Mississippi State University EcoCAR Extended Range Electric Vehicle Thermal System Design, Integration, Optimization, and Validation

Barr, Michael Lynn

13 December 2014

A continued increase in government regulations for fuel economy and emissions has driven automakers and suppliers to take a large interest in hybridizing vehicles to help them achieve the new requirements. This increased vehicle electrification has resulted in unconventional vehicle cooling requirements. Electrified vehicle batteries and motors operate under different temperature regimes and cooling loads change drastically with driving styles and conditions. A variable-load cooling system was designed, implemented and tested on the Mississippi State University EcoCAR extended-range electric vehicle (E-REV). This system, utilizing variable flow pumps and variable speed fans, was shown to successfully cool the electronic components under the worst-case design conditions, while providing low energy consumption under normal conditions. When compared to a baseline system utilizing no variable duty cycle components, the variable cooling power system reduced energy consumption during testing both on-road at MSU’s facility and on-road at General Motors proving grounds in Michigan.

coolant

electric pump

electric fan

all-electric

hybrid

Reduction of oil pump losses in automatic transmissions

Larsson, Camilla

January 2014

In the vehicle industry it is of great interest to reduce the emissions and lower the fuel consumption.Up to now a lot of effort has been put into increasing the efficiency of the engine,but it starts to get expensive to keep improving the engine. In this master thesis the transmissionand especially the oil supply to the transmission is investigated. An example of how the requirements of an oil pump can be decided is described. Knowingthe requirements different pumps may be adapted to meet the demands. The gear pumpused today is compared with a variable displacement pump and an electric pump. The gearpump is not possible to control, but the other two are. A few simple control strategies areintroduced. The strategies are implemented and the three pumps are used in the same drivecycle. It is shown that it is possible to reduce the energy that the pump requires if it isreplaced by a variable vane pump or an electric pump.

oil pump

vane pump

gear pump

electric pump

variable displacement

automatic transmission

pump

oil

control

Preliminary Design of a 30 kN Methane-Oxygen-powered Electric-Pump-fed Liquid Rocket Propulsion System

Das, Vikramjeet

January 2023

The design of a liquid rocket propulsion system, unlike that of a standalone system, is intertwined with the overall development of a number of associated systems and is influenced by a multitude of conditions and considerations: from the requirements needed to accomplish the mission to the rationalizations involved behind the development of each rocket system and/or component. In my thesis, the preliminary design of a “new generation” 30 kN rocket engine driven by an electric pump feed system and running on liquid methane and liquid oxygen is performed. The propulsion system would be employed on a hypothetical small-lift orbital-class twin-stage rocket to deliver a light payload of about 200 kg into a circular 500 km LEO. Such topics as the selection of bipropellant combinations, the feasibility of electric pump feed systems, design methodologies for thrust chambers, for nozzles in particular, management of the high thermal energy and the selection of compatible wall materials, as well as the design of an injector have been looked comprehensively into. It is realized that methalox is indeed better than both hydrolox (with regard to density impulse) and kerolox (in terms of specific impulse). Besides, a suite of attractive characteristics makes the bipropellant a combination of choice to power rockets of the future. Yet more notably, an electric-pump-fed engine cycle is, under the right circumstances of engine operation, established to outperform both the pressure feed system and the turbopump feed system. With constant advancement in battery technologies, improvement of both power density and energy density to achieve much higher performance is but a matter of time. The adoption of a propulsion system such as ours for a mission objective as outlined above, therefore, is not just viable but unquestionably realistic. Two thrust chamber versions—a sea-level variant for the booster stage and a vacuum-optimized variant for the upper stage—are developed for our rocket. And both the nozzles employ a TOP “thrust optimised parabolic” contour; also, the booster stage comprises a cluster of 9 engines in a parallel burn arrangement. Concerning thermal management, the entirety of the booster-stage thrust chamber implements regenerative cooling (using Inconel 625), whereas the aft of the upper-stage nozzle section implements radiative cooling (with Niobium C-103). Further, the injector faceplate (also of Inconel 625) comprises two concentric patterns of unlike impingement doublet sets: with 80 pairs on the outer ring and 40 pairs on the inner ring. With rational assumptions, our hypothetical launch vehicle is deemed to have a mass of roughly 17200 kg (200 kg of which is the payload) and a delta-v of approximately 9600 m/s—quite within the desirable range of specifications for small-lift orbital-class twin-stage rockets of today.

rocket engine

liquid rocket

methalox

electropump

LRPS

LPRE

liquid methane

electric pump feed system

Aerospace Engineering

Rymd- och flygteknik

Konstruktionsåtgärd för lutande bränsletank / Konstruktions åtgärder för bränsleexportering vid lutning av bränsletank

Elmashaad, Farook, Abdulmageed, Ammar

January 2019

Bränsle är en viktig substans för fordon och utan bränsle så är de flesta fordon inte funktionella. I de allra flesta instruktionsböcker för fordon så rekommenderas det att bränslet inte får nå en kritisk låg nivå av bränsle. Då man talar om den kritiska bränslenivån så handlar det om ¼ kvarliggande bränsle. Då bränslet når den kritiska nivån i bränsletanken så kan problem ske och dessa problem är direkt kopplade till bränsletanken och pumpen.     Syftet med denna kandidat examensarbete är att undersöka problemet och det befintliga bränslesystemets konstruktion för att sedan generera en eller fler lösningar till problemet. Då information för detta arbete är begränsad över nätverket så skedde en del intervjuer med verkstan och fordons företag och fabriker såsom Volvo och Scania för att få en bra mängd information som sedan användes som utgångspunkt till arbetet.   För att generera lösningar till problemet med informationen som erhållits av intervjuer och andra källor så användes vissa verktyg och metoder. Då arbetet var begränsad att utföra praktiskt så utfördes den teoretiskt med hjälp av kunskaper från materiallära, hållfasthetsberäkningar, simulations program såsom AutoCAD, NASTRAN, fysik och en mängd andra ingenjörs baserat litteratur för att åstadkomma goda resultat.   Resultat blev en enkel konstruktion som är anpassat för tillverkningen av bränsletankar och som både funkar för cylindriska och rektangulära bränsletankar.   I denna rapport så presenteras resultatet i form av några förslags modeller av ett koncept som anses vara en lämplig lösning för problemet och resultat utfört med konceptet som då visar att konceptet uppfyller en fungerande lösning för det presenterade problemet. Storlek för konstruktionen presenteras i en form av enkla beräknings steg där man utgår ifrån bränsletanks modellen man vill tillämpa konceptet i. / The fuel is an important substance for vehicles and without fuel the most vehicles are not functional. In other words, they cannot move. In all instruction manuals, it is recommended that the fuel should not attain a low level in the fuel tank itself because it could lead to many consequences and these consequences are directly linked to the fuel pump and the engine itself.   The purpose of this bachelor's thesis is to investigate the issues and the existing fuel system design, then generate concepts to solve the problem. The information about the problem is limited on the world wide web, therefore we have been in contact with various truck workshops, vehicle companies and been visiting some of them. Volvo and Scania were at the top of the list. The reason was to get good and reliable information about the fuel tanks and then use it as a starting point.   Using information from interviews and sources helped very much to generate different concepts and solutions to the problem. Also, some tools and methods were very useful to build, chose and evolve the concepts. Note that some work was not performed practically because of limitations, therefore it was theoretically done with help of knowledge from different courses like materials theory, strength of materials calculations, physics, simulation programs like AutoCAD, NASTRAN and other engineering literature to achieve good results.   The result was a simple design adapted for the production of fuel tanks for the manufacture of fuel tanks, which works for both cylindrical and rectangular fuel tanks. In this report, the results are presented in the form of some proposal models and results performed with the concept, which then shows that the concept satisfies a solution to the presented problem. / <p><strong>Presentationerna genomfördes på distans med zoom</strong></p>

Semi-Trucks

fuel

fuel tanks

fuel pump

fuel tank

mechanical pump

electric pump

Volvo

Scania

fuel flow optimization

Lastbilar

lastbilstank

bränsle

bränsletank

bränslepump

mekanisk pump

elektrisk pump

Volvo

Scania

bränsle flödesoptimering

Engineering and Technology

Teknik och teknologier

Mechanical Engineering

Maskinteknik