Temat: electric drive vehicles - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Technological and organisational challenges for e-mobility
Autorzy:: Stańczyk, Tomasz Lech
Hyb, Lech
Powiązania:: https://bibliotekanauki.pl/articles/1363315.pdf
Data publikacji:: 2019
Wydawca:: Sieć Badawcza Łukasiewicz. Przemysłowy Instytut Motoryzacji
Tematy:: electric vehicles
hybrid vehicles
e-mobility
electric drive
Opis:: With the rapid growth of schemes and initiatives to promote e-mobility and numerous measures taken to ensure its quick and effective implementation, there is a wide range of technological and non-technological problems, especially organisational, economic, legal and social in nature, that have to be handled by national and local governments all over the world. This article addresses some of the technological and organisational challenges for electromobility. The key technology-related issues to be coped with are the need for longer ranges of electric vehicles (EVs), shorter charging times and smart power grids (because of a higher demand for electrical energy). Another important problem to be solved urgently is the high battery weight, affecting the vehicle dynamics. Because of the excessive weight of the battery pack, there is a risk of its displacement during a crash, which may jeopardize the safety on the road. The next big concern, also associated with safety, is protection against electrical and fire hazards in the event of a collision. The most important of all the organisational challenges related to EVs is the necessity to create networks of charging stations. Their insufficient number and unsatisfactory distribution are strong barriers hampering the development of e-mobility. The organisational measures also include privileges such as access to bus lanes, already offered in some countries. Finally, there is the need to urgently train a large number of electricians to test and maintain EVs, the need to create a recycling system for used EV batteries, and the need to deal with the organisational aspects of the development of smart power grids.
Źródło:: Archiwum Motoryzacji; 2019, 84, 2; 57-70
1234-754X
2084-476X
Pojawia się w:: Archiwum Motoryzacji
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Modern combustion-electric PowerPack drive system design solutions for a hybrid two-unit rail vehicle
Autorzy:: Far, Mariusz
Gallas, Dawid
Urbański, Patryk
Woch, Aleksandra
Mieżowiec, Kuba
Powiązania:: https://bibliotekanauki.pl/articles/2097664.pdf
Data publikacji:: 2022
Wydawca:: Polskie Towarzystwo Naukowe Silników Spalinowych
Tematy:: rail vehicles
combustion-electric drive
PowerPack
hybrid drive
dual-drive railbus
pojazdy szynowe
napęd spalinowo-elektryczny
napęd hybrydowy
dwunapędowy autobus szynowy
Opis:: The article presents an innovative solution of a two-unit rail vehicle system for passanger transport with a dual-drive, diesel engine and electric motor. The vehicle was designed as a combination of two units, one dedicated to each of the two drive systems, where one unit provides electric drive while the other a combustion engine. The selection of engine and drive components was presented along with the aftertreatment systems used in the design. The provided solution was created in response to the dynamic needs of rail vehicle operators in the European Union who aim to reduce exhaust emissions without compomising the reach of the existing rail networks.
Źródło:: Combustion Engines; 2022, 61, 3; 80--87
2300-9896
2658-1442
Pojawia się w:: Combustion Engines
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Researches on power transmission systems of traction vehicles with a hybrid drive
Autorzy:: Kozłowski, M.
Plich, M.
Powiązania:: https://bibliotekanauki.pl/articles/244193.pdf
Data publikacji:: 2008
Wydawca:: Instytut Techniczny Wojsk Lotniczych
Tematy:: transport
hybrid drive vehicles
unconventional power supply sources
electric machines
energy accumulators -super capacitors
Opis:: The structures of modern traction vehicles are based on new generation devices. Technical progress within the field of power transmission concerns such elements as sources of power supply, electric devices and energy electronic solutions in power transmission systems. The prototypes of traction vehicles being currently drawn up are hybrid vehicles using different kinds of sources of power supply ofpower transmission systems, the most important of which are combustion engines, contact systems, supercapacitors (ultracapacitors), accumulators and fuel cells. Main engines are usually electric machines. In energy electronic starting systems it is permissible to use all kinds of main electric engines, for example, direct-current motors (inline engines, commutator motors with permanent magnets or non-commutator motors) or three-phase motors of alternating current (induction and synchronous). This means a complete change of rules in energy managing in a vehicle. Sources of energy can have the function of basic power supply (contact system, combustion engine or combustion cell) or the function of power supply support (supercapacitors, accumulators or fuel cell). New functions of drive operation will be available, namely, leveling of basic power supply load, recuperation of braking energy of the whole train set, driving at the temporary disconnection of basic power supply (short-term application of accumulator as basic power supply). Each of the above functions can contribute to the improvement of watt-hour efficiency of the system or to prolonging the range of driving. Therefore, it is necessary to undertake research on new generation power transmission systems. Research tasks focus on measurement of state variables of a drive, analyses of traction signals, modeling of drive operation in the conditions of driving cycle realization, verification of a model, drawing up a strategy of energy management in order to achieve the best watt-hour efficiency and the range of driving. In the article presented, sample results of researches on applications of hybrid power transmission systems conducted in various national research centers will be demonstrated. They concern both theoretical research (model simulation) and prototype research. The conception will be presented of a laboratory station for conducting research on modern sources of power supply and drives, which is currently being built at the Faculty of Transport of Warsaw Polytechnic at the Division of Exploitation of Tracking Systems and Electric Equipment in Transport.
Źródło:: Journal of KONES; 2008, 15, 2; 233-238
1231-4005
2354-0133
Pojawia się w:: Journal of KONES
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: Study of the two-rotor electric motor of a drive of vehicle drive wheels
Autorzy:: Sergienko, Nikolay
Kuznetsov, Valeriy
Liubarskyi, Borys
Pastushchina, Mariia
Gołębiowski, Piotr
Tkaczyk, Sławomir
Powiązania:: https://bibliotekanauki.pl/articles/2067404.pdf
Data publikacji:: 2021
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: two-rotor electric motor
torque
revolution
slip
drive
drive wheel
electric vehicle
hybrid vehicles
silnik elektryczny dwuwirnikowy
moment obrotowy
obrót
poślizg
napęd
pojazd elektryczny
pojazd hybrydowy
Opis:: In recent years, electric and hybrid vehicles have taken more and more attention due to their apparent advantages in saving fuel resources and reducing harmful emissions into the environment. Even though electric vehicles can solve the ecological problem, their operation is faced with a number of inconveniences associated with a limited driving distance from a single charge due to limited storage of energy from an independent power source and a lack of the required service and repair infrastructure. In hybrid and electric vehicles one of the main parameters is the curb weight, which affects energy consumption, vehicle speed, stability, controllability and maneuverability. In this regard, leading car manufacturers use parts with a low specific weight (non-metallic, aluminum alloys, etc.) in the design and also exclude some units from the design. Due to these technical solutions, the vehicle's operating is improved. One of the groups of parameters to be defined when designing a new electric vehicle is the parameters relating to the electric motor. The purpose of the article is determination of the mechanical characteristics of a two-rotor electric motor during magnetic flux control and assessment of the possibility of organizing the drive of the drive wheels of the vehicle. The electric motor has two mechanically independent outputs. For the study, an electrical equivalent diagram has been developed for the given two-rotor electric motor. A simulation model of the equivalent diagram has been built. Simulating the interaction processes of the rotors with the stator made it possible to obtain data for building the mechanical characteristics for each output of the electric motor. Analysis and processing of the mechanical characteristics data of the electric motors showed the conformity and the range of changes in the torque on each of the rotors when changing their slip and revolution, which are required when building algorithms for the operation of electric motor control systems as part of drives for various purposes. Analysis of the simulation results made it possible to assess the possibility of using the considered two-rotor electric motor for the drive of drive wheels in an electric and hybrid wheeled vehicle.
Źródło:: Archives of Transport; 2021, 60, 4; 245--257
0866-9546
2300-8830
Pojawia się w:: Archives of Transport
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 5.

Tytuł:: The development of combustion engines for hybrid drive systems
Rozwój silników spalinowych napędów hybrydowych
Autorzy:: Pielecha, I.
Cieślik, W.
Borowski, P.
Czajka, J.
Bueschke, W.
Powiązania:: https://bibliotekanauki.pl/articles/133725.pdf
Data publikacji:: 2014
Wydawca:: Polskie Towarzystwo Naukowe Silników Spalinowych
Tematy:: hybrid drive system
hybridization of vehicles
combustion engine
electric motor
napędy hybrydowe
hybrydyzacja pojazdów
silnik spalinowy
silnik elektryczny
Opis:: Continuous increased interest in hybrid drive systems enabling the reduction of fuel consumption and emissions of harmful substances into the atmosphere, as well as their use partly as zero-emission drive in vehicles provides the basis for the development of these types of drive systems. Such trend is indicated by sales analysis of hybrid drives, and this means that actions taken towards of reduction of fuel consumption are still justified. The article reviews combustion engines for hybrid drive systems as far as determination of their operating conditions, indicating mean effective pressure and power/displacement ratio are considered. The concept of hybridization was defined as a measure of the degree of utilization of vehicle electric drive systems (or its drive support). The analysis was conducted on the basis of vehicles equipped with different hybrid drive systems with combustion engines with spark ignition and compression ignition. The hybridization indexes for different groups of hybrid drive systems were determined and significant discrepancies in the way of their determination were pointed out.
Ciągły wzrost zainteresowania napędami hybrydowymi pozwalającymi na ograniczenie zużycia paliwa, zmniejszenie emisji składników szkodliwych do atmosfery, a także częściowe ich wykorzystanie jako pojazdów zeroemisyjnych powoduje rozwój tych jednostek. Wskazują na to analizy sprzedaży napędów hybrydowych, a to oznacza aktualność działań podejmowanych w kierunku ograniczenia zużycia paliwa. W artykule dokonano przeglądu silników spalinowych napędów hybrydowych w aspekcie określenia ich warunków pracy oraz wskaźników wysilenia. Określono pojęcie hybrydyzacji jako miary stopnia wykorzystania układów elektrycznych napędu pojazdu (lub jego wspomagania). Analizy dokonano w odniesieniu do pojazdów wyposażonych w różne systemy napędu hybrydowego z silnikami spalinowymi o zapłonie iskrowym i samoczynnym. Określono wskaźniki hybrydyzacji różnych grup napędów hybrydowych oraz wskazano na znaczne rozbieżności w sposobie ich określania.
Źródło:: Combustion Engines; 2014, 53, 3; 23-35
2300-9896
2658-1442
Pojawia się w:: Combustion Engines
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 6.

Tytuł:: Simulation analysis of electric vehicles energy consumption in driving tests
Symulacyjna analiza energochłonności pojazdów elektrycznych w testach badawczych
Autorzy:: Pielecha, Ireneusz
Pielecha, Jacek
Powiązania:: https://bibliotekanauki.pl/articles/300650.pdf
Data publikacji:: 2020
Wydawca:: Polska Akademia Nauk. Polskie Naukowo-Techniczne Towarzystwo Eksploatacyjne PAN
Tematy:: automotive vehicles
electric drive
high voltage batteries
energy flow
driving tests
pojazdy samochodowe
napęd elektryczny
akumulator wysokonapięciowy
przepływ energii
testy jezdne
Opis:: The assessment of energy flow through electric vehicle systems makes estimating their energy consumption possible. The article presents analyzes of the energy consumption of electric vehicles in selected driving tests (NEDC, WLTC and in real traffic conditions – RDC test) in relation to the vehicles different curb weight. The use of electric motors was also analyzed, providing their operating ranges, data of the energy flow in batteries and the change in their charge level. Simulation tests and analyzes were carried out using the AVL Cruise software. It was found that despite similar vehicle energy consumption values in NEDC and RDC testing, there are significant differences in energy flow in vehicle subsystems. The changes in the battery charge level per 100 km of test drive are similar in both the WLTC and RDC tests (6% difference); for the NEDC test, this difference is the greatest at 25% (compared to the previous tests). The energy consumption of electric vehicles depends significantly on the test itself; the values obtained in the tests are in the ranges of 10.1–13.5 kWh/100 km (NEDC test); 13–15 kWh/100 km (WLTC test) and 12.5–16.2 kWh/100 km in the RDC test. The energy consumption values in the NEDC and WLTC tests, compared to the RDC test, are approximately 20% and 10% lower, respectively. Increasing the vehicle mass increases the energy consumption (increasing the vehicle mass by 100 kg was found to increase the energy consumption by 0.34 kWh/100 km).
Ocena przepływu energii przez układy pojazdów elektrycznych umożliwia oszacowanie ich energochłonności. W artykule przedstawiono analizy dotyczące zużycia energii pojazdów elektrycznych w wybranych testach jezdnych (NEDC, WLTC oraz w rzeczywistych warunkach ruchu – test RDC) w odniesieniu do zróżnicowanej masy pojazdów. Analizie poddano również wykorzystanie silników elektrycznych, przedstawiając mapy ich pracy, wielkości przepływu energii w akumulatorach oraz stopień zmiany ich naładowania. Badania i analizy symulacyjne wykonano z wykorzystaniem oprogramowania AVL Cruise. Stwierdzono, że mimo podobnych wartości energochłonności pojazdów w testach badawczych NEDC oraz RDC, to występują znaczące różnice przepływu energii w układach akumulacji pojazdów. Zmiany stopnia naładowania akumulatora odniesione do 100 km testu są zbliżone w testach WLTC oraz RDC (różnica 6%); dla testu NEDC różnica ta wynosi maksymalnie 25% (w odniesieniu do poprzednich testów). Energochłonność pojazdów elektrycznych jest silnie zależne od testu badawczego; wartości uzyskane w testach kształtują się na poziomie 10,1–13,5 kWh/100 km (test NEDC); 13–15 kWh/100 km (test WLTC) oraz 12,5–16,2 kWh/100 km w teście RDC. Wartości energochłonności w testach NEDC oraz WLTC są odpowiednio mniejsze o około 20% i 10% w odniesieniu do testu RDC. Zwiększenie masy pojazdu zwiększa zużycie energii (zwiększenie o 100 kg masy pojazdu zwiększa zużycie energii o 0,34 kWh/100 km).
Źródło:: Eksploatacja i Niezawodność; 2020, 22, 1; 130-137
1507-2711
Pojawia się w:: Eksploatacja i Niezawodność
Dostawca treści:: Biblioteka Nauki

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