Global ETD Search

231	Modernizace kompresní stanice / Modernization of compressor station Kocourková, Markéta January 2015 (has links) The thesis is concerned with multi-criteria evaluation of alternatives of modernization of compressor station for natural gas. This thesis is divided into practical part and theoretical part. The theoretical part will introduce historical development of the gas industry and the current state of the gas network in our country. The following describes a method for operating a compressor station, its technology units and existing operational processes. The theoretical part is a chapter that describes methods of multi-criteria evaluation of alternatives and a way of specifying the methods suitable for constructing weights of the criteria. The fifth chapter contains an application example, the aim of which is to choose the suitable way of modernization of the compressor station that would meet the requirements of planned projects. Creating recommendations for the management of the company fulfilled the goal of this thesis.
232	Implementation of Turbo Codes on GNU Radio Talasila, Mahendra 12 1900 (has links) This thesis investigates the design and implementation of turbo codes over the GNU radio. The turbo codes is a class of iterative channel codes which demonstrates strong capability for error correction. A software defined radio (SDR) is a communication system which can implement different modulation schemes and tune to any frequency band by means of software that can control the programmable hardware. SDR utilizes the general purpose computer to perform certain signal processing techniques. We implement a turbo coding system using the Universal Software Radio Peripheral (USRP), a widely used SDR platform from Ettus. Detail configuration and performance comparison are also provided in this research. GNU radio BPSK modulation turbo codes Software radio. Signal processing -- Digital techniques.
233	Turbo Heat Transfer Modeling for Control Nordlöf, Anon, Lundqvist, John January 2018 (has links) The demand for lower emission engines forces the car industry to build moreefficient engines. Turbocharged engines are on the rise, and better understandingof the heat transfer and efficiency of the turbocharger is needed to build better ones. A lot is known about the overall efficiency of the turbocharger, but not much is known about where the heat losses are located and how they interact with each other. This thesis presents a one dimensional model for heat exchange in the tur-bocharger and investigates how the heat flows from the hot exhaust gases to the cold intake air. Data is gathered by performing tests on a single scroll turbocharger in an engine test bench at Linköping University. The tests are focused on operating points where the air mass flow is low and neither the compressor nor the turbine works adiabatically. The results show that it is possible to estimate the heat flows together withthe efficiency of the turbine and compressor using only known parameters, elim-inating the need to add any new sensors to the engine. Turbo Control Heat transfer Volvo Liu Annan elektroteknik och elektronik Control Engineering Reglerteknik
234	Análise de um modelo termohidrodinâmico para mancais axiais / Analysis of a thermohydrodynamic model for thrust bearings Vieira, Leonardo Carpinetti, 1987- 26 August 2018 (has links) Orientador: Kátia Lucchesi Cavalca Dedini / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica / Made available in DSpace on 2018-08-26T15:33:06Z (GMT). No. of bitstreams: 1 Vieira_LeonardoCarpinetti_D.pdf: 8387504 bytes, checksum: c4ddda686a98c9562fec4c86ff5f3a1c (MD5) Previous issue date: 2014 / Resumo: Este trabalho possui como principal objetivo analisar a influência da variação da temperatura e, consequentemente, da viscosidade do fluido lubrificante sobre o comportamento de mancais axiais lubrificados de geometria fixa. Foi implementado numericamente, para isto, um modelo termohidrodinâmico (THD) baseado na resolução da Equação de Reynolds generalizada e da Equação de Energia através do Método dos Volumes Finitos (MVF), permitindo a obtenção da distribuição de pressão e da distribuição de temperatura ao longo do filme de óleo presente entre o mancal estacionário e o colar do eixo em movimento. Os resultados de capacidade de carga axial do mancal e o seu comportamento dinâmico, cuja análise é feita através dos coeficientes equivalentes de rigidez e amortecimento do lubrificante, são comparados com os resultados obtidos através de um modelo exclusivamente hidrodinâmico (HD), isotérmico e isoviscoso, previamente desenvolvido, buscando-se compreender o grau de influência da variação da temperatura na análise de mancais deste tipo. A influência de uma gama de parâmetros geométricos envolvidos, tais como comprimento angular da rampa e do segmento e inclinação da rampa, também é analisada, com o objetivo de se definir parâmetros geométricos ótimos do mancal que resultam em uma maior capacidade de carga axial. A influência de parâmetros de operação, tais como velocidade de rotação e espessura mínima de fluido, também é analisada. Resultados experimentais obtidos através de uma bancada de testes montada com um turbocompressor são utilizados para se validar os resultados do modelo implementado numericamente e analisar o comportamento de um sistema real capaz de funcionar a velocidades de rotação muito altas e sujeito a esforços axiais abruptos e elevados / Abstract: The main aim of this work is to analyse the influence of the temperature variation and, as consequence, the viscosity variation of the lubricant fluid on the behaviour of lubricated fixed-geometry thrust bearings. For this purpose, a thermohydrodynamic (THD) model, based on the solution of the Generalized Reynolds¿ Equation and of the Energy Equation by use of a Finite Volume Method, was developed, enabling the calculation of both pressure and temperature distribution along the fluid film present between the stationary bearing and the rotating collar. The results of axial load capacity of the bearing and its dynamic behaviour, characterised by the equivalent stiffness and damping coefficients, are compared to the results obtained by a previously developed purely hydrodynamic (HD), isothermal and isoviscous model, with the objective of understanding the influence of the temperature variation on the analysis of this type of bearings. The influence of several geometric parameters, such as pad length, ramp length and slope of the ramp, is also analysed, with the objective of defining the optimum values that lead to a higher load capacity. Also, the influence of operating parameters as speed and minimum film thickness on the behaviour of the system is studied. Experimental results, obtained at a test rig mounted with a small turbocharger are used to validate the simulated results and analyse the behaviour of a real system, capable of supporting high speeds of rotation and severe and abrupt external loads / Doutorado / Mecanica dos Sólidos e Projeto Mecanico / Mestre em Engenharia Mecânica Mancais Lubrificação Rotores - Dinâmica Turbo-compressores Método dos volumes finitos Bearings Lubrication Rotors - Dynamic Turbochargers Finite volume method
235	Rekuperace energie ze spalin naftového motoru užitkového vozidla / Exhaust Gas Energy Recuperation in a Commercial Vehicle Diesel Engine Šroba, Roman January 2020 (has links) The scope of this thesis investigates value added by a turbocharger with an associated motor-generator unit to a diesel engine used by a commercial vehicle. A thermodynamic model of the engine was prepared in GT-SUITE software. Case studies were primary focused on a reduction of specific fuel consumption as well as a nitrogen oxides production using an energy recuperation of exhaust gas. Furthermore, there are described potential benefits of using an electric assistance in order to increase an exhaust gas temperature during a steady state engine operation. Additionally, there is an investigation of potential benefits of a turbocharger assistance in a transition engine mode operating during rapid acceleration of the vehicle. The results of individual analysis will be taken into account for a selection of turbocharger regarding specific engine implementation. The results of simulation suggest that it is possible to lower specific fuel consumption, production of nitrogen oxides, as well as accelerate turbocharger response.
236	Návrh pracovního cyklu motoru plug-in hybridního vozidla / Engine Cycle Design for Plug-in Hybrid Koutník, Štěpán January 2021 (has links) The content of this thesis is analysis of energy flows of the propulsion system in plug-in hybrid utility vehicle. Theoretical part of the thesis deals with electrically assisted turbochargers, which can positively influence engine characteristics. The following part analyses given diesel engine and utility vehicle in simulations in GT-Suite software, with simulations being performed on WLTC driving cycle. The results of the simulations demonstrate the relation between the usage of electrical and fuel energies and the driving cycle and show the engine operation points. By using optimal battery capacity, it is possible to save according to driving cycle more than 50 % energy consumed by the engine, directly influencing the fuel consumption. The results are possible to use as a guidance for moving the engine operation points and for sizing of the battery pack of hybrid utility vehicle according to real life application.
237	Převodovka mobilní elektrocentrály / Gearbox for portable power generator Kolka, Roman January 2008 (has links) The submitted project deals with a complete design of a gearbox of a portable ground power generator designed for preflight preparation of helicopters. The gearbox has been designed to meet given specifications, which are based on required electrical parameters of the entire power unit and with regards to parameters of driving turbine engine. The introductory section deals with a kinematical design of transmission gears with regards to required parameters and design constraints. The kinematical design determines whole concept and resulting form of the gearbox. Next part deals with optimization of gearing, the design of wheel bearing, and design of oil system. The implementation part of the project consists in the engineering design of the gearbox, which was made in 3D environment Pro/Engineer. The design is reviewed and first operational results of manufactured and tested gearbox are discussed in the concluding section of this work.
238	Modulation and Synchronization for Aeronautical Telemetry Shaw, Christopher G. 14 March 2014 (has links) (PDF) Aeronautical telemetry systems have historically been implemented with constant envelope modulations like CPM. Shifts in system constraints including reduced available bandwidth and increased throughput demands have caused many in the field to reevaluate traditional methods and design practices. This work examines the costs and benefits of using APSK for aeronautical telemetry instead of CPM. Variable rate turbo codes are used to improve the power efficiency of 16- and 32-APSK. Spectral regrowth in nonlinear power amplifiers when driven by non-constant envelope modulation is also considered. Simulation results show the improved spectral efficiency of this modulation scheme over those currently defined in telemetry standards. Additionally, the impact of transitioning from continuous transmission to burst-mode is considered. Synchronization loops are ineffective in burst-mode communication. Data-aided feed forward algorithms can be used to estimate offsets in carrier phase, frequency, and symbol timing between the transmitter and the receiver. If a data-aided algorithm is used, a portion of the transmitted signal is devoted to a known sequence of pilot symbols. Optimum pilot sequences for the three synchronization parameters are obtained analytically and numerically for different system constraints. The alternating sequence is shown to be optimal given a peak power constraint. Alternatively, synchronization can be accomplished using blind algorithms that do not rely on a priori knowledge of a pilot sequence. If blind algorithms are used, the observation interval can be longer than for data-aided algorithms. There are combinations of pilot sequence length and packet length where data-aided algorithms perform better than blind algorithms and vice versa. The conclusion is that a sequential arrangement of blind algorithms operating over an entire burst performs better than a CRB-achieving data-aided algorithm operating over a short pilot sequence. aeronautical telemetry turbo-codes APSK synchronization data-aided estimation blind estimation symbol timing carrier frequency carrier phase Electrical and Computer Engineering
239	High Speed Turbo Tcm Ofdm For Uwb And Powerline System Wang, Yanxia 01 January 2006 (has links) Turbo Trellis-Coded Modulation (TTCM) is an attractive scheme for higher data rate transmission, since it combines the impressive near Shannon limit error correcting ability of turbo codes with the high spectral efficiency property of TCM codes. We build a punctured parity-concatenated trellis codes in which a TCM code is used as the inner code and a simple parity-check code is used as the outer code. It can be constructed by simple repetition, interleavers, and TCM and functions as standard TTCM but with much lower complexity regarding real world implementation. An iterative bit MAP decoding algorithm is associated with the coding scheme. Orthogonal Frequency Division Multiplexing (OFDM) modulation has been a promising solution for efficiently capturing multipath energy in highly dispersive channels and delivering high data rate transmission. One of UWB proposals in IEEE P802.15 WPAN project is to use multi-band OFDM system and punctured convolutional codes for UWB channels supporting data rate up to 480Mb/s. The HomePlug Networking system using the medium of power line wiring also selects OFDM as the modulation scheme due to its inherent adaptability in the presence of frequency selective channels, its resilience to jammer signals, and its robustness to impulsive noise in power line channel. The main idea behind OFDM is to split the transmitted data sequence into N parallel sequences of symbols and transmit on different frequencies. This structure has the particularity to enable a simple equalization scheme and to resist to multipath propagation channel. However, some carriers can be strongly attenuated. It is then necessary to incorporate a powerful channel encoder, combined with frequency and time interleaving. We examine the possibility of improving the proposed OFDM system over UWB channel and HomePlug powerline channel by using our Turbo TCM with QAM constellation for higher data rate transmission. The study shows that the system can offer much higher spectral efficiency, for example, 1.2 Gbps for OFDM/UWB which is 2.5 times higher than the current standard, and 39 Mbps for OFDM/HomePlug1.0 which is 3 times higher than current standard. We show several essential requirements to achieve high rate such as frequency and time diversifications, multi-level error protection. Results have been confirmed by density evolution. The effect of impulsive noise on TTCM coded OFDM system is also evaluated. A modified iterative bit MAP decoder is provided for channels with impulsive noise with different impulsivity. OFDM UWB Power Line Turbo TCM Density Evolution Iterative Decoding Impulsive Noise Electrical and Computer Engineering Electrical and Electronics Engineering
240	Electrical Power and Storage for NASA Next Generation Aircraft. Al-Agele, Saif January 2017 (has links) No description available. Aerospace Engineering NASA next-generation aircraft N3X Electrical power generation Turbo-generator system Electric aircraft Electrical distribution systems Battery banks

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