critical periods for species and proper dispersal solutions in conservation planning.
Model-derived relationships between chlorophyll a (Chl-a) and nutrients and temperature have fundamental implications for understanding complex interactions among water quality measures used for lake classification, yet accuracy comparisons of different approaches are scarce. Here, we (1) compared Chl-a model performances across linear and nonlinear statistical approaches; (2) evaluated single and combined effects of nutrients, depth, and temperature as lake surface water temperature (LSWT) or altitude on Chl-a; and (3) investigated the reliability of the best water quality model across 13 lakes from perialpine and central Balkan mountain regions. Chl-a was modelled using in situ water quality data from 157 European lakes; elevation data and LSWT in situ data were complemented by remote sensing measurements. Nonlinear approaches performed better, implying complex relationships between Chl-a and the explanatory variables. Boosted regression trees, as the best performing approach, accommodated interactions among predictor variables. Chl-a–nutrient relationships were characterized by sigmoidal curves, with total phosphorus having the largest explanatory power for our study region. In comparison with LSWT, utilization of altitude, the often-used temperature surrogate, led to different influence directions but similar predictive performances. These results support utilizing altitude in models for Chl-a predictions. Compared to Chl-a observations, Chl-a predictions of the best performing approach for mountain lakes (oligotrophic–eutrophic) led to minor differences in trophic state categorizations. Our findings suggest that both models with LSWT and altitude are appropriate for water quality predictions of lakes in mountain regions and emphasize the importance of incorporating interactions among variables when facing lake management challenges.
Following the collapse of the Soviet Union in 1991 around 45 million hectares
of arable land became abandoned across Russia. Our study focused on the recovery
potential and conservation value of grassland vegetation on ex-arable land in the Tyumen
region of the Western Siberian grain belt. We compared ex-arable grasslands of different
successional stages with ancient grasslands as reference for the final stage of succession
along a climatic gradient from the pre-taiga to the forest steppe zone. Plant community
composition and species richness of ex-arable land clearly developed towards reference
sites over time, but even after 24 years of abandonment, the grassland vegetation had not
totally recovered. The c-diversity of vascular plants was slightly higher on ex-arable land
than in ancient grasslands but the mean a-diversity was still moderately lower. A significant proportion of the vegetation of ex-arable land still consisted of ruderal and mesic
grassland species and the number and cover of meadow-steppe species was significantly
lower than in ancient grasslands. Grazing and time since abandonment positively affected
the reestablishment of target grassland species, whereas it was negatively affected by the
cover of grasses. In contrast to ex-arable land, the conservation value of arable land is only
modest. Therefore, future intensification of land use is most likely less harmful if directed
to existing arable land. Re-cultivation of ex-arable land and grassland improvement operations such as seeding of competitive grass species are major threats for the biodiversity of secondary grasslands on ex-arable land in the forest steppe zone of Western Siberia.
Restoring depleted soil organic carbon (SOC) stocks of arable land to remove carbon from the atmosphere and offset fossil fuel emissions is a promising strategy for the mitigation of climate change. In agroecosystems conservational tillage practices and the abandonment of formerly plowed fields (ex-arable land) are shown to have the highest potential to sequester SOC. Nevertheless reported sequestration rates vary and the effects of environmental site conditions remain poorly understood. Our results are based on a meta-analysis of 273 paired SOC estimates from 65 publications which included only mineral soils from the temperate zone. SOC stocks of ex-arable grasslands with an average of 14 years since abandonment were 18% larger compared to the SOC of arable land. Likewise, SOC stocks of never-plowed grassland plots were 11% larger than the SOC stocks of abandoned fields. The average sequestration rate was 0.72 t C ha− 1 yr− 1. Semi-arid and sub-humid climate as well as low initial SOC stocks positively affected proportional SOC gains suggesting that the recovery of carbon stocks is not limited by low primary production. Therefore, the northward shift of cultivation areas in the temperate zone will lead to the abandonment of soils with high SOC recovery potential. However, if native soils are opened up elsewhere to compensate for yield losses due to abandonment the surplus of SOC in ex-arable land can easily be overcompensated by cultivation losses.
Despite the high significance of the Western Siberian grain belt for crop production in Russia, its weed communities are largely unknown. In this region spring wheat is grown on fertile Chernozem soils with large field sizes but land-use intensity per area is low compared to Central Europe. By usin a randomized sampling design we studied arable weed assemblages in the northern forest-steppe zone of Tyumen region on 99 within-field sampling plots of 100 m² size. Surprisingly, with average of 9.8 ± 3.8 species 100 m-2 species richness was low when compared with low-input farming in Central Europe and did not differ between areas of different land-use intensity. Against expectations species composition was not predominantly controlled by soil characteristics and climate, most likely due to short natural gradients. Instead, management factors such as fertilization and tillage intensity seemed to be important factors. Except for two species the Tyumen weed flora consisted mainly of species that are widespread throughout the temperate zone. We found only 10 species with an origin or core area in North Asia or Eastern Europe. The species pool was generally small and with 26% the proportion of non-native spe cies (archaeophytes) was low, when compared to Central European weed communities. Given that weed communities with higher species richness are described from neighboring Bashkiria, we conclude that arable land-use intensity in Tyumen region is high enough to reduce community species richness within arable fields estimated by a randomized sampling design. Since measured soil nutrient values did not affect species richness, herbicide use is most likely the crucial management factor. Furthermore, species-richness was vitally restricted by the small species pool. The low proportion of thermophilous arable weed species that originate from the Mediterranean or Middle-Eastern area and contribute signif icantly to the Central European weed diversity indicate that climatic dispersal limitations may be re sponsible for the small number of weed species in the Tyumen flora. An additional constraint was the short history of arable farming in Western Siberia, where considerable arable land use was started only by the end of the 17th century.
Bei dieser mit dem dbl-Nachwuchspreis 2018 ausgezeichneten Pilotstudie erhielten sechs ProbandInnen in der Akutphase ihres erstmaligen Schlaganfalls eine hochfrequente Therapie in Anlehnung an die Propriozeptive Neuromuskuläre Fazilitation (PNF) kombiniert mit motorischer Imagination einer autobiografischen Erinnerung oder nur in Anlehnung an PNF. Zentrale Fragestellungen vor und nach der Intervention waren die Veränderungen des Schweregrades der Fazialisparese und der krankheitsbezogenen Lebensqualität der Betroffenen.
Die folgende Studie wurde vor dem Hintergrund der zunehmenden Relevanz von ökologisch nachhaltigem Handeln in unserer Gesellschaft aufgrund von wachsenden erlebbaren Auswirkungen durch unsere Lebensweise und den Klimawandel durchgeführt. Für die folgende qualitative Studie wurden fünf Studierende und fünf Berufstätige zu den Hintergründen ihres ökologisch nachhaltigen Handelns befragt. Es wurden zehn Einflussfaktoren identifiziert, welche ökologisch nachhaltiges Handeln von Studierenden und Berufstätigen beeinflussen: Wissen & Informationen; Persönliche Relevanz; empfundene Wichtigkeit & Interesse; Erlebnisse & Erfahrungen (auch ehrenamtliches Engagement); Soziale Umfelder (persönliches, studentisches und berufliches Umfeld); Beeinflussung durch Andere (auch Beeinflussung durch Medien); Positiver Nutzen; Abwägung; Gewohnheiten; Gefühle; Möglichkeiten zur Umsetzung. Als theoretische Basis zur Untersuchung von beeinflussenden Faktoren wurde das psychologische Modell zur Erklärung nachhaltigen Handelns von Hamann, Baumann und Löschinger (2016) hinzugezogen. Des Weiteren wurden drei Aspekte zur positiven Auswirkung von ökologisch nachhaltigem Handeln zur Förderung ökologisch nachhaltigen Handelns in der Gesellschaft gefunden: fortlaufender Prozess; Beeinflussung von Anderen; Ideen zur Förderung von ökologisch nachhaltigem Handeln. Weitere Maßnahmenvorschläge und Handlungsempfehlungen wurden v. a. für die Kontexte Beruf, Studium, Schule und Medien aus den Erkenntnissen der Studie abgeleitet.
Der Artikel beschreibt die methodische Herangehensweise und die zentralen Ergebnisse einer Studie zum Wirkungsgefüge von existenziell belastenden Situationen von Pflegekräften in kirchlichen Einrichtungen und zu den Ressourcen, die ihnen bei der Bewältigung helfen, insbesondere spirituellen Ressourcen. Dabei wird das für diese Studie entwickelte Repertory-Grid-gestützte narrative Interview vorgestellt und der Nut-zen dieser Methode anhand des Vorgehens und der Ergebnisse erläutert.
Spiritualität als Mittel zur Bewältigung schwieriger Pflegesituationen in kirchlichen Einrichtungen
(2013)
In der Untersuchung wird geprüft, ob in kirchlichen Einrichtungen tätige Pflegekräfte zur Bewältigung emotional schwieriger Situationen neben den bekannten Mitteln auch Religiosität und/ oder Spiritualität als Ressource oder Bewältigungsstrategie im Sinne des arbeitspsychologischen Belastungskonzepts nutzen. Sowohl die Erfahrung von Spiritualität als auch ihre Nutzung ist sprachlicher Explizierung nur schwer zugänglich, so dass qualitative Repertory-Grid-Erhebungen die narrativen Interviews unterstützten. Es werden unterschiedliche, auch spirituelle Ressourcen und Bewältigungsstrategien identifiziert und ihre Wirkungsweise beschrieben.
Die Aufgaben der Gesundheitsversorgung wurden mit dem zunehmenden Alter der Patienten, dem gewandelten Krankheitsspektrum, aber auch durch die geänderten Bedürfnisse der Nutzer sowie den verstärkten Einsatz von Medizintechnik immer aufwändiger und komplexer. Arbeitsteilung, Fragmentierung und Spezialisierung waren über viele Jahre unsere Antworten auf solche Herausforderungen. Den Effekt dieses vermeintlichen Fortschritts formulierte Hans Georg Gadamer (1994) in einem Aufsatz zum Thema „Über die Verborgenheit der Gesundheit“: „So viel ist jedenfalls klar“, schreibt er, der Begriff der „Ganzheit“ ist ein kunstvoller Ausdruck – der durch seinen Gegenbegriff, die „Spezialisierung“, überhaupt erst „notwendig […] geworden ist“. Hier setzt unser Memorandum an, es will einen Beitrag auf dem Weg zurück in die Zukunft einer neuen Ganzheit der Gesundheitsversorgung leisten.
Die Behandlung des Schädels ist derzeit ein sehr schnell wachsendes Gebiet im Bereich des Assessments und der neuromuskuloskeletalen Behandlung. Ziel dieses systematischen Literaturreviews war es, eine Übersicht zu Studien bezüglich der Wirkung von passiven Techniken auf das Kranium zu geben.
Bei den 37 gefundenen Studien zu kieferorthopädischer Schienen-, kraniosakraler oder Manueller Therapie als passive Maßnahmen waren kraniomandibuläre Dysfunktionen das am häufigsten vorkommende Krankheitsbild.
Hinsichtlich der Wirkung der unterschiedlichen Therapieansätze unter anderem auf Kopfschmerzen ebenso wie auf psychische Probleme ergab sich für alle Behandlungstechniken nur geringe Evidenz.
Insgesamt lässt die derzeitige Studienlage keine eindeutige Aussage zur Effektivität der untersuchten Maßnahmen zu.
Plant-based proteins are rapidly emerging, while novel technologies are explored to offer more efficient extraction processes. The current study aimed to evaluate the effects of pulsed electric fields (PEFs) and temperature on the extraction of soluble proteins from nettle leaves (Urtica dioica L.) and identify an optimal operational range for the highest yield of soluble proteins. Extractions and kinetic modeling were conducted with whole and ground dried leaves at different temperatures (30–70 °C) and specific energy of PEF (0–30 kJ kg−1) with extraction times of up to 60 min. The influence of temperature and specific energy on the soluble protein extraction yields was investigated and modeled using composite central design and response surface methodology. The experimental results were fitted to Peleg's kinetic model, which satisfactorily described the extraction process (R2 > 0.902), and PEF treated samples resulted in a higher soluble protein yield and shortened processing time. Response surface methodology showed that the linear effect of temperature and quadratic effect of PEF (p < 0.01) were highly significant for protein yield. In the optimized PEF-extraction region (specific energy between 10 and 24 kJ kg−1, and 70–78 °C), soluble protein yield was higher than 60% after 5 minutes of extraction. The achieved results are relevant for developing processes for PEF assisted extraction of soluble proteins from leaves. Understanding the effects of PEFs and process parameters is crucial to obtain high protein yields, while requiring low energy and short processing time.
In recent years, the issue of land consumption or land use has become increasingly important in many areas of our society. Logistics processes in particular take up a lot of space and have a significant impact on the environment. The question is how this use of land can be optimised. Based on a systematic literature review and interviews with experts in the period between May 2021 and July 2021, this paper presents indicators that constitute or influence space-efficient logistics in the context of cooperation. The results show that in addition to the established cooperation characteristics, there are other indicators that are directly related to land use. In the logistics sector, there is strong competitive pressure and, as a result, little trust between companies. It has been shown that with the help of a neutral moderator, the gap between trusting, land-efficient cooperation and one’s own entrepreneurial interests can be narrowed, and cooperation can be profitable for all participants. In addition, digitisation actually does not seem to be sufficient to meet the information needs of a cooperation. The exchange of information not only serves to automate processes, but also makes cooperation more transparent. It shows that legal and municipal requirements need to be developed. It also becomes clear that the indicators have a mutual influence on each other and cannot be considered in isolation when it comes to the actual implementation of a cooperation. By increasing the efficiency of cooperative processes and value creation, it offers the opportunity to make land use more sustainable.
Logistikunternehmen haben es bei der Suche nach neuen Standorten zunehmend schwerer, da geeignete Standorte immer knapper werden und ihnen wachsende Widerstände entgegenstehen: Umweltverbände und Anwohner*innen kritisieren Luftverschmutzung, Flächenverbrauch, Beeinträchtigungen des Landschaftsbilds und Zunahme des Verkehrslärms; die Lokalpolitik bevorzugt häufig Unternehmen mit höheren Gewerbesteueraufkommen und mehr (hochqualifizierten) Arbeitsplätzen. Der Druck auf die Logistikbranche, nachhaltigere Konzepte der Flächennutzung zu entwickeln und umzusetzen steigt. Zielsetzung des Artikels ist es, Ansätze aufzuzeigen, wie die Flächennutzung in der Logistik optimiert werden kann. Ein wichtiges Lösungsfeld ist auf Basis des Logistikmodells von Pfohl (2010) vor allem in den Bereichen der Flächenplanung zu verorten. Als Grundlage des Artikels wurde eine systematische Literaturrecherche durchgeführt. Die Ergebnisse zeigen Möglichkeiten auf, wie Unternehmen und Kommunen durch eine frühzeitige Planung zur Optimierung von Flächennutzung für logistische Prozesse beitragen können. Die sorgfältige Planung eines Lagers und die damit einhergehende Nutzung von effizienten Lagersystemen, verringern die benötigte Fläche und sorgen für verbesserte Prozesse im Bereich der Lager- und Umschlagslogistik. Auch lassen sich ggf. neue Lagerflächen vermeiden, wenn die bereits genutzten Flächen optimiert werden.
Ziel des Beitrags ist die Identifikation von Problemen, Meta-Anforderungen und Designprinzipien für den Einsatz von Mixed und Virtual Reality Brillen zur Unterstützung nicht-ärztlichen Fachpersonals bei zahnmedizinischen Hausbesuchen. Im Rahmen von zwei Gruppendiskussionen und einem Experteninterview wurden zunächst mögliche Einsatzszenarien identifiziert. Anschließend wurde eine systematische Literaturrecherche in den Datenbanken CINAHL, Business Source Premier und MEDLINE durchgeführt. In der gefundenen Literatur konnten 14 Probleme bei der Anwendung von Mixed und Virtual Reality Brillen identifiziert werden. Darauf basierend wurden 14 Meta-Anforderungen abgeleitet und in fünf Designprinzipien zusammengefasst. Abschließend wurden die Ergebnisse mit den Spezifikationen der Microsoft HoloLens 2 abgeglichen, um eine Eignung für die Unterstützung der geplanten Hausbesuche festzustellen. Zudem wurde ein Umsetzungskonzept skizziert. Die Ergebnisse dienen als wichtige Empfehlungen für die praxisnahe Umsetzung zukünftiger Konzepte bezüglich der Anwendung von Mixed und Virtual Reality Brillen im (zahn-)medizinischen Kontext. Die Literaturrecherche zeigt eine Forschungslücke im Bereich zahnmedizinischer Hausbesuche auf. Die Ergebnisse dieses Beitrags schaffen daher eine solide Basis für die zukünftige Forschung.
Bedeutung der Körperhaltung in einer Gesprächssituation für die Bewertung des Gesprächspartners
(2011)
Die vorliegende Studie widmet sich der Frage, wie bestimmte Formen der Körperhaltung aus der Sicht einer beobachtenden Person (N = 167) die Bewertung des Gesprächspartners beeinflussen. Im Rahmen einer experimentellen Untersuchung werden die Position der Arme, des Kopfes, des Rumpfes und die Ausrichtung des Körpers manipuliert und Einschätzungen im Hinblick auf sechs Merkmale (Durchsetzungsstärke, Kommunikationsfähigkeit, Verantwortungsbewusstsein, Teamfähigkeit, Führungskompetenz und Leistungsmotivation) erhoben. Darüber hinaus wird die wahrgenommene Attraktivität als Kovariate berücksichtigt. Die Ergebnisse zeigen bei allen vier Formen der Körperhaltung signifikante Effekte. Ferner finden sich in allen Bedingungen geschlechtsspezifische Unterschiede sowie ein durchgängiger Attraktivitätseffekt.
Container-based lightweight buildings offer a high ecologic and economic potential when they are designed as nearly zero-energy container buildings (NZECBs). Thus, they are relevant to energy transition in achieving an almost climate-neutral building stock. This paper describes and applies design strategies for suitable building concepts and energy systems to be used in NZECBs for different climates. Therefore, different applications in representative climatic zones were selected. Initially, the global climate zones were characterized and analyzed with regard to their potential for self-sufficiency and renewable energies in buildings. The design strategies were further developed and demonstrated for three cases: a single-family house in Sweden, a multi-family house in Germany, and a small school building in rural Ethiopia. For each case, design guidelines were derived and building concepts were developed. On the basis of these input data, various energy concepts were developed in which solar and wind energy, as well as biomass, were integrated as renewable energy sources. All the concepts were simulated and analyzed with the Polysun® software. The various approaches were compared and evaluated, particularly with regard to energy self-sufficiency. Self-sufficiency rates up to 80% were achieved. Finally, the influence of different climate zones on the energy efficiency of the single-family house was studied as well as the influence of the size of battery storage and insulation.
Semi-solid metal alloys, as used in industrial thixoforming, have a special microstructure of globular grains suspended in a liquid metal matrix. The complex rheological properties are strongly influenced by the local solid fraction, particle shape, particle size and state of agglomeration. It was analysed how the microstructure develops in dependence of the shear rate and cooling rate during the solidification and it was observed that the average particle size increased with increasing shear rate and decreasing cooling rate. In order to account for those phenomena, the rate of crystal growth and the relationship between average particle diameter and viscosity was modelled by applying the Sherwood two-film model for the mass transport. The dependence of the viscosity from the particle size were modelled with a modified Krieger–Dougherty model. Based on the rheological and microstructural observations an evaluation method was elaborated that allows for the construction of objective master curves that are independent of the particle growth during the experimentation. The isothermal experiments for the characterisation of the rheological behaviour consisted of step-change of shear-rate and yield-stress experiments. From the experimental data the steady-state flow curves could be determined as well as the time-dependent relaxation of the shear stress after a change of shear rate. The steady-state rheological behaviour was found to be shear thinning. Nevertheless, immediately after a shear-rate change an overshoot was observed that resulted from a short-time shear-thickening behaviour. The yield stress was found to strongly depend on the microstructure and the degree of agglomeration of the solid phase. With increasing rest time the yield stress was increasing strongly, because of the agglomeration of the solid particles. Based on the step-change of shear-rate experiments a single-phase flow has been developed that consists of a modified Herschel–Bulkley approach and accounts for the thixotropic as well as for the yield-stress behaviour of the alloys.
Making solar thermal systems less expensive, often results in a lower system efficiency. However, the cost-benefit ratio is relevant from the perspective of the consumer. The complex impact of component-related and system-related design parameters on the economics of a complete system makes the evaluation and economical optimization difficult.
Therefore, a complete simulation environment has been developed, which can automatically optimize solar-thermal systems,including collector and system parameters. The main collector module consists of a one-dimensional thermal model that was validated with a commercial solar collector. The efficiency curve and the production cost werecalculated as a function of several design and construction parameters. The collector module was linked to the commercial software Polysun®, so that parametric studies can be performed with minimaleffort. Optimization problems can be solved by using the Matlab® optimization toolbox.
The simulation environment wasused for sensitivity studies and optimization problems in order to analyze the impact of collector design-parameters with respect to system cost, system yield andeconomic values. We will demonstrate how a collector can be optimized and how the ideal system parameters like collector number and storage volume can be easily calculated. Finally, we will show how the optimizer is used for a given system in order to find ideal values for the absorber-sheet thickness and the number of pipes. Due to the holistic approach, the application of this tool set can be used for collector development as well as for system planning.
The impact of Pulsed Electric Fields (PEF) on the peeling ability of different fruits and vegetables in particular tomatoes, peaches, peppers, and oranges were investigated. Samples were exposed to a fixed electric field strength of 2.15 kV/cm. The specific energy ranged from 0.6 kJ/kg to 50.3 kJ/kg. The treated raw materials were analysed regarding to the peeling ability, skin size and weight and firmness. The best result for tomatoes at a specific energy of 1.2 kJ/kg induced a high score of peeling ability that led to less product loss and could therefore increase the yield by 33.84%–41.53% compared to untreated samples. Moreover, an increased skin size by a factor of 3.7 was observed. However, PEF had no significant impact on peeling ability of oranges, peppers, and peaches. Although oranges showed an improvement in peeling ability by up to 32%, this cannot be traced back to the PEF treatment. The different properties and structures of the raw materials were discussed and provided indications about the limitation of PEF.
Editorial
(2019)
Ab und zu wirft das CCJ einen Blick auf das aktuelle Geschehen in der Lehre am Institut für Kommunikationsmanagement. So
auch in dieser Ausgabe.
Die Studierenden im zweiten Semester des Masterstudiengangs Management und Kommunikation hatten im Sommersemester 2021 die Aufgabe, eine prägnante These zum Change Management vor dem Hintergrund zunehmender digitaler Kollaboration in Organisationen zu entwickeln und im Plenum zu verteidigen. Heraus kamen
Thesen wie:
In der Praxis lässt sich digitale Kollaboration am ehesten über Interventionen der Unternehmenskultur herbeiführen!
Virtual Reality erhöht die Qualität von virtuellen Meetings!
Remote Work ist das Arbeitsmodell der Zukunft, braucht aber neue Führungsmodelle!
Gesund essen! Umweltbewusst ernähren! Den Tierschutz beachten! Keine gentechnischen Veränderungen! Kaum eine Branche ist so voll von Appellativen an das Verbraucherverhalten wie die Lebensmittelwirtschaft. Doch was tun, wenn alle Information nicht zu dem gewünschten Verhalten führt? Werden wir dann alle in eine Richtung „gestupst“ und ist die wirklich richtig? Wie weit darf der Staat den Verbraucher vor sich selber schützen?