Green power in green spaces : policy options to promote renewable energy use in U.S. national parks /

Green, Erin H.

January 2006

Thesis (M.S.)--Rochester Institute of Technology, 2006. / Typescript. Includes bibliographical references (leaves 182-186).

The ROAST [i.e., ROSAT] north ecliptic pole survey

Mullis, Christopher Robinson.

January 2001

Thesis (Ph. D.)--University of Hawaii at Manoa, 2001. / Includes bibliographical references (leaves 180-195). Also available on microfiche.

Christology and the synoptic problem : an argument for Markan priority /

Head, Peter M.

January 1997

Texte remanié de: Doct. Diss.--Cambridge, 1994. / Bibliogr. p. 263-307. Index.

Exploring the Universe Using Neutrinos : A Search for Point Sources in the Southern Hemisphere Using the IceCube Neutrino Observatory

Ström, Rickard

January 2015

Neutrinos are the ideal cosmic messengers, and can be used to explore the most powerful accelerators in the Universe, in particular the mechanisms for producing and accelerating cosmic rays to incredible energies. By studying clustering of neutrino candidate events in the IceCube detector we can discover sites of hadronic acceleration. We present results on searches for point-like sources of astrophysical neutrinos located in the Southern hemisphere, at energies between 100 GeV and a few TeV. The data were collected during the first year of the completed 86-string detector, corresponding to a detector livetime of 329 days. The event selection focuses on identifying events starting inside the instrumented volume, utilizing several advanced veto techniques, successfully reducing the large background of atmospheric muons. An unbinned maximum likelihood method is used to search for clustering of neutrino-like events. We perform a search in the full Southern hemisphere and a dedicated search using a catalog of 96 pre-defined known gamma-ray emitting sources seen in ground-based telescopes. No evidence of neutrino emission from point-like sources is found. The hottest spot is located at R.A. 305.2° and Dec. -8.5°, with a post-trial p-value of 88.1%. The most significant source in the a priori list is QSO 2022-077 with a post-trial p-value of 14.8%. In the absence of evidence for a signal, we calculate upper limits on the flux of muon-neutrinos for a range of spectra. For an unbroken E-2 neutrino spectrum, the observed limits are between 2.8 and 9.4×10-10 TeV cm-2 s-1, while for an E-2 neutrino spectrum with an exponential cut-off at 10 TeV, the observed limits are between 0.6 and 3.6×10-9 TeV cm-2 s-1. / IceCube

astroparticle physics

neutrino sources

neutrino telescopes

IceCube

Análise técnica econômica de um gaseificador de biomassa de 100 kg/h para acionamento de um motor de combustão interna /

Coronado Rodríguez, Christian Jeremi.

January 2007

Orientador: José Luz Silveira / Banca: Celso Eduardo Tuna / Banca: Diovana Aparecida dos Santos Napoleão / Resumo: Após as crises do petróleo de 1973 e de 1979, notou-se um efeito nocivo dos elevados custos e contínuo aumento dos preços do petróleo, razão pela qual aumentou o interesse pelas fontes de energias renováveis, amplamente disponíveis nos países em desenvolvimento. Em todo o mundo, tornaram-se objetivos prioritários de se economizar energia e buscar tecnologias racionais, levando-se sempre em consideração os efeitos relacionados ao meio ambiente. Por outro lado, a escassez iminente dos combustíveis fósseis tem exigido da humanidade o uso racional de energia primária e como conseqüência, novas plantas em versões tecnológicas mais desenvolvidas têm sido concebidas visando sempre o aumento da eficiência energética. Neste contexto, destacam-se as tecnologias de gaseificação de madeira, que consistem em técnicas de conversão da biomassa em gás combustível. O objetivo principal deste trabalho é o desenvolvimento e a demonstração de uma metodologia de dimensionamento de um gaseificador de leito fixo tipo Downdraft para uma alimentação de 100 kg/h de biomassa lignocelulósica. Avalia-se e escolhe-se os diversos equipamentos e acessórios necessários para a limpeza e acondicionamento do gás combustível para a alimentação de um motor de combustão interna. A análise técnica inclui além dos parâmetros construtivos específicos do gaseificador, o balanço de massa, de energia, e a determinação das eficiências, tanto para a eficiência a frio como para a eficiência a quente do gaseificador. A análise econômica inclui uma avaliação e obtenção dos custos tanto do gaseificador como do Motor de Combustão Interna acoplado, os custos dos equipamentos e acessórios da zona de gaseificação, os custos operacionais e os custos da instalação e amortização do projeto. / Abstract: After the oil crisis of 1973 and 1979, an effect of the increase costs and continuously increment of the oil prices was noted. For this reason, the interest for renewable energies sources widely available in developing countries was increased. The governments have formulated main objectives for energy savings and search for friendly technologies, taking into account the effects related with the environment. The new plants with improved technology have been conceived always taking into account energy savings and efficiency improvement. In this context, biomass gasification technologies are important, since they consist in techniques of parallel production of electricity and heat from just one fuel. The main objective of this work is to develop and to demonstrate a scale up methodology for the construction of a bed fix downdraft gasifier with a 100 kg/h supply using as raw material lignocelulosic biomass. It will be evaluated and analytically chosen the necessary accessories and equipments for the cleaning and preparation of the biomass fuel gas, then this gas will be used in a internal combustion engine. The technical analysis includes in addition to the constructive specifics parameters, the balance of mass, balance of energy and determination of the efficiencies for thermal generation and power generation (hot efficiencies or cold efficiencies, respectively. The economic analysis includes cost evaluation of the gasifier, internal combustion engine, equipment and accessories of the gasification zone, operational and installation and amortization of the project. / Mestre

Biocombustíveis.

Motores.

Renewable energies sources. eng

Characterization of various garden grass species for energy conversion in a down draft biomass gasifier

Mkosi, Lungisa

January 2016

Energy plays a vital role in socio-economic development and raising living standards of human beings. The overreliance on fossil fuels results in the depletion of fossil fuels as well as environmental pollution from the green-house gases that result from the use of fossil fuels. Biomass feedstock are able to ameliorate this situation by utilizing the CO2 that has been used by plants during photosynthesis. This study investigated the suitability of the three garden grass species (Chloris gayana, Cynodon dactylon and Pennisetum clandestum) as biomass feedstock for gasification purposes. The three garden grass species were collected at the Alice Campus of the University of Fort Hare. These grass species were characterized using elemental analyser (CHNS), FT-IR, EDX and TGA. The Activation energy (Ea) of the three grass species were 48.22 kJ/mol for P. clandestum, 36.8 kJ/mol for C. gayana and 258 kJ/mol for C. dactylon. Of the three grass species, C. gayana had the lowest Activation energy of 36.8 kJ/mol and also had the highest maximum efficiency of 69 percent compared to 65.3 percent for P. clandestum and 63.5 percent for C. dactylon. Actual gasification was not carried out but the results on maximum efficiency were obtained from computer simulation of gasification.

Biomass energy

Greenhouse gases

Renewable energy sources

Hole extraction layer/perovskite interfacial modification for high performing inverted planar perovskite solar cells

Syed, Ali Asgher

31 August 2018

Organo-metallic halide perovskite solar cells (PSCs) are considered as a promising alternative photovoltaic technology due to the advantages of low-cost solution fabrication capability and high power conversion efficiency (PCE). PSCs can be made using a conventional (n-i-p) structure and an inverted (p-i-n) configuration. PCE of the conventional p-i-n type PSCs is slightly higher than that of the inverted n-i-p type PSCs. However, the TiO2 electron transporting layer adopted in the conventional PSCs is formed at a high sintering temperature of >450 °C. The TiO2 electron transporting layer limits the application of conventional PSCs using flexible substrates that are not compatible with the high processing temperature. The hole extraction layer (HEL) in the inverted p-i-n type PSCs can be prepared by low-temperature solution fabrication processes, which can be adopted for achieving high performance large area flexible solar cells at a low cost. Inverted PSCs with a PCE range from 10 to 20% have been reported over the past few years. In comparison with the progresses of other photovoltaic technologies, the rapid enhancement in PCE of the PSCs offers an attractive option for commercial viability. The aim of this PhD project is to study the origin of the improvement in the performance of solution-processable inverted PSCs. The surface morphological and electronic properties of the HEL are crucial for the growth of the perovskite active layer and hence the performance of the inverted PSCs. Enhancement in short circuit current density (Jsc), reduced loss in open circuit voltage (Voc), improvement in cha Organo-metallic halide perovskite solar cells (PSCs) are considered as a promising alternative photovoltaic technology due to the advantages of low-cost solution fabrication capability and high power conversion efficiency (PCE). PSCs can be made using a conventional (n-i-p) structure and an inverted (p-i-n) configuration. PCE of the conventional p-i-n type PSCs is slightly higher than that of the inverted n-i-p type PSCs. However, the TiO2 electron transporting layer adopted in the conventional PSCs is formed at a high sintering temperature of >450 °C. The TiO2 electron transporting layer limits the application of conventional PSCs using flexible substrates that are not compatible with the high processing temperature. The hole extraction layer (HEL) in the inverted p-i-n type PSCs can be prepared by low-temperature solution fabrication processes, which can be adopted for achieving high performance large area flexible solar cells at a low cost. Inverted PSCs with a PCE range from 10 to 20% have been reported over the past few years. In comparison with the progresses of other photovoltaic technologies, the rapid enhancement in PCE of the PSCs offers an attractive option for commercial viability. The aim of this PhD project is to study the origin of the improvement in the performance of solution-processable inverted PSCs. The surface morphological and electronic properties of the HEL are crucial for the growth of the perovskite active layer and hence the performance of the inverted PSCs. Enhancement in short circuit current density (Jsc), reduced loss in open circuit voltage (Voc), improvement in charge collection efficiency (ηcc) through suppression of charge recombination were investigated systematically via controlled growth of the perovskite active layer in solution-processed inverted PSCs. Poly (3,4-ethylenedioxythiophene): poly (4-styrenesulfonate) (PEDOT:PSS) is one of the widely used solution processable conductive materials for hole transporting in different optoelectronic devices. PEDOT:PSS HEL also is a perfect electron blocking layer due to its high LUMO level. However, it has been reported that PEDOT:PSS HEL is related to the deterioration in the stability of PSCs due to its acidic and hygroscopic nature. Modification of PEDOT:PSS using solvent additives or incorporating metallic oxide nanoparticles for improving the processability and the performance of the inverted PSCs were reported. This work has been focused primary on realizing the controlled growth of perovskite active layer via HEL/perovskite interfacial modification using sodium citrate-treated PEDOT:PSS HEL and WO3-PEDOT:PSS composite HEL. Apart from investigating the properties of the modified PEDOT:PSS HELs, the purpose of the work is to improve the understanding of the effect of modified HEL on the growth of the perovskite layer, revealing the charge recombination processes under different operation conditions, analyzing change extraction probability, and thereby improving the overall performance of the PSCs. PCE of >11.30% was achieved for PSCs with a sodium citrate-modified PEDOT:PSS HEL, which is >20% higher than that of a structurally identical control device having a pristine PEDOT:PSS HEL (9.16%). The incident photon to current efficiency (IPCE) and light intensity-dependent J-V measurements reveal that the use of the sodium citrate-modified PEDOT:PSS HEL helps to boost the performance of the inverted PSCs in two ways: (1) it improves the processability of perovskite active layer on HEL, and (2) it enables to enhance the charge extraction efficiency at the HEL/perovskite interface. The suppression of charge recombination in the PSCs with a modified HEL also was examined using photocurrent-effective voltage (Jph-Veff) and transient photocurrent (TPC) measurements. Morphological and structural properties of the perovskite layers were investigated using the scanning electron microscope (SEM) and X-ray diffraction (XRD) measurements. The results reveal that high quality perovskite active layer on the modified HEL was attained forming complete perovskite phase. The surface electronic properties of the modified PEDOT:PSS and pristine PEDOT:PSS layers were studied using X-ray photoelectron spectroscopy (XPS) and ultraviolet photoelectron spectroscopy (UPS) measurements. XPS results reveal that treatment of sodium citrate partially removes the PSS unit in the PEDOT:PSS, resulting in an increase in the ratio of PEDOT to PSS from 0.197 for a treated PEDOT:PSS HEL to that of 0.108 for the pristine PEDOT:PSS HEL. UPS measurements also show that there is an observable reduction in the work function of the modified HEL, implying that sodium citrate-modified PEDOT:PSS HEL possesses an improved electron blocking capability, which is beneficial for efficient operation of the inverted PSCs.;The performance enhancement in MAPbI3-based PSCs with a tungsten oxide (WO3)-PEDOT:PSS composite HEL also was analyzed. The uniform composite WO3-PEDOT:PSS HEL was formed on indium tin oxide (ITO) surface by solution fabrication process. The morphological and surface electronic properties of WO3-PEDOT:PSS composite film were examined using AFM, XPS, UPS and Raman Spectroscopy. SEM images reveal that the perovskite films grown on the composite HEL had a full coverage without observable pin holes. XRD results show clearly that no residual of lead iodide phase was observed, suggesting a complete perovskite phase was obtained for the perovskite active layer grown on the composite HEL. The volume ratio of WO3 to PEDOT:PSS of 1:0.25 was optimized for achieving enhanced current density and Voc in the PSCs. It is demonstrated clearly that the use of the WO3-PEDOT:PSS composite HEL helps to improve the charge collection probability through suppression of the charge recombination at the MAPbI3/composite HEL interface. The charge extraction efficiency at the perovskite/PEDOT:PSS and perovskite/composite HEL interfaces were investigated by analyzing the PL quenching efficiency of the MAPbI3 active layer. It is shown that the PL efficiency quenching at the MAPbI3/composite HEL samples is one order of magnitude higher than that measured for the perovskite/pristine PEDOT:PSS sample, suggesting an enhanced hole extraction probability at the MAPbI3/composite HEL interface. The combined effects of improved perovskite crystal growth and enhanced charge extraction capabilities result in the inverted PSCs with a PCE of 12.65%, which is 22% higher than that of a structurally identical control device (10.39%). The use of the WO3-PEDOT:PSS composite HEL also benefits the efficient operation of the PSCs, demonstrated in the stability test, as compared to that of the control cell under the same aging conditions. With the progresses made in improving the performance of MAPbI3-based PSCs, the research was extended to study the performance of efficient PSCs with mixed halide of MA0.7FA0.3Pb (I0.9Br0.1)3. The effect of the annealing temperature on the growth of the mixed MA0.7FA0.3Pb (I0.9Br0.1)3 perovskite active layer was analyzed. It was found that the optimal growth of the mixed perovskite active layer occurred at an annealing temperature of 100°C. UPS results reveal that the ionization potential of 5.76 eV measured for the mixed cation perovskite is lower than that of MAPbI3-based single cation perovskite layer (5.85 eV), while the corresponding electron affinity of the mixed perovskite was 4.28 eV and that for the MAPbI3 layer was 4.18 eV, respectively. The changes in the bandgap and the energy levels of the MA0.7FA0.3Pb (I0.9Br0.1)3 and MAPbI3 active layers were examined using UV-vis absorption spectroscopy and UPS measurements. Compared to the MAPbI3-based control cell, a 23% increase in Jsc, a 15% increase in Voc and an overall 25% increase in PCE for the MA0.7FA0.3Pb (I0.9Br0.1)3 were achieved as compared to that of the MAPbI3-based PSCs. An obvious improvement in charge collection efficiency in MA0.7FA0.3Pb (I0.9Br0.1)3-based PSCs operated at different Veff was clearly manifested by the light intensity dependent J-V characteristic measurements. PL quenching efficiency also shows the charge transfer between MA0.7FA0.3Pb (I0.9Br0.1)3 and PEDOT:PSS HEL is one order of magnitude higher as compare to that in the MAPbI3-based PSCs, suggesting the formation of improved interfacial properties at the MA0.7FA0.3Pb (I0.9Br0.1)3/HEL interface. The impact of incorporating mixed MA0.7FA0.3Pb (I0.9Br0.1)3 perovskite active layer on PCE and the stability of the PSCs was further studied using a combination of TPC measurement and aging test. The stability of MA0.7FA0.3Pb (I0.9Br0.1)3- and MAPbI3-based PSCs with respect to the aging time was monitored for a period of >2 months. The MA0.7FA0.3Pb (I0.9Br0.1)3-based PSCs are more stable compared to the MAPbI3-based PSCs aged under the same conditions. The aging test supports the findings made with the TPC and light intensity dependent J-V measurements. It shows that the improved interfacial quality at the perovskite/HEL and the enhanced charge extraction capability are favorable for efficient and stable operation of MA0.7FA0.3Pb (I0.9Br0.1)3-based PSCs.

Negotiating access to tobacco following the increase in the minimum age of sale in the UK : a study of young people from two disadvantaged communities in Scotland

Tjelta, Thomas Aleksander

January 2015

Creating a Tobacco Free Generation: a Tobacco Control Strategy for Scotland sets out the Scottish Government’s ambition to create a tobacco free generation of Scots by 2034. Smoking initiation occurs primarily in adolescence, and the national preventive strategy is correspondingly structured around a range of measures to reduce the availability, affordability and attractiveness of cigarettes and other tobacco products for children and young people. Primary among these are the increase in the minimum age of sale of tobacco from 16 to 18 years instituted in the UK in October 2007, and the ban on the display of tobacco and smoking related products in shops introduced in the Tobacco and Primary Medical Services Scotland Act 2010. This thesis explores young people’s smoking and cigarette access behaviours in the context of the increase in the age of sale of tobacco from 16 to 18 years in 2007, and their perceptions and representations of cigarette brand image in the context of the impending ban on point of sale displays and in anticipation of the introduction of generic cigarette packaging in the UK. A combination of individual, paired and triadic interviews were undertaken with a total of 60 13-15 year old young people recruited from youth clubs and other third sector organisations in two disadvantaged communities in Edinburgh. Around half the participants were regular smokers – defined as smoking a cigarette a day or more – with the remainder reporting ‘occasional’ or ‘experimental’ smoking, defined as intermittent smoking or having tried smoking on one or more occasions. Interviews focussed on participants’ usual cigarette sources, ability to access tobacco, participants’ favoured cigarette brands and their perspectives on recent legislative measures to reduce the attractiveness of cigarettes and other tobacco products for children and young people. Despite the increase in the minimum age of sale, most participants sourced cigarettes from shops, either directly or through intermediaries, and few reported any difficulties securing regular access to tobacco. Retail purchases were described in terms of a progression from more to less targeted purchasing strategies, with those experiencing difficulties buying cigarettes directly employing a range of strategies to identify and target retailers amenable to selling cigarettes to underage customers. Proxy purchases, i.e. purchases made through intermediaries, represented the predominating mode of acquisition among participants, and were described in terms of a progression from less to more targeted third party recruitment strategies, with older and more experienced regular smokers learning to identify and target particular types of individual for proxy purchases. Participants also had recourse to tobacco from a range of social and illicit sources, including ‘fag houses’, although these were not routinely accessed. The diverse cigarette sources identified by participants were not perceived to be equivalent, however, but were rather represented in terms of the parallel acquisition of a range of smoking related competencies. Participants’ diverse modes of tobacco acquisition, as such, reflected not merely their smoking status, with rates of retail cigarette purchasing increasing with age and regular smoking, but their status as a smoker through building symbolic capital. Participants foregrounded their smoking related knowledge and competencies to frame themselves as more or less ‘autonomous’ smokers. In discussions about participants favoured cigarette brands, participants would similarly foreground their knowledge of a range of perceived brand characteristics to frame themselves as more or less ‘discerning’ smokers. The importance of cigarette access and branding in shaping participants’ smoking identities has clear implications for smoking prevention policy, in terms of challenging the implied equivalence between the diverse cigarette sources available to young people routinely implied in the youth access literature and underscoring the importance of limiting the visual cues in cigarette packaging and point of sale advertising that facilitate the continued use of cigarettes as an ‘identity tool’.

616.86

Synthesis and characterization of Ceria with an optimal oxygen storage capacity as potential medium to remove SO2 from flue gas emissions

Andrews, Gary Lyndl

January 2013

Magister Philosophiae - MPhil / Due to an increasing demand for energy, alternative renewable energy sources are investigated globally. However fossil fuels are still one of the main energy sources. The combustion of these fuels produces by-products such as SOx, NOx and CO2, which have detrimental effects on the environment and human health. Therefore, effective methods are needed to minimize the pollution and affects that these by-products cause. Catalysts are commonly employed to convert these by-products to less harmful and/or resalable products. Ceria and ceria based materials are good candidates for the removal and conversion of SOx and NOx. Ceria and ceria related materials are most effective as catalysts when they are in the nano-form with good crystallinity and nanoparticles that are uniform. The growth of nanoparticles is preceded by a nucleation process which can occur by solid-state restructuring of a gel or precipitation from a saturated solution. The precipitation method was selected to synthesize Ceria nanoparticles. Synthesis conditions such as temperature, solution type and ageing time and their effect on the physical and chemical forms of the Ceria particles were investigated. The morphology and structural properties were investigated using Scanning Electron Microscopy, X-ray diffraction and Transmission Electron Microscopy. X-ray Photoelectron Spectroscopy was used to investigate the chemical properties. It was found that low temperatures, low base volume and a solvent with a small dielectric constant favor the formation of small crystallites with a relatively large concentration of defects. These defects are desirable since they enhance the catalytic activity of ceria.

Energy sources

Ceria

Flue gas desulphurization technologies

Electrical power output estimation model for a conical diffuser augmented wind turbine

Masukume, Peace-Maker

January 2016

Energy is integral to the quality of life of any society. However, meeting the demand for energy sustainably is the main challenge facing humanity. In general, non-renewable energy resources are used to supply the ever increasing energy demand. However, the extraction and processing of these resources is accompanied by the production of wastes which are a health hazard and impact negatively on climate change. Considering the finite nature of non-renewable sources, the environmental concerns which are associated with their usage and ensuring energy security, renewable energy sources have been brought in the energy supply chain. Wind energy is one of the renewable energy sources which has been supplying electrical energy to the ever increasing energy demand of humanity. Wind energy technology is a mature technology which over and above the bare (conventional) wind turbine technology has seen the development of duct augmented wind turbines. Ducts are used to encase wind turbine rotors to augment the power output of wind turbines especially in low wind speed areas. Though the technology has been under study for decades now, research indicates that there is no known model to estimate the power output of a diffuser augmented wind turbine. This thesis presents the development of the conical Diffuser Augmented Wind Turbine (DAWT) power output estimation model and its validation.

Wind power

Wind turbines

Renewable energy sources