AUTOR DO BLOG ENG.ARMANDO CAVERO MIRANDA SÃO PAULO BRASIL

"OBRIGADO DEUS PELA VIDA,PELA MINHA FAMILIA,PELO TRABALHO,PELO PÃO DE CADA DIA,PROTEGENOS DO MAL"

"OBRIGADO DEUS PELA VIDA,PELA MINHA FAMILIA,PELO TRABALHO,PELO PÃO DE CADA DIA,PROTEGENOS  DO MAL"

“SE SEUS PROJETOS FOREM PARA UM ANO,SEMEIE O GRÂO.SE FOREM PARA DEZ ANOS,PLANTE UMA ÁRVORE.SE FOREM PARA CEM ANOS,EDUQUE O POVO.”

“Sixty years ago I knew everything; now I know nothing; education is a progressive discovery of our own ignorance. Will Durant”

quinta-feira, 20 de dezembro de 2012

A New View of AC Power Distribution Systems

A New View of AC Power Distribution Systems: Peering at power flow and stability with micro-synchrophasors Speakers/Performers: Alex McEachern, President, Power Standard Lab; Alexandra von Meier, Co-Director of Electric Grid Research, CIEE Sponsors: CITRIS (Ctr for Info Technology Research in the Interest of Society), i4Energy Center

domingo, 16 de dezembro de 2012

3 phase sinewave inverter

457 - ELETRICIDADE - Características de funcionamento do contator

ELETRICIDADE - Dispositivo DR. Considerações e teste de funcionamento.avi

Home made PCB by the method of screen printing

Construcción de un transformador eléctrico - Build a electric transformer

New Perspectives of Energy Storage Materials

Dra. Shirley Meng received her Ph.D. in Advance Materials for Micro & Nano Systems from the Singapore-MIT Alliance in 2005, after which she worked as a postdoc research fellow and became a research scientist in Massachusetts Institute of Technology before joining University of Florida, Department of Materials Science & Engineering as a junior faculty member. She is currently a faculty member in the Department of NanoEngineering, University of California San Diego (UCSD). Meng’s research focuses on the direct integration of experimental techniques with first principles computation modeling for developing new materials for electrochemical energy storage and conversion. She won the Materials Research Society Graduate Student Award in 2003 for her pioneering work on designing new high energy electrode materials for lithium ion batteries from first principles. She recently received the National Science Foundation (NSF) CAREER award and her research group - Laboratory for Energy Storage and Conversion (LESC) focuses on functional nano-structured materials for energy storage and conversion. Recent programs include the design, synthesis, processing, and in situ characterization of mixed transition metal oxides as high energy density electrode materials in advanced lithium ion batteries; new intercalation materials for sodium ion batteries and advanced soluble lead flow batteries for grids large scale storage.

Photo-Physics and Renewable Energy Applications of Single-Walled Carbon Nanotubes

Progress towards Third Generation Solar Energy Conversion: Can Quantum Dot Solar Cells exceed the Shockley-Queisser Limit?

Matthew C. Beard is a physical chemist (PhD - Yale University) whose interest spans a large range of important physical chemistry problems relating to photoconversion. This includes charge transport in nanoparticle arrays and organic semiconductors, charge and energy transfer, and size-dependent phenomena in quantum sized-materials. He is currently investigating carrier generation and charge transport in assemblies of semiconductor nanocrystals. Dr. Beard received his Ph.D from Yale University in 2002 where he pioneered time-resolved THz spectroscopy for studying charge carrier generation in a variety of nanoscale systems. He joined NREL in 2004 in the chemical and materials science center working with Arthur J. Nozik. The Center for Advanced Solar Photophysics (CASP) is an energy research frontier center funded by the Basic Energy Sciences division of the Department of Energy and is jointly led by NREL and LANL. CASP’s mission is to explore and exploit the unique advantages of nanostructured materials and solution-based fabrication methods to enable the low-cost, high-efficiency solar cells of tomorrow.

quarta-feira, 12 de dezembro de 2012

How to Succeed in Bringing New Green Energy Technologies to Market

Investigating Structure Variation of Electrode Materials for Lithium Ion Batteries

Hong Li is a Professor of Key Laboratory for Renewable Energy, Institute of Physics (IOP), Chinese Academy of Sciences (CAS), and a deputy director of Beijing National Laboratory for Condensed Matter Physics. He obtained his BS degree in physical chemistry from Lanzhou University in 1992, Master-degree in Electrochemistry in Changchun Institute of Applied Chemistry, CAS in 1995 and the PhD degree in condensed matter physics from IOP, CAS in 1999. He was a post-doctor in Max-Planck-Institute for Solid state Research from 2001 to 2003 and a visiting scholar in Brookhaven National Laboratory in 2007 and 2011. He has studied advanced materials and energy storage/conversion mechanisms in batteries and other solid state ionic devices. He has published over 140 papers in peer-reviewed SCI journals with over 4000 times citation and the H-index is 34. He has given invited 30 talks in international academic conferences. He has filed over 60 patents and over 20 have been granted. Authors: Hong Li

The Changing Energy Mix, Implications of the Shale Gas Boom for the Electric Power Sector

Description: Summary: Transitioning to a sustainable low-carbon energy system poses one of the great challenges of the 21st century. The Energy Innovation Series brings leaders from government, law, finance, industry, and academia to discuss key aspects of this challenge and some of the innovative approaches and solutions being fashioned across a range of sectors. During academic year 2012-13, the series will focus on the changing energy mix in the United States and abroad, the implications of shale gas on the electric power sector, financing for energy innovation, the changing utility business model, and pathways to scale for renewable energy. This half-day conference will explore some of the dramatic changes taking place in the energy sector, with particular attentions to the U.S. electric power sector. « Hide Authors: Lance Astrella, William Boyd, Jeff Logan, John Mork

Energy Efficiency In Buildings And Heat Supply Solutions: A German Perspective For The Nuclear Shutdown

Description: Beginning with some background information on the unique German position regarding the energy supply eliminating any nuclear power by 2022 but enforcing the use of renewable energy sources, the challenges for both the building and the power generation sector will be highlighted. The talk will introduce opportunities to improve energy performance of buildings by new and innovative HVAC concepts as well as for increasing the penetration of renewable and environmental energy sources for heat and power supply in cities. That is also why a particular focus will be on other relevant aspects as multi-level district heating, combined heat and power generation and the proper balance between large-scale energy generation in heat and power plants and distributed small-scale heat and power generation in buildings in terms of a global optimum in energy use and emissions. Currently ongoing research projects at the Technical University of Dresden will be presented. « Hide Authors: Clemens Felsmann

Modeling, Monitoring and Control of Wind Turbine Drive-trains

Summary: The wind turbine drive‐train is an integral part of the turbine that converts rotational kinetic energy from the wind to electrical energy. Ensuring reliable and robust operation of the drive‐train necessitates developing an accurate dynamic response model that includes its aero‐dynamic interaction with the wind, torsional and translational responses of its mechanical components, as well as electro‐mechanical interaction at the generator. This presentation will describe a high‐fidelity lumped mass model of the wind turbine drive‐train, which is integrated with FAST, an openly available aero‐elastic code developed by the National Renewable Energy Laboratory (NREL). Jaspreet Singh Dhupia is an Assistant Professor at Nanyang Technological University, Singapore since July 2008. Prior to that, Prof. Dhupia graduated with a PhD and MS in Mechanical Engineering from the University of Michigan, Ann Arbor, and a B.Tech. from Indian Institute of Technology, Delhi. His doctoral research was carried out at the Center for Reconfigurable Manufacturing Systems funded by National Science Foundation. Currently, his research activities are funded by several government and industrial organizations in Singapore, which include the Ministry of Education, Maritime Port Authority, Rolls-Royce Singapore Pte. Ltd., and ABB Singapore Pte. Ltd. His research focuses on drive-train controls, monitoring, and modeling for different applications, such as ships, aircraft, and wind turbines.

High-altitude Wind Energy Generation

Sustainable energy generation is one of the most urgent challenges that mankind is facing nowadays. Many countries have set ambitious objectives to increase the share of energy produced from clean and renewable sources. Unfortunately, the actual renewables are still not competitive with respect to fossil fuels, due to the high costs of the related technologies, their variable and non-uniform availability and their low power density per unit area. Lorenzo Fagiano, Ph.D. Lorenzo Fagiano received the Master's degree in Automotive Engineering in 2004 and the Ph.D. degree in Information and System Engineering in 2009 from Politecnico di Torino, Italy. In 2005 he worked for Fiat Research Centre, Italy, in the field of active vehicle systems. In 2007 he spent a three-months visiting period in the Optimization for Engineering Center (OPTEC) of the Katholieke Universiteit Leuven. Lorenzo Fagiano is currently a Marie Curie fellow at Politecnico di Torino and a visiting researcher at the University of California, Santa Barbara. His main research interests include high-altitude wind energy generation using controlled tethered wings, constrained robust and nonlinear control, set membership theory for control purposes and automotive control systems. Lorenzo Fagiano is co-author of about 50 papers published in international journals, conference proceedings and book chapters. He is recipient of the ENI award "Debut in Research" prize 2010, of the Maffezzoni prize 2009 and of a Marie Curie International Outgoing Fellowship.

Control of Power Inverters in Renewable Energy and Smart Grid Integration

Dr. Qing-Chang Zhong Qing-Chang Zhong received the Ph.D. degree in control theory and engineering from Shanghai Jiao Tong University, Shanghai, China, in 1999, and the Ph.D. degree in control and power engineering (awarded the Best Doctoral Thesis Prize) from Imperial College London, London, U.K., in 2004. He holds the Chair Professor in Control and Systems Engineering at the Dept of Automatic Control and Systems Engineering, the University of Sheffield. He is a Fellow of IET (2010) and a Senior Member of IEEE (2004). He is an Associate Editor of IEEE Transactions on Power Electronics and of the Conference Editorial Board of IEEE Control Systems Society. He is a Vice Chair of IFAC TC 6.3 (Power and Energy Systems) and IFAC TC 2.2 (Linear Control Systems), and has been on the Program Committees of many international conferences. He was awarded one of the seven Leverhulme Trust Senior Research Fellowships in 2009 by the Royal Academy of Engineering, UK. He has attracted over £2M research funding from EPSRC, RAEng, TSB, and industrial companies etc during the last five years. His current research focuses on advanced control theory, power electronics, renewable energy, smart grid integration, electrical vehicles and control applications in other industrial sectors. The details of some of his projects can be found from http://zhongqc.staff.shef.ac.uk.

domingo, 9 de dezembro de 2012

FORUM Energy Future Keio University and the Embassy of Canada

Collaboration between Keio University and the Embassy of Canada concerning a Forum on Energy Future Canada-Japan collaboration for Leading Research on Hydrates. Energy Future(Sept.21.2011)1/11 Professor, Faculty of Science and Technology, Keio Univ. Director, Keio Leading-edge Laboratory of Science and Technology  UEDA, Toshihisa Minister(Commercial), Embassy of Canada Paul J. Thoppil, C.A. Professor and Vice-President, Keio University MAKABE, Toshiaki http://www.kll.keio.ac.jp/seminar/hydrate.html

超小型衛星による新しい宇宙開発・利用およびその制御的課題 PROBLEMAS DE CONTROL DE MICROSATELITES KEIO UNIVERSITY JAPAN

Introductory Lectures on Solid State Physics #9 KEIO UNIVERSITY JAPAN PROF. KOHEI M. ITOH

KEIO UNIVERSITY JAPAN 慶應大学 講義 物理情報数学A 第一回 高校数学からの復習 2010

sexta-feira, 30 de novembro de 2012

PERUVIAN ELECTRIC ENGINEERS IN BRAZIL



MARCOS J. RIDER FLORES was born in Lima, Peru; in 1975. He received his BSc (with honors) and the Professional Engineer (PE) degrees in 1999 and 2000, respectively, from National University of Engineering ( UNI), Faculty of Electrical and Electronics Engineering ( FIEE), Lima, Peru; his MSc degree in 2002 from the Federal University of the Maranhao ( UFMA), Brazil, and his PhD degree in 2006 from University of Campinas ( UNICAMP), Brazil, all in electrical engineering. Currently he is carrying out post doctorate at the State University of Campinas, Brazil. His professional experience include several research projects, international consultings and technical papers publications. His areas of research are the development of methodologies for the optimization, planning and control of electrical power systems and applications of artificial intelligence in power systems. He is Member of the Institute of Electrical and Electronics Engineers (IEEE).


 Rubén Augusto Romero Lázaro

Universidade Estadual Paulista (UNESP). Campus de Ilha Solteira. Faculdade de Engenharia (Instituição sede da última proposta de pesquisa)
País de origem: PERU
 Possui graduação em Ingenieria Eléctrica - Universidad Nacional de Ingenieria (1978), mestrado em Engenharia Elétrica pela Universidade Estadual de Campinas (1990) e doutorado em Engenharia Elétrica pela Universidade Estadual de Campinas (1993). Faz trabalhos de pesquisa na área de Engenharia Elétrica, com ênfase em otimização da operação e o planejamento de sistemas de transmissão e distribuição de energia elétrica com destaque nos temas: planejamento de sistemas de transmissão, otimização de sistemas de distribuição, programação linear e não linear, programação inteira, fluxo de carga radial, alocação ótima de bancos de capacitores, reconfiguração de alimentadores em sistemas de distribuição de energia elétrica e teoria e aplicação de metaheurísticas. Em março de 2012 apresenta 38 artigos em periódicos internacionais indexados pelo ISI (33 deles tipo IEEE ou IEE). Também apresenta 912 citações pelo ISI e um fator de impacto H igual a 18. Atualmente é pesquisador 1B do CNPq e Senior Member do IEEE. (Fonte: Currículo Lattes)

domingo, 25 de novembro de 2012

RISAT-1 Satellite launched using India's Polar Satellite Launch Vehicle [PSLV-C19 mission]

RISAT-1 is a Radar Imaging Satellite designed & built by the Indian Space Research Organisation [ISRO]. The satellite gives its operator [India] the capability to carry out surveillance under all conditions - day, night & also cloudy. Besides carrying out activities that have socio-economic benefits, the satellite can also be put to use to conduct missions having relevance to National security. The satellite was successfully launched on April 26, 2012 using India's Polar Satellite Launch Vehicle [PSLV]. This launch makes it PSLV's 20th consecutive launch success.

Megha-Tropiques satellite launch using India's Polar Satellite Launch Vehicle [PSLV C-18]


 Megha-Tropiques satellite has been jointly developed & built by the India Space Research Organisation [ISRO] & the French Centre National d'Études Spatiales to study rainfall, in general, & water cycle, in particular.

The other piggyback satellite payloads that were also successfully launched in this mission included Vesselsat-1, SRMSat & Jugnu

The launch took place at 1100 hrs IST from the Shriharikota Spaceport in India on October 12 2011 using India's indigenous satellite launcher, the Polar Satellite Launch Vehicle [PSLV C-18].

Centre National d'Études Spatiales [CNES]

http://www.cnes.fr/web/CNES-en/7114-home-cnes.php
http://en.wikipedia.org/wiki/CNES

Indian Space Research Organisation [ISRO]
http://www.isro.org/
http://en.wikipedia.org/wiki/ISRO

IIT JEE 2012 Physics solution, JEE 2013 syllabus, IIT JEE online coachin...

sexta-feira, 23 de novembro de 2012

ANALISE DO SISTEMA ELETRICO DE UMA UNIDADE DE PRODUÇÃO DE PETROLEO

ANALISE DO SISTEMA ELETRICO DE UMA UNIDADE DE PRODUÇÃO DE PETROLEO RENATA ALVES CASANOVA WAGNER GUEDES GUIMARAES PEREIRA PROJETO SUBMETIDO AO CORPO DOCENTE DO DEPARTAMENTO DE ENGENHARIA ELETRICA DA ESCOLA POLITECNICA DA UNIVERSIDADE FEDERAL DE RIO DE JANEIRO COMO PARTE DOS REQUISITOS NECESSARIOS PARA OBTENÇÃO DO GRAU DE ENGENHEIRO
ELETRICISTA

                              

 LINK
http://www.mediafire.com/view/?6tq2tfgt31kkjf2

domingo, 18 de novembro de 2012

Qualificação e etiquetagem de inversores para sistemas fotovoltaicos conectados à rede PARTE II

TESIS QUALIFICAÇAO E ETIQUETAGEM DE INVERSORES PARA SISTEMAS FOTOVOLTAICOS CONETADOS A REDE PARTE-II from armando cavero on Vimeo.

Qualifying and Labeling of Inverters for Grid-Connected Photovoltaic Systems - Qualificação e etiquetagem de inversores para sistemas fotovoltaicos conectados à rede PARTE I


TESIS QUALIFICAÇAO E ETIQUETAGEM DE INVERSORES PARA SISTEMAS FOTOVOLTAICOS CONETADOS A REDE PARTE-I from armando cavero on Vimeo. Dissertação de Mestrado Autor Pinto Neto, Aime Fleury de Carvalho (Catálogo USP)
Nome completo Aime Fleury de Carvalho Pinto Neto
 Unidade da USP Energia Área do Conhecimento Energia Data de Defesa 2012-05-30 Imprenta São Paulo,2012
Orientador Zilles, Roberto (Catálogo USP) Banca examinadora Zilles, Roberto (Presidente) Pinho, João Tavares Rüther, Ricardo
Título em português Qualificação e etiquetagem de inversores para sistemas fotovoltaicos conectados à rede Resumo em português
Este trabalho apresenta o desenvolvimento de uma metodologia para a etiquetagem e qualificação de inversores para Sistemas Fotovoltaicos Conectados à Rede, com finalidade de servir de proposta de procedimento para inclusão no Regulamento de Avaliação de Conformidade de Equipamentos e Sistemas Fotovoltaicos do Programa Brasileiro de Etiquetagem. O procedimento desenvolvido avalia os inversores quanto à eficiência, qualidade de energia, proteções e informações operacionais e de instalação.
ESTA TESIS ESTA DIVIDIDO EM 02 PARTES This work presents the development of a methodology for qualification and labeling of inverters for grid-connected photovoltaic systems, aiming serving as procedural proposal for inclusion in the Conformity Assessment Rules of Equipments and Photovoltaic Systems of the Brazilian Labeling Program. The developed procedure evaluates the inverters efficiency, power quality, protections and operational and installation information.
 LINK THESIS FULL
http://www.teses.usp.br/teses/disponiveis/86/86131/tde-28062012-174659/publico/Dissertacao.pdf

terça-feira, 6 de novembro de 2012

具柔性切換單元之脈寬調變轉換器 推演與應用 Development and Application of PWM Converters with Soft-Switching Cells

Development and Application of PWM Converters with
    Soft-Switching Cells

研 究 生:洪金泉    Student:   Jin-Chyuan Hung
指導教授:吳財福 博士    Advisor:   Tsai-Fu Wu, Ph. D.


國立中正大學工學院 電機工程研究所
    博士論文

A Dissertation Submitted to Institute of Electrical Engineering
 College of Engineering National Chung Cheng University
in Partial Fulfillment of the Requirements for the Degree of
Doctor of Philosophy  in Electrical Engineering
    January 2005
Chiayi, Taiwan, Republic of China

ABSTRACT
Due to their simplicity and low steady-state component stress, pulse width modulated
(PWM) converters are broadly used in various power-conversion applications. However, they
have some drawbacks, such as high stress and high loss at switching transition, which will
limit their operation at high frequency. Soft-switching methods are thus used to reduce the
stress and loss.
A family of soft-switching cells (SSCs) for non-isolated and isolated PWM converters is introduced. These cells are derived from the quasi-square-wave converters (QSWCs), in which zero-voltage switching is an inherent feature. A selected SSC and a hard-switching PWM converter are combined by the synthesis process achieving that the PWM converter maintains the power process while the SSC performs the active-clamp function. The PWM converter with the SSC, clamping action and soft-switching feature in both main and auxiliary switches can be achieved. In this dissertation, synthesis process is proposed to unify some of the published soft-switching PWM converters. Based on the proposed synthesis process, families of new converter topologies can be systematically generated.
By introducing SSCs to the conventional single-stage power factor corrector (PFCs), the soft-switching features can be achieved and the energy trapped in the leakage inductor can be also recovered. For reducing input current ripple, two interleaving methods are proposed. Additionally, input power factor and total harmonics distortion of the PFCs with SSCs can be further improved by using an asymmetrical PWM manner.
By introducing SSCs to the coupled-inductor converters and push-pull converters, the
soft-switching features can be achieved and the energy trapped in leakage inductor can be also
recovered. Experimental results have shown that surge voltage can be suppressed effectively.
With the coupled inductors, active switches in the converters can sustain proper duty cycles
while operated with high step-up and/or high step-down voltage ratio, reducing component
stress significantly. Thus, the conversion efficiency of the converters is improved significantly.
In the push-pull converter, SSCs are used to eliminate potential flux imbalance existing in the
conventional push-pull converter which makes the converter more viable. In addition, all of

the proposed converters can be regulated with an asymmetrical PWM control, reducing cost and complexity.
Finally, based on the operational principles, detailed analysis, design procedures,
implementations and discussions of soft-switching PWM converters are presented. The
measured results have verified the feasibility of the discussed soft-switching converters.
LINK
http://www.mediafire.com/view/?lhjl4hr44grhtnj

IMPLEMENTATION OF THREE-PHASE FED DC POWER SUPPLY SYSTEM WITH HIGH POWER FACTOR CHUNG YUAN CHRISTIAN UNIVERSITY


In this thesis, a high efficiency power supply system with high
power factor is proposed for high power applications. The studied power
supply system consists with a three-phase three-switch power factor
corrector (PFC) and a phase-shifted zero-voltage-transition full-bridge
DC/DC converter with current doubler rectification. High power factor
input can be achieved by the adopted PFC circuit with a simple
configuration. The phase-shifted operation of the full-bridge DC/DC
converter provides the zero-voltage-switching (ZVS) features for the
bridge switches to reduce the switching losses effectively. The current doubler rectification reduces significantly the secondary rectification losses. Therefore, high efficiency can be also accomplished. The detailed operating principle and design consideration of this power supply system are analyzed and described. A 1.1kW 55V/20A laboratory prototype was implemented  and  tested.  The  experimental  waveforms  verify  the feasibility of the proposed design. The implemented power supply system exhibits optimum performances such as high power factor, high efficiency, simple configuration and high reliability. 

LINK THESIS
http://www.mediafire.com/view/?sf7319xgbi4q0o9 


segunda-feira, 5 de novembro de 2012

Automatic Test System for Type Tests of the Uninterruptible Power Supply

 Aalto university school of electrical engineering HELSINKI FINLAND
 Abstract of the master's thesis
 Author: Esa Nummijoki Title: Automatic Test System for Type Tests of the Uninterruptible Power  Supply Date: 27.3.2012 Language: English
 Number of pages:10+59 Department of Electrical Engineering Professorship: Industrial Electronics Code: S-81
 Supervisor: Prof. Seppo J. Ovaska Instructor: M.Sc. (Tech.) Risto Karola
Testing is an essential part of product development. In UPS product development, di erent tests are made every day. Testing requires large variety of measurement instruments and other equipment such as large load systems and di erent kind of test con gurations. Signi cant number of performed tests are based on the UPS type tests de ned in the IEC-62040 standard. Testing consumes a lot of time and that way also resources. To solve this problem, an automatic test system for type tests is considered. The aim of this thesis was to clarify the need for the automatic test system, and clarify requirements needed to realize it. The work was done by reviewing the type tests and di erent parts of an automatic test system. In addition, an experimentation was made, resulting a prototype. The prototype is able to automatically perform an indicative e ciency test for the UPS. Furthermore, a possibility to automate the most complex type test, a dynamic output performance test, was examined. This examination resulted a description of the test process and LabVIEW programs, supporting the execution of the test. However, the conclusion was that it is not sensible to automate the test, due to the fact that it is not often performed and automating the test requires a lot of time and resources. The review and the experimentation proved that realization of an automatic test system, able to perform all the type tests, requires large amount of time and resources. Due to this, the automatic test system for type tests is not the best solution to reduce the time and resources consumed by testing.
LINK FULL THESIS
http://www.mediafire.com/view/?g4pagyhlpoeqwh5

Super Course in Physics for the IIT-JEE: Electricity and Magnetism By Trishna Knowledge Systems

domingo, 4 de novembro de 2012

Space Vector PWM Control for 3kW Brushless Motor Driver Design and Application for Novel Parallel Hybrid Electric Vehicles

ABSTRACT
In recent years, owing to the environmental protection concept has risen and
global warming, it is important to reduce the environmental pollution. If the merits
of both internal combustion engine and permanent magnet synchronous motor
(PMSM)  can be integrated to become a hybrid electric  vehicle, it must have
ultra-low pollution and energy-saving but still keeping high performance.
For this reason, the central purpose of this thesis is to develop a novel parallel
hybrid  electric  vehicle  system  driver  and  controller.  Electronic motor  control
systems used by extremely versatile digital signal processor (DSP). The important
space vector pulse-width-modulation (SVPWM) technology is applied to the PMSM
control to provide more efficiency of the hybrid electric vehicle. The SVPWM
technology is also guarantees the system to be stable with better performance.
Subsequently, by way of experiment results have proved the SVPWM technology
provides more and more performance of the PMSM and the SVPWM technology
have been applied in hybrid electric vehicle with high efficiency.
Finally, a prototype of the hybrid electric heavy-duty motorcycle has been
established  and  it  has  been  exhibit  on  the “Taipei  international  automobile
electronics show” at the Taipei world trade center in 2007.
LINK
http://www.mediafire.com/view/?49glo7f3rm3rzij

sexta-feira, 2 de novembro de 2012

Guia de carreiras: engenharia elétrica

FONTE ORIGINAL
http://g1.globo.com/educacao/guia-de-carreiras/noticia/2012/08/guia-de-carreiras-engenharia-eletrica.html

Muito se fala do aumento da demanda por engenheiros civis no Brasil, mas as grandes obras de infra-estrutura, impulsionadas pelo crescimento econômico e os grandes eventos esportivos mundiais que o país vai hospedar nos próximos anos, também têm aquecido o mercado de outras engenharias, entre elas a elétrica. "Quando você tem metrô expandindo, estádios de futebol, trens, aeroportos, você precisa ter um sistema de energia elétrica para
atender tudo isso", explicou Fábio Bergamini Tangerino, de 32 anos.

Formado em engenharia elétrica pela Universidade Federal de Itajubá (Unifei), Tangerino atualmente trabalha como supervisor de engenharia na Alstom Grid, em um projeto de energia hidrelétrica do Rio Madeira, na Região Norte do país.

Segundo ele, o engenheiro eletricista é o profissional responsável pela construção e manutenção de sistemas de geração, transmissão e distribuição de energia elétrica. Sua atuação acontece principamente em empresas e indústrias que fabricam ou usam equipamentos elétricos e sistemas de automação. Alguns exemplos incluem grandes construtoras, fabricantes de sistemas elétricos e aparelhos eletrônicos, além das empresas que prestam serviço de telecomunicações ou possuem linhas de montagem.

Atualmente há muita demanda por engenheiros que trabalham com subestações, linhas de transmissão e sistemas de automação e controle. "Não tem muitos profissionais qualificados no mercado e todas as empresas do setor encontram dificuldade para encontrar", diz Tangerino.


quinta-feira, 1 de novembro de 2012

AeroDesign SAE BRASIL - Making off

PROJETO SAE AERODESIGN O projeto SAE AeroDesign é um desafio lançado aos estudantes de Engenharia que tem como principal objetivo propiciar a difusão e o intercâmbio de técnicas e conhecimentos de Engenharia Aeronáutica entre estudantes e futuros profissionais da engenharia da mobilidade, através de aplicações práticas e da competição entre equipes. Ao participar do projeto SAE AeroDesign o aluno se envolve com um caso real de desenvolvimento de projeto aeronáutico, desde sua a concepção, projeto detalhado, construção e testes. No Brasil o projeto recebe o nome de Competição SAE BRASIL AeroDesign.

terça-feira, 23 de outubro de 2012

ELECTRICAL MACHINES


DR. Ali Mohamed Eltamaly Associate Professor, Electrical Engineering Department
Electrical Engineering Department, College of Engineering, King Saud University
e-mail: eltamaly@ksu.edu.sa
webpage:  faculty.ksu.edu.sa/eltamaly
EL DR.ALI MOHAMED ELTAMALY COMPARTE SU PRODUCCION CIENTIFICA EN SU WEBSITE http://faculty.ksu.edu.sa/eltamaly/Pages/Books.aspx
LINK BOOK
http://faculty.ksu.edu.sa/eltamaly/Documents/My publish books/macine book.pdf

Dr. Ali Mohamed Eltamaly Associate Professor, Electrical Engineering Department



Dr. Ali M. Eltamaly
Associate Professor
Ph.D., P.Eng, C.Eng., MIEEE
Office # 1-4676828 – Fax #1-4674254 – Mobile# 0553334130
e-mail: eltamaly@ksu.edu.sa
webpage:  faculty.ksu.edu.sa/eltamaly
 Nationality:     Egyptian
Current Address: Electrical Engineering Department, College of Engineering, King Saud University
P.O.Box 800, Riyadh 11421, Saudi Arabia

COMPARTOU COM TODOS VOCES ESTUDIOSOS DA ELETRONICA DE POTENCIA A PAGINA WEB DOS LIVROS DO DISTINGUIDO PROFESSOR ALI ELTAMALY
LINK WEBSITE
http://faculty.ksu.edu.sa/eltamaly/Pages/Books.aspx
Renewable Energy
Edited by T J Hammons
 Author of Chapter 9 is Dr. Ali M. Eltamaly
Publisher INTECHWEB.com
ISBN 978-953-7619-52-7, 580 pages,  
Publishing date: December 2009
 

LINK BOOK ENGINEERING MATHEMATICS
http://faculty.ksu.edu.sa/eltamaly/Documents/My publishd books/Math book.pdf

segunda-feira, 22 de outubro de 2012

domingo, 21 de outubro de 2012

GRANDE MESTRE PERUANO JULIO GRANDA VENCE NA ULTIMA RODADA E VENCE O CONTINENTAL DAS AMERICAS EM MAR DEL PLATA ARGENTINA HOJE 21 DE OUTUBRO

SOURCE:http://www.tabuleirosocial.org/t1623p15-siga-continental-das-americas-as-16h


Continental das Américas 2012

Mar del Plata - Argentina- 12 a 21 de Outubro de 2012

Local dos Jogos: Complejo Hotel Provincial-Casino-Salón Teatro Auditorio
Av Peralta Ramos - Mar del Plata-Provincia de Buenos Aires-(Argentina)
Sistema de Jogo: Suiço em 11(onze)rodadas.
Ritmo de Jogo: 90 minutos pros 40 primeiros lances, mais 30 minutos por jogador para toda a
partida, com o acréscimo de 30 segundos desde o primeiro lance.
Participantes: Torneo Aberto (sem requerimento mínimo de Elo)
Todo participante deverá representar a uma Federaçao do Continente Americano, inscrita na F.I.D.E.
Sistema de Desempate:
1. Confronto direto (se aplicar)
2. Miléssimos Top
3. Sonnenborg Berger
4. Milésimos Medianos
5. Sorteio.

Direitos:
Os quatro (4) primeiros classificam a fase “Copa Mundial FIDE”, do ciclo do Campeonato do Mundo.

Em caso de empate de um ou mais lugares classificatórios, será definido da seguinte maneira:

-Empate entre dois(2) jogadores: duas(2) partidas de 15 minutos por jogador, com acréscimo de 10
segundos desde o lance um. Caso persista o empate serão jogadas outras duas (2) partidas de 5 minutos
com acréscimo de 3 segundos,se ainda persistir o empate, se jogará uma partida, onde as brancas jogarão
com cinco(5) minutos e as pretas com quatro (4) minutos, mais o acréscimo de 3 segundos para cada
lance, o jogador que ganhar o sorteio, escolherá a cor, em caso de empate, será declarado vencedor o
jogador que conduzir as peças pretas.
-Empate de 3 ou mais jogadores: Round Robin com 15 minutos por jogador, mais dez(10) segundos por
lance desde o início, caso persista o empate, será aplicado o desempate do Torneio Continental Absoluto.

http://www.tabuleirosocial.org/t1623-siga-continental-das-americas-as-16h#8189

EcoCAR 2 Vehicle Architectures

NOTES BOOST CONVERTER PROF. MARC HERNITER Rose-Hulman Institute of Technology


Professor at Rose-Hulman Institute of Technology
 Terre Haute, Indiana Area  Automotive
Previous    
    Connect Tech International / Fire Wind and Rain Technologies
    , Northern Arizona University
    , Coffelt Manufacturing
Education    
  Ph.D., Electrical Engineering at University of Michigan
LINK NOTES BOOST CONVERTER
  http://www.mediafire.com/file/tumphwgy69ifjek/ECE556_NotesBOOST.pdf

quinta-feira, 18 de outubro de 2012

Status of PV R&D Program in Korea Korea Institute of Energy Technology Evaluation and Planning

Status of PV R&D Program in Korea
Korea Institute of Energy Technology Evaluation and Planning
LINK FULL PAPER
http://www.mediafire.com/view/?h0cmgck1i7ohoid

Power Converters for Fuel Cell Applications Prof. Byoung-Kuk Lee, Ph.D. Sungkyunkwan University KOREA DO SUL

Name Byoung-Kuk Lee
Energy Mechatronics Lab. School of Information and Communication Eng.
 Sungkyunkwan University
 Position Division Assistant Professor, New Renewable Energy Office Tel +82-31-290-4581
E-mail bkleeskku@skku.edu Education -Ph.D. in Electrical Eng, Texas A&M University, USA (2001) Experiences -Associate Editor, IEEE Industrial Electronics Society -Senior Member, IEEE -Professional Committee, IEEE IAS -JEET Editor, KIEE -Korea Electrotechnology Research Institute, Korea Senior Researche
LINK FULL PAPER
http://www.mediafire.com/view/?4s4orrg6glntrjj

quarta-feira, 17 de outubro de 2012

Brasil, capital mundial da ciência - Conexão Roberto D'Avila


O Brasil tem se destacado no cenário mundial da ciência por ser um centro de excelência na produção de cientistas criativos. Dois deles marcaram presença no programa Conexão Roberto D Avila no ano passado: o matemático Jacob Palis e o mestre na ciência da computação Silvio Meira. Em conversa exclusiva com o jornalista Roberto D Avila, os dois falam de suas vidas e de seus campos específicos de atuação, de suas teorias. O professor Palis comenta seus estudos sobre previsibilidade, recebidos com grande entusiasmo pela comunidade científica internacional e que vai permitir, por exemplo, prever grandes catástrofes. Já o professor Silvio Meira fala do futuro do homem convivendo com os computadores, o que vai permitir, entre outras coisas, uma maior inserção das pessoas com necessidades especiais.