The sound of the third wave : science fiction, imaginary machines and the future of techno /

Miller, Graham.

January 2005

Thesis (M.A.)--York University, 2005. Graduate Programme in Music. / Typescript. Includes bibliographical references (leaves 148-151). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://gateway.proquest.com/openurl?url%5Fver=Z39.88-2004&res%5Fdat=xri:pqdiss &rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:MR11863

Sound effects music. Techno music.

Analysis of gas turbine compressor fouling and washing on line

Vigueras Zuniga, Marco Osvaldo

January 2007

This work presents a model of the fouling mechanism and the evaluation of compressor washing on line. The results of this research were obtained from experimental and computational models. The experimental model analyzed the localization of the particle deposition on the blade surface and the change of the surface roughness condition. The design of the test rig was based on the cascade blade arrangement and blade aerodynamics. The results of the experiment demonstrated that fouling occurred on both surfaces of the blade. This mechanism mainly affected the leading edge region of the blade. The increment of the surface roughness on this region was 1.0 μm. This result was used to create the CFD model (FLUENT). According to the results of the CFD, fouling reduced the thickness of the boundary layer region and increased the drag force of the blade. The model of fouling was created based on the experiment and CFD results and was used to calculate the engine performance in the simulation code (TURBOMATCH). The engine performance results demonstrated that in five days fouling can affect the overall efficiency by 3.5%. The evaluation of the compressor washing on line was based on the experimental tests and simulation of the engine performance. This system demonstrated that it could recover 99% of the original blade surface. In addition, this system was evaluated in a study case of a Power Plant, where it proved itself to be a techno-economic way to recover the power of the engine due to fouling. The model of the fouling mechanism presented in this work was validated by experimental tests, CFD models and information from real engines. However, for further applications of the model, it would be necessary to consider the specific conditions of fouling in each new environment.

Techno-electric

Cascade blade

Experiment

Roughness

CFD

Determining the extent of technology as endogenous variable in international relations (early to post-modern)

Molesworth, Richard Charles Lindsay

January 2000

No description available.

320

Techno-economic optimisation methodology for HTGR balance of plant systems / Wilma van Eck. / Techno-economic optimisation methodology for high temperature gas-cooled reactor balance of plant systems

Van Eck, Wilma Hendrina

January 2010

The nuclear industry lacks a well documented, systematic procedure defining the requirements for power plant cycle selection and optimisation. A generic technoeconomic optimisation methodology is therefore proposed that can serve in the selection of balance-of-plant configurations and design conditions for High Temperature Gas-cooled Reactor (HTGR) power plants. The example of a cogeneration steam plant coupled to a pebble bed reactor, with or without an intermediate buffer circuit, was used in search of a suitable methodology. The following analyses were performed: • First order thermal hydraulic analysis • Second order thermal hydraulic analysis including cost estimation • Third order steady state analysis to evaluate part-load operation • Third order transient analysis to test operability and controllability The assumptions, level of detail required, modelling methodology and the type of decisions that can be made after each stage are discussed. The cycles under consideration are evaluated and compared based on cycle efficiency, capital cost, unit energy cost and operability. The outcome of this study shows that it is worthwhile spending the effort of developing a second order costing model and a third order model capable of analysing off-design conditions. First order modelling could be omitted from the methodology. The advantage of a second order model is that the cycle configuration can be optimised from a unit energy cost perspective, which incorporates the effects of both capital cost and cycle efficiency. The optimum cycle configuration differs from that predicted by first order modelling, which illustrates that first order modelling alone is insufficient. Third order part-load operation analysis showed operability issues that were not apparent after first or second order modelling. However, transient analysis does not appear justified in the very early design stages. To conclude, the proposed methodology is summarised as follows: • Evaluate the user requirements and design constraints. • Apply design principles from the Second Law of thermodynamics in selecting cycle configurations and base case operating conditions. • Optimise the operating conditions by performing second order thermal hydraulic modelling which includes component design and cost estimation. • Evaluate part-load operation with third order analysis. • Select the cycle with the lowest Levelised Unit Energy Cost (LUEC) and simplest operating strategy. / Thesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2010.

Cycle selection

Optimisation methodology

Techno-economic analysis

Techno-economic optimisation methodology for HTGR balance of plant systems / Wilma van Eck. / Techno-economic optimisation methodology for high temperature gas-cooled reactor balance of plant systems

Van Eck, Wilma Hendrina

January 2010

The nuclear industry lacks a well documented, systematic procedure defining the requirements for power plant cycle selection and optimisation. A generic technoeconomic optimisation methodology is therefore proposed that can serve in the selection of balance-of-plant configurations and design conditions for High Temperature Gas-cooled Reactor (HTGR) power plants. The example of a cogeneration steam plant coupled to a pebble bed reactor, with or without an intermediate buffer circuit, was used in search of a suitable methodology. The following analyses were performed: • First order thermal hydraulic analysis • Second order thermal hydraulic analysis including cost estimation • Third order steady state analysis to evaluate part-load operation • Third order transient analysis to test operability and controllability The assumptions, level of detail required, modelling methodology and the type of decisions that can be made after each stage are discussed. The cycles under consideration are evaluated and compared based on cycle efficiency, capital cost, unit energy cost and operability. The outcome of this study shows that it is worthwhile spending the effort of developing a second order costing model and a third order model capable of analysing off-design conditions. First order modelling could be omitted from the methodology. The advantage of a second order model is that the cycle configuration can be optimised from a unit energy cost perspective, which incorporates the effects of both capital cost and cycle efficiency. The optimum cycle configuration differs from that predicted by first order modelling, which illustrates that first order modelling alone is insufficient. Third order part-load operation analysis showed operability issues that were not apparent after first or second order modelling. However, transient analysis does not appear justified in the very early design stages. To conclude, the proposed methodology is summarised as follows: • Evaluate the user requirements and design constraints. • Apply design principles from the Second Law of thermodynamics in selecting cycle configurations and base case operating conditions. • Optimise the operating conditions by performing second order thermal hydraulic modelling which includes component design and cost estimation. • Evaluate part-load operation with third order analysis. • Select the cycle with the lowest Levelised Unit Energy Cost (LUEC) and simplest operating strategy. / Thesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2010.

Cycle selection

Optimisation methodology

Techno-economic analysis

Kosmonauten des Underground Ethnografie einer Berliner Szene

Schwanhäusser, Anja

January 2007

Zugl.: Berlin, Humboldt-Univ., Diss., 2007

Oracle smoke machine

Goodwin, Christianne Marie

14 June 2023

Please note: creative writing theses are permanently embargoed in OpenBU. No public access is forecasted for these. To request private access, please click on the lock icon and filled out the appropriate web form. / Oracle Smoke Machine is a collection of poems / 2999-01-01T00:00:00Z

Creative writing

Hungary

Oracle

Poetry

Surreal

Techno

NOVEL DESIGN FOR PRODUCTION OF LIQUID FUELS WITH NEGATIVE EMISSIONS / NOVEL DESIGN FOR PRODUCTION OF TRANSPORTATION FUELS WITH NEGATIVE EMISSIONS

Hoseinzade, Leila

January 2018

Global pressure to reduce greenhouse gas (GHG) emissions, energy security concerns and increasing demand for liquid fuels incentivize the search for more sustainable and secure alternative methods for producing liquid fuels with improved efficiency and reduced environmental impacts. One of the economically attractive examples of these alternate methods is the gas-to-liquid process, however, its environmental impacts are worse than traditional petroleum refining. Carbon capture and sequestration is an option to reduce greenhouse gas emissions of processes, but it decreases the efficiency of the process and often results in economic infeasibility. Instead, integrating different processes and feedstocks was demonstrated to improve the efficiency, economic and environmental performance of the processes. The focus of this thesis is to design and simulate a novel integrated biomass, gas, nuclear to liquids (BGNTL) process with negative greenhouse gas emissions. In this process, nuclear heat from a high temperature gas-cooled reactor (HTGR) is used as the heat source for a steam methane reforming (SMR) process. The integrated HTGR and SMR process requires detailed analysis and modeling to address key challenges on safety, operability, economic and environmental impacts of the integrated process. To this end, a rigorous first principle based mathematical model was developed in gPROMS modeling environment for the integrated HTGR/SMR process. The results for a large scale design of this system indicate that hydrogen rich syngas with H2/CO ratio in the range of 6.3 can be achieved. To meet the desired H2/CO ratio (around 2) required for the downstream fuel synthesis processes, the HTGR/SMR derived syngas can be blended with a hydrogen lean syngas from biomass gasification. In this thesis, the large scale design of the BGNTL process to synthesize gasoline, diesel and dimethyl ether (DME) is investigated. The results from the gPROMS model of the integrated HTGR/SMR system are used for simulating the BGNTL process in Aspen Plus. The performance of the BGNTL process was compared with a biomass, gas to liquids (BGTL) process. The efficiency, economics, and environmental impact analyses show that the BGNTL process to produce DME is the most efficient, economic and environmentally friendly process among all the considered designs. The results demonstrate that process integration exploits certain synergies that leads to significantly higher carbon and energy efficiencies and lower greenhouse gas emissions. In addition, it was found that all the studied designs yield a net negative greenhouse gas emissions when carbon capture and storage technology is implemented. As another sustainable alternative to meet the required H2/CO ratio of the syngas when biomass resources are not available, it is proposed to apply the nuclear heat to the mixed reforming of methane. This represents using steam and waste CO2 to reform methane into valuable syngas. The developed model for the integrated HTGR/SMR system is extended to the mixed reforming of methane (MRM) process and it was demonstrated that integrated HTGR/MRM process can be a promising option to achieve certain desired H2/CO ratios for the downstream energy conversion processes. / Thesis / Doctor of Philosophy (PhD)

A Techno-Economic Framework for the Analysis of Concentrating Solar Power Plants with Storage

Guédez, Rafael

January 2016

Concentrating solar power plants can integrate cost-effective thermal energy storage systems and thereby supply controllable power on demand, an advantage against other renewable technologies. Storage integration allows a solar thermal power plant to increase its load factor and to shift production to periods of peak demand. It also enables output firmness, providing stability to the power block and to the grid. Thus, despite the additional investment, storage can enhance the performance and economic viability of the plants. However, the levelized cost of electricity of these plants yet remains higher than for other technologies, so projects today are only viable through the provision of incentives or technology-specific competitive bid tenders. It is the variability of the solar resource, the myriad roles that storage can assume, and the complexity of enhancing the synergies between the solar field, the storage and the power block, what makes the development of adequate policy instruments, design and operation of these plants a challenging process. In this thesis a comprehensive methodology for the pre-design and analysis of concentrating solar power plants is presented. The methodology is based on a techno-economic modeling approach that allows identifying optimum trade-off curves between technical, environmental, and financial performance indicators. A number of contemporary plant layouts and novel storage and hybridization concepts are assessed to identify optimum plant configurations, in terms of component size and storage dispatch strategies. Conclusions highlight the relevance between the sizing of key plant components, the operation strategy and the boundaries set by the location. The interrelation between critical performance indicators, and their use as decisive parameters, is also discussed. Results are used as a basis to provide recommendations aimed to support the decision making process of key actors along the project development value chain of the plants. This research work and conclusions are primarily meant to set a stepping stone in the research of concentrating solar power plant design and optimization, but also to support the research towards understanding the value of storage in concentrating solar power plants and in the grid. / Koncentrerad solkraft erbjuder möjligheten att integrera kostnadseffektiv termisk energilagring och därmed behovsstyrd kraftkontroll. Detta är en viktig fördel jämfört med andra förnybara energiteknologier. Lagringsintegration tillåter solkraftsanläggningar att öka sin lastfaktor och skifta produktion till tider med största efterfrågan. Vidare möjliggör lagring fast elproduktion vilket leder till förbättrad nät- och kraftturbinstabilitet. Därför kan termisk lagring öka anläggningsprestanda och ekonomiskt värde trots ökande initiala kapitalkostnader. I termer av specifik elproduktionskostnad (LCOE) ligger koncentrerade solkraftsanläggningar med lagring fortfarande högre än andra kraftteknologier och anläggningsprojekt blir endast lönsamma genom subventionsmodeller eller teknologispecifika konkurrensutsatta anbudsförfaranden. Att hitta adekvata policylösningar och optimala design och operationsstrategier är en utmanande process eftersom det gäller att hitta rätt balans mellan variabel solinstrålning, lagring av energi och tid för produktion genom optimal design och operation av solmottagarfält, kraftblock och lagringskapacitet. I denna avhandling presenteras en omfattande metodik för pre-design och analys av koncentrerande solkraftverk. Metodiken baseras på en tekno-ekonomisk modelleringsansats som möjliggör identifiering av optimala avvägningssamband för tekniska, ekonomiska och miljöprestanda indikatorer. Metodiken tillämpas på ett antal moderna anläggningslayouter  och lagrings- och hybridiseringskoncept för att identifiera optimal kraftanläggningsdesign i termer av komponentprestanda och lagringsanvändningsstrategier. I slutsatsen poängteras relevansen av att hitta rätt storlek på nyckelkomponenter i relation till lagringsstrategi och randvillkoren som ges av konstruktionsläget för optimal ekonomisk och miljömässig prestanda. Resultaten används för att formulera rekommendationer till nyckelaktörer i beslutsprocessen genom hela kraftanläggningens värdekedja från politisk beslutsfattare till anläggningsingenjör. Forskningen och slutsatserna i detta arbete skall i första hand ta ett steg framåt för optimering och design av solkraftsanläggningar men även tillhandahålla en metodik för utvärdering av lagringslösningar och dess specifika värde för solkraftsanläggningar och elnätet. / <p>QC 20160829</p>

Concentrating solar power

thermal energy storage

techno-economic analysis

Termisk solkraft

termisk energilagring

techno-eknomiska analys

Comportements techniques au Paléolithique supérieur en Alborz / Technical behavior of Paleolithic superior in Alborz

Abolfathi, Mahkameh

31 October 2018

Il y a plus d’un siècle que des recherches préhistoriques sont menées sur une vaste zone de l’Asie du Sud-ouest qui s’étend du Levant au Zagros et au Caucase. Le Paléolithique supérieur y est bien représenté dans des sites en grotte mais également de plein air. Les industries lithiques découvertes dans ces gisements ont permis des études typo-technologiques qui n’ont malheureusement pas toujours été accompagnées de datations absolues et de cadre stratigraphique. Dans l’état actuel de nos connaissances, l’Aurignacien semble être la culture du Paléolithique supérieur la mieux représentée dans les chrono-séquences des gisements choisis pour étude. La plupart des recherches paléolithiques en Iran se sont focalisées sur la région du Zagros, c’est pourquoi, afin de combler un no man’s land archéologique, nous avons choisi de travailler sur l’Alborz. Nous nous sommes donc appuyés sur deux sites découverts récemment : Garm Roud (Āmol, Māzandarān), unique site du Paléolithique supérieur en contexte stratigraphique connu dans cette vaste région de l’Iran et daté de 33.878±3300 CalBP et Délazien (Semnān), site de surface qui se situe au Sud de la chaîne de l'Alborz dans le désert central.L'étude typo-technologique de ces deux assemblages nous a permis de pointer des similitudes reconnaissables au niveau des stratégies et des modalités de débitage orientées préférentiellement vers une production lamellaire. Nous avons, a contrario, relevé un certain nombre de dissemblances matérialisées par la présence-absence de certains outils appartenant au fond commun aurignacien. Ces observations confirment ainsi l’attribution de ces ensembles lithiques, notamment celui de Délazian, au Paléolithique supérieur.Enfin, pour terminer notre étude, nous avons comparé les résultats des analyses typo-technologiques des sites iraniens avec celles émanant de sites hors Abortz comme ceux du Levant ou encore, ceux plus éloignés de l’Asie du Sud-ouest. Le constat qui se dégage de notre approche est une évidente hétérogénéité des traditions lithiques à l’Aurignacien qu’il convient d’interpréter en fonction de la nature des sites, des environnements naturels divers et certainement, des gestions différentielles des territoires. / More than a century ago, prehistoric research was carried out over a vast area of south-west Asia extending from the Levant to Zagros and the Caucasus. The Upper Paleolithic is well represented in cave sites but also in the open air. The lithic industries discovered in these deposits have allowed typo-technological studies which unfortunately have not always been accompanied by absolute dates and stratigraphic framework. In the current state of our knowledge, the Aurignacian seems to be the culture of the Upper Paleolithic best represented in the chrono-sequences of the deposits chosen for study.Most Paleolithic research in Iran has focused on the Zagros region, so in order to fill an archaeological no man's land we have chosen to work on the Alborz. We therefore relied on two recently discovered sites: Garm Roud (Āmol, Māzandarān), the only site of the Upper Paleolithic in stratigraphic context known in this vast region of Iran and dated 33.878 ± 3300 CalBP and Délazien (Semnān), site south of the Alborz range in the central desert.The typo-technological study of these two assemblages enabled us to point out recognizable similarities in terms of strategies and debitage modalities oriented preferentially towards lamellar production. On the other hand, we have noted a certain number of dissimilarities materialized by the presence-absence of certain tools belonging to the Aurignacian common fund. These observations thus confirm the attribution of these lithic assemblages, notably that of Delazian, in the Upper Paleolithic.Finally, to conclude our study, we compared the results of typo-technological analyzes of Iranian sites with those from sites outside Alborz such as those of the Levant or those further away from South-West Asia. The conclusion that emerges from our approach is an obvious heterogeneity of the Aurignacian lithic traditions which should be interpreted according to the nature of the sites, the various natural environments and certainly, the differential management of the territories.

Aurignacien

Iran

Asie du Sud-Ouest

Alborz

Techno-typologie

Aurignacian

Iran

Southwest Asia

Alborz

Techno-typology