Analyse des Bietverhaltens eines Kraftwerkbetreibers an der EEX

Koller, Jan.

January 2008

Bachelor-Arbeit Univ. St. Gallen, 2008.

Handelsstrategien im deutschen Elektrizitätsmarkt : Untersuchung der Gebotsstrukturen und agentenbasierte Simulation des EEX-Spothandels /

Melzian, Rocco.

January 2008

Zugl.: Berlin, Techn. Universiẗat, Diss.

Energy Exchange Within a Corn Canopy

McCaughey, John Harry

10 1900

<p> The results of an investigation of the micro-climate of a sweet corn canopy is reported at two stages in its development. The purpose of the experiment was to study the height dependence and diurnal variations of the net radiation, sensible and latent heat fluxes, and the turbulent transfer mechanism. Only daytime data were used.</p> <p> The depletion of net radiation in the canopy was studied within the framework of the exponential model. A new model for estimating net radiation in the canopy is developed. The pattern of the sources and sinks and the apparent turbulent transfer coefficient for sensible and latent heat in the canopy space are reported.</p> / Thesis / Doctor of Philosophy (PhD)

Radiant Energy Exchange Above and Within a Dwarf Apple Orchard

Suckling, Philip

05 1900

<p> The radiation balance of a dwarf apple orchard was evaluated. Results compared favourably with those for a single apple tree in an earlier investigation. Reflection, heating and longwave exchange coefficients were analysed. </p> <p> Transmitted global radiation was measured with moving and stationary sensors. Coefficients for the partitioning of incident global radiation were calculated. A relationship between photosynthetically active radiation and global radiation was established. Coefficients for the partitioning of incident photosynthetically active radiation were obtained and compared to the global radiation components. A problem associated with the measurement of transmitted radiation is discussed briefly. </p> / Thesis / Master of Science (MSc)

Energy Exchange

Dwarf Apple

Apple Orchard

radiation balance

ACCIDENT DENOMINATORS RELATIVE TO AGE GROUPS IN HEAVY INDUSTRIES OF THE PORT HEDLAND REGION OF WESTERN AUSTRALIA

BOTTRELL, John Robert, John.Bottrell@dsl-riotinto.com.au

January 2007

The aim of this research is to investigate characteristics of accident denominators across age groups in mining and associated process industries in the Port Hedland region of Western Australia. Emphasis has been focussed on comparing young, inexperienced groups with older, more experienced groups. A literature review revealed some key contributors to accidents among younger workers, in particular, those who had only recently entered the workforce. The review also revealed contributors impacting accidents regarding other age groups over a wide range of industry types. From these findings an accident construct model and questionnaire were designed to identify contributing and mitigating denominators which input to accidents occurring across the defined age groups.

accident denominators

accident construct

age group

hazard

mitigating denominators

risk

energy exchange

damage class

damage type

Effects of surface temperature in gas-surface interaction : quantum-state resolved studies of H₂ scattering from Si(100)

Zhang, Shengyuan

09 February 2011

The scattering of H2 from Si(100) has been studied using pulsed molecular beam techniques and quantum state-specific detection methods. These studies can be used to test theoretical calculations and give insight into new theories of molecule-surface interactions, a fundamental study in a diverse field of science and technology. In this work, time-of-flight (TOF) spectra of the elastic scattering of H2(v=1. J=1) and H2(v=0, J=1) from clean Si were recorded over a wide range of surface temperatures. Two data processing strategies were developed to extract rich kinematic information from the scattering experiments, e.g., mean translational energy exchange, absolutely survival probability, and angular and speed distribution of the scattered molecules. No such set of quantitative results has been reported before for this system. Compared with close packed metal surfaces, these scattering experiments from a covalently bonded semiconductor surface showed a completely distinct dynamics, e.g. the finding of energy gain instead of loss from the substrate, much broader angular distribution and some counterintuitive surface temperature effects. From the studies of molecules/surface scattering experiments, the thermal excitation on Si(100) surface which depends on surface temperature can substantially alter the adsorption barrier and its distribution, and therefore changes the kinematics of scattered molecules. As a result, even the most basic understanding of the dynamics has to include phonon excitation and deexcitation of the silicon substrate. / text

Gas-surface interaction

Quantum-state resolved

Angular distribution

Speed distribution

Energy exchange

Si(100)

Elastic scattering

Effects of species and rooting conditions on the growth and cooling performance of urban trees

Rahman, Mohammad

January 2013

The urban heat island (UHI) is a problem that is likely to be exacerbated by ongoing climate change, but it is often claimed that urban trees can mitigate it and hence adapt our cities to climate change. Many researchers have attempted to quantify the cooling effects of trees using modelling approaches. However, the major disadvantage of most of the models is that they consider all vegetation to act as a single saturated layer and that their effect is merely proportional to its surface cover. Therefore, they fail to take into account potential differences between tree species and the effect of different environmental and growing conditions. To address this issue four different studies were conducted in Manchester, UK from February, 2010 to December, 2012. The studies compared the growth and cooling abilities of several commonly planted urban tree species, and investigated a single species planted in a range of growing conditions: investigating the effect of urban soil compaction and aeration and also the effect of urbanization and simulated climate change in the rooting zone. Overall, our studies showed that species selection and growing conditions can substantially alter the evapotranspirational cooling provided by urban trees. Fast growing species such as Pyrus calleryana, with their dense and wide canopy can provide cooling up to 2.2 kW tree-1, 3-4 times that of Sorbus arnoldiana, which have a thinner and narrower canopy and a moderate growth rate. P. calleryana was also investigated under three contrasting growth conditions: in cut-out pits in pavements; in grass verges; and in pits filled with Amsterdam soil. Trees in the less compacted Amsterdam soil had grown almost twice as fast as those in pavements and also had better leaf physiological performance. Together with a longer growing season, and better uptake of soil nutrients and moisture, trees grown in Amsterdam soil provided evapotranspirational cooling of up to 7kW, 5 times higher than those grown in pavements. Another experiment in which P. calleryana trees were planted in 3 standard planting techniques with non-compacted load bearing soils and with or without permeable slabs showed that optimum cooling is not only dependent on preventing soil compaction but also on ensuring that the covering materials are permeable to oxygen. Trees in the open pits provided up-to 1 kW of cooling, compared to around 350 and 650 W by the small and large covered pits respectively. Our final experiment showed that urbanization can increase tree growth by 20-30%; however, despite being under more water stressed conditions trees grown in simulated climate change plots had 40% higher sap flux density, and hence cooling potential. The study suggested that at least with P. calleryana, transpirational cooling benefit might be enhanced in places like Manchester with increased soil temperature in future, but potentially at the expense of photosynthesis and carbon gain. Together these studies show that evaporative cooling of trees depends strongly on both species and growing conditions. If incorporated into regional and local energy exchange models our results can help us to quantify the magnitude and effectiveness of greenspaces in the city in adapting them to climate change.

551.5

Strong optical coupling between 3D confined resonant modes in microtube cavities

Wang, Xiaoyu

29 November 2022

Coupled whispering-gallery-mode (WGM) optical microcavities have been extensively explored to tune the resonant eigenfrequencies and spatial distributions of the optical modes, finding many unique photonic applications in a variety of fields, such as nonlinear optics, laser physics, and non-Hermitian photonics. As one type of WGM microcavities, microtube cavities with axial potential wells support 3D confined resonances by circulating light along the microtube cross-section and axis simultaneously, which offers a promising possibility to explore multidimensional and multichannel optical coupling. In this thesis, the optical coupling of 3D confined resonant modes is investigated in coupled microtube cavities fabricated by self-rolling of prestrained nanomembranes. In the first coupling system, multiple sets of 3D optical modes are generated in a single microtube cavity owing to nanogap induced resonant trajectory splitting. The large overlap of optical fields in the split resonant trajectories triggers strong optical coupling of the 3D confined resonant modes. The spectra anticrossing feature and changing-over of one group of coupled fundamental modes are demonstrated as direct evidence of strong coupling. The spatial optical field distribution of 3D coupling modes was experimentally mapped upon the strong coupling regime, which allows direct observation of the energy transfer process between two hybrid states. Numerical calculations based on a quasi-potential model and the mode detuning process are in excellent agreement with the experimental results. On this basis, monolithically integrated twin microtube cavities are proposed to achieve the collective coupling of two sets of 3D optical modes. Owing to the aligned twin geometries, two sets of 3D optical modes in twin microtubes are spectrally and spatially matched, by which both the fundamental and higher-order axial modes are respectively coupled with each other. Multiple groups of the coupling modes provide multiple effective channels for energy exchange between coupled microcavities, which are illustrated by the measured spatial optical field distributions. The spectral anticrossing and changing-over features of each group of coupled modes are revealed in experiments and calculations, indicating the occurrence of strong coupling. In addition, the simulated 3D mode profiles of twin microcavities confirm the collective strong coupling behavior, which is in good agreement with the experimental results. Our work provides a compact and robust scheme for realizing 3D optical coupling, which is of high interest for promising applications such as 3D non-Hermitian systems and multi-channel optical signal processing.

info:eu-repo/classification/ddc/530

ddc:530

Řízení vybraných rizik v elektroenergetice / Management of selected risks in power - utility sector

Horník, Tomáš

January 2009

The thesis is focused on selected risks and theirs management in power sector. In introduction it is analysed power sector in the context of other energy commodities, hereafter it is analysed the approach to power price modelling. Furthermore are analysed the aspects of regulatory risk in Czech Republic. Finally it is evaluated the risk management system of a company in power- utility sector.