Global ETD Search

21	Synthesis of the 1D modelling of turbochargers and its effects on engine performance prediction Dombrovsky, Artem 05 June 2017 (has links) Low fuel consumption is one of the main requirement for current internal combustion engines for passenger car applications. One of the most used strategies to achieve this goal is to use downsized engines (smaller engines while maintaining power) what implies the usage of turbochargers. The coupling between both machines (the turbocharger and the internal combustion engines) presents many difficulties due to the different nature between turbomachines and reciprocating machines. These difficulties make the optimal design of the turbocharged internal combustion engines a complicated issue. In these thesis a strong effort has been made to improve the global understanding of different physical phenomena occurring in turbochargers and in turbocharged engines. The work has been focused on the 1D modelling of the phenomena since 1D tools currently play a major role in the engine design process. Both experimental and modelling efforts have been made to understand the heat transfer and gas flow processes in turbochargers. Previously to the experimental analysis a literature review has been made in which the state of the art of heat transfer and gas flow modelling in turbochargers have been analysed. The experimental effort of the thesis has been focused on measuring different turbochargers in the gas stand and the engine test bench. In the first case, the gas stand, a more controlled environment, has been used to perform tests at different conditions. Hot tests with insulated and not insulated turbocharger have been made to characterise the external heat transfer. Moreover, adiabatic tests have been made to compare the effect of the heat transfer on different turbocharger variables and for the validation of the turbine gas flow models. In the engine test bench full and partial load tests have been made for model validation purposes. For the models development task, the work has been divided in heat flow models and gas flow models. In the first case, a general heat transfer model for turbochargers has been proposed based on the measured turbochargers and data available from previous works of the literature. This model includes a procedure of conductive conductances estimation, internal and external convection correlations and radiation estimation procedure. In the case of the gas flow modelling, an extended model for VGT performance maps extrapolation for both the efficiency and the mass flow has been developed as well as a model for discharge coefficient prediction in valves for two stage turbochargers. Finally, the models have been fully validated coupling them with a 1D modelling software simulating both the gas stand and the whole engine. On the one hand, the results of the validation show that compressor and turbine outlet temperature prediction is highly improved using the developed models. This results prove that the turbocharger heat transfer phenomena are important not only for partial load and transient simulation but also in full loads. On the other hand, the VGT extrapolation model accuracy is high even at off-design conditions. / El bajo consumo de combustible es uno de los principales requerimientos de los motores de combustión interna actuales para aplicaciones de coches de pasajeros. Una de las estrategias más usadas para conseguir ese fin es el uso de motores "downsized" (motores más pequeños con la misma potencia) lo que implica el uso de turbocompresores. El acoplamiento entre ambas máquinas (el turbocompresor y el motor de combustión alternativo) presenta muchas dificultades debido a la diferente naturaleza entre las turbomáquinas y las máquinas alternativas. Estas dificultades convierten el diseño óptimo de los motores de combustión interna sobrealimentados en un asunto complicado. En esta tesis se ha realizado un importante esfuerzo para mejorar el entendimiento global de los diferentes fenómenos físicos que ocurren en los turbocompresores y en los motores sobrealimentados. El trabajo se ha centrado en el modelado 1D de los fenómenos puesto que las herramientas 1D juegan actualmente un papel principal en el proceso de diseño del motor. Se han realizado tanto esfuerzos experimentales como de modelado para el entendimiento de los procesos de transmisión de calor y de flujo de gases en turbocompresores. Previamente al análisis experimental se ha realizado una revisión de la literatura disponible en la que se ha analizado el estado del arte del modelado de transmisión de calor y flujo de gases en turbocompresores. El esfuerzo experimental de la tesis se ha centrado en la medida de diferentes turbocompresores en el banco de gas y en el banco motor. En el primer caso, se ha utilizado el banco de gas, un ambiente más controlado, para realizar ensayos en diferentes condiciones. Se han realizado ensayos calientes con y sin aislamiento del turbocompresor para caracterizar el flujo de calor externo. Además, se han realizado ensayos adiabáticos para comparar el efecto de la transmisión de calor sobre diferentes variables del turbocompresor y para la validación de los modelos de flujo de gases de la turbina. En el banco motor se han realizado ensayos a plena carga y a cargas parciales para usarlos en la validación. Para la tarea del desarrollo de los modelos, el trabajo se dividió en modelos de flujo de calor y modelos de flujo de gases. En el primer caso, se ha propuesto un modelo general de transmisión de calor para turbocompresores basado en los turbocompresores medidos y en datos disponibles de trabajos previos de la literatura. Este modelo incluye un procedimiento para la estimación de las conductancias conductivas, correlaciones de convección interna y externa y un procedimiento de estimación de la radiación. En el caso del modelado de flujo de gases, se ha desarrollado un modelo extendido para la extrapolación de mapas de funcionamiento de TGV tanto para el rendimiento como para el gasto másico además del modelo de predicción de coeficientes de descarga en válvulas de turbocompresores de doble etapa. Finalmente, los modelos han sido completamente validados con su acoplamiento a un software de modelado 1D simulando tanto el banco de turbos como el motor completo. Por un lado, los resultados de la validación señalan que la predicción de las temperaturas de salida de compresor y turbina mejora notablemente usando los modelos desarrollados. Este resultado demuestra que los fenómenos de transmisión de calor son importantes no sólo en simulaciones de cargas parciales y de transitorios sino también en plenas cargas. Por otro lado, la precisión del modelo de extrapolación de TGV es alta incluso en condiciones fuera de diseño. / El baix consum de combustible és un dels principals requeriments dels motors de combustió interna actuals per a aplicacions de cotxes de passatgers. Una de les estratègies més usades per a aconseguir eixe fi és l'ús de motors "downsized" (motors més xicotets amb la mateixa potència) el que implica l'ús de turbocompressors. L'adaptament entre ambdues màquines (el turbocompressor i el motor de combustió alternatiu) presenta moltes dificultats degut a la diferent naturalesa entre les turbomàquines i les màquines alternatives. Estes dificultats convertixen el disseny òptim dels motors de combustió interna sobrealimentats en un assumpte complicat. En esta tesi s'ha realitzat un important esforç per a millorar l'enteniment global dels diferents fenòmens físics que ocorren en els turbocompressors i en els motors sobrealimentats. El treball s'ha centrat en el modelatge 1D dels fenòmens ja que les ferramentes 1D juguen actualment un paper principal en el procés de disseny del motor. S'han realitzat tant esforços experimentals com de modelatge per a l'enteniment dels processos de transmissió de calor i de flux de gasos en turbocompressors. Prèviament a l'anàlisi experimental s'ha realitzat una revisió de la literatura disponible en què s'ha analitzat l'estat de l'art del modelatge de transmissió de calor i flux de gasos en turbocompressors. L'esforç experimental de la tesi s'ha centrat en la mesura de diferents turbocompressors en el banc de gas i en el banc motor. En el primer cas, s'ha utilitzat el banc de gas, un ambient més controlat, per a realitzar assajos en diferents condicions. S'han realitzat assajos calents amb i sense aïllament del turbocompressor per a caracteritzar el flux de calor extern. A més, s'han realitzat assajos adiabàtics per a comparar l'efecte de la transmissió de calor sobre diferents variables del turbocompressor i per a la validació dels models de flux de gasos de la turbina. En el banc motor s'han realitzat assajos a plena càrrega i a càrregues parcials per a usar-los en la validació. Per a la tasca del desenvolupament dels models, el treball es va dividir en models de flux de calor i models de flux de gasos. En el primer cas, s'ha proposat un model general de transmissió de calor per a turbocompressors basat en els turbocompressors mesurats i en dades disponibles de treballs previs de la literatura. Este model inclou un procediment per a l'estimació de les conductàncies conductivas, correlacions de convecció interna i externa i un procediment d'estimació de la radiació. En el cas del modelatge de flux de gasos, s'ha desenvolupat un model estés per a l'extrapolació de mapes de funcionament de TGV tant per al rendiment com per al gasto màssic a més del model de predicció de coeficients de descàrrega en vàlvules de turbocompressors de doble etapa. Finalment, els models han sigut completament validats amb el seu adaptament a un software de modelatge 1D simulant tant el banc de turbos com el motor complet. D'una banda, els resultats de la validació assenyalen que la predicció de les temperatures d'eixida de compressor i turbina millora notablement usant els models desenrotllats. Este resultat demostra que els fenòmens de transmissió de calor són importants no sols en simulacions de càrregues parcials i de transitoris sinó també en plenes càrregues. D'altra banda, la precisió del model d'extrapolació de TGV és alta inclús en condicions fora de disseny. / Dombrovsky, A. (2017). Synthesis of the 1D modelling of turbochargers and its effects on engine performance prediction [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/82307 / TESIS Internal combustion engine Turbocharger Heat transfer One-dimensional model Adiabatic efficiency extrapolation
22	Simulation and modelling of the performance of radial turbochargers under unsteady flow Soler Blanco, Pablo 27 April 2020 (has links) [ES] Está fuera de toda duda que la industria del automóvil está viviendo una profunda transformación que, durante los últimos años, ha progresado a un ritmo acelerado. Debido a la crecientemente estricta regulación sobre emisiones contaminantes y la necesidad de satisfacer la siempre creciente demanda de movilidad sostenible, es necesario que los motores de combustión modernos reduzcan su consumo y emisiones manteniendo el rendimiento del motor. Para enfrentarse a este desafío, los ingenieros de investigación y desarrollo han redoblado sus esfuerzos a la hora de diseñar y mejorar los modelos unidimensionales, hasta el punto en el que el desarrollo de modelos 1D así como la simulación juegan un papel fundamental en los primeras etapas de diseño de nuevos motores y tecnologías. Al mismo tiempo, la tecnología de turbosobrealimentación se ha consolidado como una de las más efectivas a la hora de construir motores de alta eficiencia, lo que ha hecho evidente la importancia de comprender y modelar correctamente los efectos asociados a los turbogrupos. Particularmente, los fenómenos que ocurren en la turbina en condiciones de flujo fuertemente pulsante han demostrado ser complicadas de modelar y sin embargo decisivas, ya que los códigos de simulación son especialmente útiles cuando son diseñados para trabajar en condiciones realistas. Este trabajo se centra en mejorar los modelos unidimensionales actuales así como en desarrollar nuevas soluciones con el objetivo de contribuir a una mejor predicción del comportamiento de la turbina sometida a condiciones de flujo pulsante. Tanto los esfuerzos realizados en los trabajos experimentales como en los de modelado se han producido para poder proporcionar métodos que sean fáciles de adaptar a las diferentes configuraciones de turbogrupo usadas en la industria, por ello, pueden ser aplicados por ejemplo en turbinas de entrada simple y también en las cada vez más usadas turbinas de entrada doble. En cuanto al trabajo de modelado en la parte de turbina de entrada simple, el foco se ha puesto en presentar una versión mejorada de un código quasi-2D. La validación del modelo se basa en los datos experimentales que están disponibles de trabajos enteriores de la literatura, proporcionando una comparación completa entre los modelos quasi-2D y el clásico modelo 1D. La presión a la entrada y salida de la turbina se ha descompuesto en ondas que viajan hacia delante y hacia atrás por medio de la descomposición de presiones, empleando la componente reflejada y transmitida para verificar la bondad del modelo. El trabajo experimental de esta tesis se centra en desarrollar un nuevo método para ensayar cualquier turbina de doble entrada sometida a condiciones de flujo fuertemente pulsante. La configuración del banco de gas se ha diseñado para ser suficientemente flexible como para realizar pulsos en las dos ramas de entrada por separado, así como para usar condiciones de flujo caliente o condiciones ambiente con mínimos cambios en la instalación. La campaña experimental se usa para validar un modelo integrado unidimensional de turbina tipo twin scroll con especial foco en las componentes reflejada y transmitida para analizar el desempeño del modelo su capacidad de predicción de la acústica no lineal. Finalmente, después de desarrollar el trabajo experimental y de modelado, se presenta un procedimiento para caracterizar el sonido y ruido de la turbina por medio de matrices de transferencia acústica que es comparado con el código unidimensional completo. En este sentido, el método proporciona una herramienta útil y fácil de implementar para simulaciones en tiempo real que aplica de una manera práctica el trabajo de modelado expuesto a lo largo de esta tesis. / [CAT] Està fora de tot dubte que la indústria de l'automòbil està vivint una profunda transformació que, durant els últims anys, ha progressat a un ritme accelerat. A causa de la creixentment estricta regulació sobre emissions contaminants i la necessitat de satisfer la sempre creixent demanda de mobilitat sostenible, és necessari que els motors de combustió moderns reduïsquen el seu consum i emissions mantenint el rendiment del motor. Per a enfrontar-se a aquest desafiament, els enginyers de recerca i desenvolupament han redoblat els seus esforços a l'hora de dissenyar i millorar els models unidimensionals, fins al punt en el qual el desenvolupament de models 1D així com la simulació juguen un paper fonamental en les primeres etapes de disseny de nous motors i tecnologies. Al mateix temps, la tecnologia de turbosobrealimentación s'ha consolidat com una de les més efectives a l'hora de construir motors d'alta eficiència, la qual cosa ha fet evident la importància de comprendre i modelar correctament els efectes associats als turbogrupos. Particularment, els fenòmens que ocorren en la turbina en condicions de flux fortament polsant han demostrat ser complicades de modelar i no obstant això decisives, ja que els codis de simulació són especialment útils quan són dissenyats per a treballar en condicions realistes. Aquest treball se centra en millorar els models unidimensionals actuals així com a desenvolupar noves solucions amb l'objectiu de contribuir a una millor predicció del comportament de la turbina sotmesa a condicions de flux polsant. Tant els esforços realitzats en els treballs experimentals com en els de modelatge s'han produït per a poder proporcionar mètodes que siguen fàcils d'adaptar a les diferents configuracions de turbogrupo usades en l'indústria, per això, poden ser aplicats per exemple en turbines d'entrada simple i també en les cada vegada més usades turbines d'entrada doble. Pel que fa al treball de modelatge en la part de turbina d'entrada simple, el focus s'ha posat a presentar una versió millorada d'un codi quasi-2D. La validació del model es basa en les dades experimentals que estan disponibles de treballs anteriors de la literatura, proporcionant una comparació completa entre els models quasi-2D i el clàssic model 1D. La pressió a l'entrada i eixida de la turbina s'ha descompost en ones que viatgen cap avant i cap enrere per mitjà de la descomposició de pressions, emprant la component reflectida i transmesa per a verificar la bondat del model. El treball experimental d'aquesta tesi se centra en desenvolupar un nou mètode per a assajar qualsevol turbina de doble entrada sotmesa a condicions de flux fortament pulsante. La configuració del banc de gas s'ha dissenyat per a ser prou flexible com per a realitzar polsos en les dues branques d'entrada per separat, així com per a usar condicions de flux calent o condicions ambient amb mínims canvis en la instal·lació. La campanya experimental s'usa per a validar un model integrat unidimensional de turbina tipus twin-scroll amb especial focus en les components reflectida i transmesa per a analitzar l'acompliment del model la seua capacitat de predicció de l'acústica no lineal. Finalment, després de desenvolupar el treball experimental i de modelatge, es presenta un procediment per a caracteritzar el so i soroll de la turbina per mitjà de matrius de transferència acústica que és comparat amb el codi unidimensional complet. En aquest sentit, el mètode proporciona una eina útil i fàcil d'implementar per a simulacions en temps real que aplica d'una manera pràctica el treball de modelatge exposat al llarg d'aquesta tesi. / [EN] It is beyond all doubt that the automotive industry is living a deep transformation that, during the last years, has progressed at an ever accelerating rate. Due to the increasingly stringent pollutant emission regulations and the necessity to fulfil an ever growing demand for sustainable mobility, the modern internal combustion engines are required to strongly reduce the fuel consumption and emissions, while keeping the engine performance. In order to confront this challenge, engine research and development engineers have redoubled their efforts in designing and improving one-dimensional codes, to the point that the development of 1D models and simulation campaigns play a major role in the early steps of designing new engines or technologies. At the same time as the turbocharging technology has arisen as one of the most effective and extended solutions for building high efficient engines, the importance of understanding and modelling correctly the turbocharger effects has become evident. In particular, the phenomena that occurs in the turbine under highly pulsating conditions have proven to be challenging to model and yet decisive, as simulation codes are especially useful when they are designed to work under realistic conditions. This work focusses on the improvement of current one-dimensional models as well as in the development of new solutions with the aim of contributing to a better prediction of the turbine performance under pulsating conditions. Both experimental and modelling efforts have been made in order to provide methods that are easily adaptable to different turbocharger configurations used in the industry, so they can be applied for example in single turbines and also in the increasingly used two-scroll turbine technology. Regarding the modelling work of the single entry turbine part, the work has been focused in presenting an improved version of a quasi-2D code. The validation of the model is based on the experimental data available from previous works of the literature, providing a complete comparison between the quasi-2D and a classic 1D model. By means of a pressure decomposition, the pressure at the turbine inlet and outlet has been split into forward and backward travelling waves, employing the reflected and transmitted components to verify the goodness of the model. The experimental work of the thesis is centred in developing a new method in order to test any two-scroll turbine under highly pulsating flow conditions. The gas stand setup has been designed to be flexible enough to perform pulses in both inlet branches separately as well as to use hot or ambient conditions with minimal changes in the installation. The experimental campaign is used to fully validate an integrated 1D twin-scroll turbine model with special focus in the reflected and transmitted components for analysing the performance of the model and its non-linear acoustics prediction capabilities. Finally, after the experiment and modelling work is developed, a procedure to characterise the turbine sound and noise by means of acoustic transfer matrices is presented and tested against the fully one-dimensional code. In this sense, this method provides a useful and easily-implementable tool for fast and real time simulations that applies in a practical way the modelling work exposed along this thesis. / Soler Blanco, P. (2020). Simulation and modelling of the performance of radial turbochargers under unsteady flow [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/141609 / TESIS Turbocharger One-dimensional model Twin turbine Pulsating flow Instantaneous turbine performance Internal combustion engine INGENIERIA AEROESPACIAL
23	The Intersections of Military Family Culture and Black Family Culture: Challenges and Benefits of Being a Black Daughter in a Military Family Evans, Pinkie Irene 09 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Research on military families has increased since the beginning of the wars in Afghanistan and Iraq; however, the research focuses on military families is general with little specific information on Black families within the military. Given the known general impact of race, this is a critical gap in the research into military families. This qualitative descriptive study explores the life of Black daughters in military families by examining the challenges and benefits of growing up as a Black daughter in a military family. There were three primary research questions asked of the participants about their experiences: 1) What challenges did you experience growing up in a military family; 2) What benefits did you experience growing up in a military family; and, 3) Do you believe that being Black affected the challenges and benefits you experienced? If so, in what way(s)? The participants also answered two additional questions of importance to social workers and health practitioners who work with military families: 1) What advice would you give to social workers who work with military families?; and, 2) What advice would you have for the military to help families address the challenges you have mentioned? The answers to the primary research questions are reviewed through the Multidimensional Model of Racial Identity (MMRI), models of systems theory, mettle, adaptability, and transformability. Consideration of the “Strong Black Woman” perspective is also examined. A look at the roles that women play as well as roles imposed on women by others is explored. Implications for social workers, health practitioners, and schools of social work are discussed, inclusive of military family culture and the importance of cultural competence in considering the intersections of a person’s life: racial identity in addition to military implications. / 2021-10-02 Black family culture Adaptability Intersectionality Military families Strong Black women
24	EMPIRICALLY DERIVED EATING DIMENSIONS: INTERNALIZING AND EXTERNALIZING CORRELATES, TEMPERAMENTAL VULNERABILITY, AND THE MODERATING EFFECTS OF FAMILY ENVIRONMENT Pole, Michele 29 April 2008 (has links) No description available. Psychology classification dimensional model CFA eating disorders comorbidity personality temperament family factors
25	Three-dimensional numerical model for wave-induced seabed response around mono-pile Sui, T., Zhang, C., Guo, Yakun, Zheng, J.H., Jeng, D-S., Zhang, J.S., Zhang, W. 12 May 2015 (has links) Yes / In this study, a new three-dimensional (3-D) model was developed to provide better understanding of the mechanism for wave-induced seabed response around mono-pile. Based on poro-elastic theory, the fully dynamic (FD) formulations were adopted in the present model to simulate pore water pressure, soil stresses, displacements of both soil and mono-pile. Good agreement between numerical simulation and experimental results was obtained. Based on parametric study, numerical results indicated: (1) wave diffraction and reflection have significant effects on pore water pressure and soil displacements around mono-pile; (2) the most sensitive position for seabed parameter to pore water pressure around mono-pile locates in front of mono-pile while the least sensitive position is at the position of angle 3π/4 with respect to the incident wave direction; and (3) the increase of mono-pile horizontal displacement corresponds to the increase of wave height and the decrease of seabed Young's modulus. / National Science Fund for Distinguished Young Scholars (51425901), the National Natural Science Foundation of China (51209082, 51379071, 41176073), the Specialized Research Fund for the Doctoral Program of Higher Education of China (20120094120006, 20130094110014), the 111 project (B12032), the 333 project of Jiangsu Province (2013Ⅲ-1882)
26	Modeling of a spiral-wound reverse osmosis process and parameter estimation Al-Obaidi, Mudhar A.A.R., Kara-Zaitri, Chakib, Mujtaba, Iqbal M. 10 September 2016 (has links) Yes / Reverse osmosis system has been widely used for the separation of organic and non-organic pollutants present in wastewater. The main aim of this study is to develop a one dimensional steady state model based on the three-parameter Spiegler-Kedem methodology using the gPROMS software and validate it by assessing the performance of membrane rejection for the separation data of aqueous solutions of phenol under different concentrations and pressures. Considerations of the variance of pressure, flow rate, solute concentration, solvent and solute fluxes and mass transfer coefficient along the feed channel were included in the model. Furthermore, an optimization methodology for the gEST parameter estimation tool has been developed in the gPROMS and used with experimental data in order to estimate the best values of the separation membrane parameters and the friction parameter. The simulation results of this model have been corroborated by experimental data.
27	Controlled Source Radiomagnetotelluric (CSRMT) Applications in Environmental and Resource Exploration Ismail, Nazli January 2009 (has links) An integrated use of radio magnetotelluric (RMT) and controlled source tensor magnetotelluric (CSTMT) measurements, the so-called CSRMT method, has been employed in environmental and resource exploration studies. A number of case histories, including a groundwater investigation in glacial deposits, a study of fracture zones for geotechnical purposes and a mining exploration study of a copper deposit, are presented in this thesis in order to illustrate the usefulness and capability of the CSRMT method. The resolutions of the estimated models using various types of data are studied. Magnetotelluric transfer functions are used to analyze the dimensionality, the near surface resistivity distortions and the near field effects in the case of CSTMT data analysis. The near field effects in CSTMT data have also been identified by performing 2½D forward modelling. Data analysis, dimensionality tests and forward modelling show that at the lowest frequencies used the CSTMT transfer functions are generally distorted by source effects, except when the source-receiver distances are sufficient large compared with the penetration depth. Regarding CSTMT transfer functions, apparent resistivities are generally less distorted than phases. TM mode transfer functions are more affected by the sources than TE mode, while tipper vectors generally contain source signatures at all frequencies. Based on the analysis of dimensionality and source effects 2D inverse modelling of CSTMT and RMT data, as well as their combination, have been performed under the plane wave assumption. The RMT method proved to be a powerful tool for imaging the upper 50 m near-surface, but their penetration depth reduces as a conductive layer structures cover the targets at depth. The penetration depth can be increased by including the CSTMT data in the modelling if the measurements are in the far field range. The resolution of the deeper parts of the models may be improved by performing a joint inversion of TE and TM modes, if the strike direction is well-defined. Alternatively, inversion of determinant data can be performed, since the determinant data are less affected by 3D structures and source effects. However the resolution of the determinant models is somewhat degraded compared to the models inverted from combined TE and TM modes. Magnetotelluric radio magnetotelluric controlled-source tensor magnetotelluric plane wave near surface geophysics sediment fracture zone inversion forward modelling near field effect two-dimensional model three-dimensional model resolution Geophysics Geofysik
28	Application of Two-Dimensional Hydraulic Modeling in Riverine Systems Using HEC-RAS Alzahrani, Abdulaziz S. 24 May 2017 (has links) No description available. Civil Engineering Environmental Engineering Geology Hydrology Water Resource Management Urban Planning HEC-RAS One-dimensional model with storage area Two-dimensional model Floodplain area Terrain model Finite volume method
29	Experimental and Analytical Collapse Evaluation of an Existing Building Akah, Ebiji Anthony 15 October 2015 (has links) No description available. Civil Engineering progressive collapse full-scale testing steel building column removal strain gauges displacement sensors linear static nonlinear dynamic SAP2000 analysis three-dimensional model two-dimensional model GSA design guidelines
30	Business Intelligence v SCM / Business Intelligence in Supply Chain Management Lhotan, Petr January 2010 (has links) The diploma thesis Business Intelligence in Supply Chain Management deals on the edge of IT and logistics with designing conceptual solution for BI in SCM. It covers specific needs of Supply-Chains, usage of BI in logistics, analyses the connection to the SCOR model developed by Supply-Chain Council, and designs & describes basic dimensions and relationships in the dimensional model. The primary goal is to create a general BI model solution that respects the specifics of various types of Supply-Chains in order to serve as a theoretical framework. The resulting model links to existing models designed for the Supply-Chain Management such as SCOR, Balanced Scorecard etc. To fulfil the primary goal first it is necessary to identify the specifics of various types of supply-chains, define BI use case and requirements in logistics; and by incorporating these parameters and SCOR model the BI model solution will emerge. The biggest contribution is the fulfilment of the primary goal - the creation of BI solution reference model for Supply-Chain with specific needs according to suppliers, manufacturers, distributors and retailers. With the help of this model it should be easier to coordinate, clarify goals, activities and relationships of methods used in the pre-analytical stage and implementation of the BI technologies in the Supply-Chains.

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