Advancing vehicle fuel efficiency Dan Schuessler Baton Rouge Chemical Plant Manager April 22, 2009 LSU 2009 Conference on Alternative Energy Issues.

Slides:



Advertisements
Similar presentations
Research General-Directorate Sustainable Energy Systems NATIONAL CONTACT POINTS SEMINAR Brussels, October 16 NATIONAL CONTACT POINTS SEMINAR Brussels,
Advertisements

Tips for the Instructor:
OHIO ENERGY POLICY PROGRESS & REVIEW UCEAO 6 th Annual Conference Securing Ohio’s Energy and Economic Future THE BEST OF TIMES, THE WORST OF TIMES: ADVANCED.
ALTERNATIVE FUEL.
Key Factors in the Introduction of Hydrogen as the Sustainable Fuel of the Future John P Blakeley, Research Fellow Jonathan D Leaver, Chairman Centre for.
SINTEF Energy Research Power cycles with CO 2 capture – combining solide oxide fuel cells and gas turbines Dr. ing. Ola Maurstad.
TRADITIONAL ENERGY SOURSES Energy Efficiency & Energy Demand.
ALTERNATIVE FUELS AND THEIR APPLICATION IN URBAN TRANSPORT (PART 1) Eddy Versonnen KdG University College Antwerp.
They’re GRRRRRRREAT! Tiffany Greider Jeff Woods Alaina Pomeroy Shannon Payton Robert Jones Katherine Costello.
1 Geosciences Research Initiative All technologies envisioned to meet future energy and environmental demands require advances in fundamental.
Beyond Gasoline: Concept Cars. Plug-In Hybrid (PHEV)
How can we reduce our oil consumption ? Drive less and transport fewer goods less far design more energy efficient vehicle switch to non-fossil fuel based.
ENGR 101/HUM 200: Technology and Society October 25, 2005.
CHP & Fuel Cells at Home. Combined Heat and Power (CHP) aka “Cogeneration”
Alternative fuels for the cars of Today and Tomorrow By Christian Warton-Eyers.
Hydrogen Fuel Cells Maddie Droher. What is a fuel cell? An energy conversion device set to replace combustion engines and additional batteries in a number.
FEASIBILITY OF HOME HYDROGEN REFUELING (HHR) SYSTEM FOR ADVANCED PLUG-IN HYDROGEN VEHICLE APPLICATIONS Michael Pien, Steven A. Lis, and Radha Jalan ElectroChem,
Aims and Objectives Aim To be able to describe the operation of a vehicles hybrid system Objectives To recognize the need for alternative fuels To be able.
Transportation 1. Learning Objectives Understand that gasoline combustion moves the vehicle as well as emit greenhouse gases. Understand that carbon emissions.
Ensuring the “Chemistry” in Europe’s Regions is Ripe for Innovation? Russel Mills Dow Europe & SusChem Fostering Competitiveness through Innovation.Brussels.
Renewable Energies for Transportation, Electricity and Energy Storage Technologies (Round Table 3) U.S. Policies and Programs John P. Millhone Representing.
The Energy Construct Ben Cipiti May 1, 2008 Mid-Town Brews.
Section 2: Developing Energy Technologies
Bellringer. Alternative Energy -To achieve a future where energy use is sustainable, we must make the most of the energy sources we already have and develop.
Is Lithium the New Oil? The Future of Electric Cars John Hiam. Hatch.
CLEAN CARS! By: Jaime Gonzalez. What kind of cars do your parents have?
Renewable Energy Resources
Energy and Economy Transition California’s energy system to a highly efficient, renewables-based system and electrify transportation.
Financial Executives Institute Greenhouse Gas Emissions and Canadian Environmental Policy This presentation includes forward-looking statements. Actual.
Hybrid Energy Solutions Ltd. Executive Summary Hybrid Energy provides renewable energy based hybrid power generation technologies for the Telecommunications.
24 Jan What is Energy Policy?ECONOMICS ENVIRONMENT ENERGY SECURITY.
Renewable EnergySection 2 Bellringer. Renewable EnergySection 2 Alternative Energy To achieve a future where energy use is sustainable, we must make the.
TECHNICAL SEMINAR ON HYBRID ELECTRIC VEHICLES PRESENTED BY:Sanjib ku.Dey Adm no:27I&E/2K.
1 PRESENTEDBY :- vinod rawat Me(b)  INTRODUCTION  HISTORY OF ENERGY  REQUIREMENT OF ENERGY STORAGE  DIFFERENT TYPES OF ENERGY STORAGE.
Creating sustainable mobility Piet Steel Toyota Motor Europe
Renewable EnergySection 2 Alternative Energy To achieve a future where energy use is sustainable, we must make the most of the energy sources we already.
AED 101: Introduction to Advanced Electric Drive Vehicles Transitioning Americans to widespread use of advanced electric drive vehicles for personal transportation.
ICTs and climate change mitigation in the context of emerging economies Presentation at ICTD 2010 Session 1206 “ICTs, Climate Change and Development” London,
European Commission, Directorate General for Mobility and Transport Slide 1 Future Mobility in Europe l Challenges l EU transport policy l Alternative.
1 Future Powertrains Global Opportunities & Challenges Sue Cischke Vice President of Environmental & Safety Engineering January 14, 2004.
Low carbon scenarios for the UK Energy White Paper Peter G Taylor Presented at “Energy, greenhouse gas emissions and climate change scenarios” June.
API Climate Challenge Program Bob Greco, API Natural Gas STAR Workshop June 19, 2003.
Hybrid Vehicles JT Ahle. What is a Hybrid Vehicle? A hybrid is a vehicle that uses two or more different energy sources Generally, hybrid cars contain.
1 ISEE Wants You! UofC Faculty of Engineering Planning Workshop May 9 & 10, 2005 Eddy Isaacs Managing Director, AERI and Interim CEO of EnergyINet Government.
Wind & Transmission: The Clean Energy Superhighway Mark Lauby Manager, Reliability Assessments, NERC.
Renewable EnergySection 2 Section 2: Alternative Energy and Conservation Preview Bellringer Objectives Alternative Energy Tidal Power Ocean Thermal Energy.
Exxon Mobil Work Profiles – An overview For Promethean Consultants By Nandkumar Nair.
Anais Corrales Calah Gowdy Ashley Lokey.  A hydrogen fuel cell is the source of power for hydrogen renewable energy.  The fuel cell stores it until.
CO 2 Capture and Geological Storage Demonstration at In Salah, Algeria Iain Wright (CO2 Project Manager, BP Group Technology) UNCTAD Africa Oil & Gas Conference.
A Presentation by Mattie Kennedy.  Japan is only 16% energy self-sufficient  Japan has the 3 rd largest nuclear production  Japan is the largest.
1 Goals and Targets to Direct FY2010 Budget and Stimulus.
Energy and Nanotechnologies Greg Tegart Victoria University Third International Seville Conference on Future-Oriented Technology Analysis (FTA): Impacts.
Carbon Abatement Technologies – A new Strategy Brian Morris Head Cleaner Fossil Fuel Technologies Unit.
By Shalnev Dmitry Class 9 A Pervomaisk Secondary School Tambov Region 2014.
New York City Transit Innovation and Technology Partnering Opportunities Open Innovation : Needs and Opportunities.
Hydrogen Fuel And its place in our future. Some Chemistry 2 H 2 + O 2 2 H 2 O kJ.
Risoe National Laboratory Slide no. 1 International Hydrogen Day Berlin, February 24 th 2005 Sustainable Mobility and Hydrogen Hans Larsen, Head of Department.
“Efficient Distributed Energy Begins Here” Distributed Power Solution Based on Advanced High Temperature PEM (HT PEM+) Fuel Cell Technology Mohammad Enayetullah.
This presentation includes forward-looking statements. Actual future conditions (including economic conditions, energy demand, and energy supply) could.
 To achieve a future where energy use is sustainable, we must make the most of the energy sources we already have and develop new sources of energy. 
International Association of Oil and Gas Producers Europe’s Indigenous Oil and Gas Production GSE Workshop Brussels – 24th May 2007.
Hybrid Electric Vehicles
natural Gas Beyond Transition Fuel
Objectives Describe three alternative energy technologies.
18-2 Developing Energy Technologies Objectives
Section 2: Alternative Energy and Conservation
Prof. Dr. Claudia Kemfert Deutsches Institut für Wirtschaftsforschung
Trends and Perspectives of the Global Gas Industry
Prof. Dr. Claudia Kemfert Deutsches Institut für Wirtschaftsforschung
GLOBAL EFFECTS.
Presentation transcript:

Advancing vehicle fuel efficiency Dan Schuessler Baton Rouge Chemical Plant Manager April 22, 2009 LSU 2009 Conference on Alternative Energy Issues

2 You might be wondering … Employing 14,000 scientists and engineers around the world, technology is fundamental to solving the challenges of our day To the tune of $1 billion per year, we consistently invest in innovation We drive research efforts in both breakthrough concepts and evolutionary improvements that enhance performance across our business We seek to maximize the contributions we make to economic growth, environmental protection and social well-being over the long run

3 Our latest technology ExxonMobil has developed new film technologies for lithium-ion batteries with the potential to improve the energy efficiency and affordability of next generation hybrid and electric vehicles.

4 Separators are critical to battery performance ExxonMobil has improved the thermal performance (safety) of one of the battery’s most vital components -- the separator.

5 A closer look at ExxonMobil’s battery separator film Special Features: Uniform Highly porous Flexible Excellent strength Long life Tailored transitions 1m1m AFM

6 Helping power next generation hybrid and electric vehicles Safety margins Capacity Increased power Design flexibility Quality consistency Durability

7 Helping power next generation hybrid and electric vehicles Smaller and lighter-weight batteries Increased fuel efficiency of hybrids Improved car design flexibility

8 other ExxonMobil technologies already on the road Tire innerliners Advanced fuels and engine technologies, such as Homogeneous Charge Compression Ignition and on-board hydrogen reformer And more on the way… High-performance plastics and elastomers Advanced motor oils 10% Weight Reduction – 6.6% Fuel Economy

9 breakthrough upstream technology Economic Recovery from Thin Bitumen Reservoirs Shale Oil Recovery Next-Generation Seismic Imaging Rapid Reservoir Performance Prediction Unlocking Tight Gas (MZST) Advanced Hydrocarbon Detection (R 3 M SM ) identified opportunities evaluation commercial success

10 delivering new supplies breakthrough technologies can help meet rising global energy demand and minimize environmental footprint key ExxonMobil technologies include: -directional drilling- Multi-Zone Stimulation Technology (MZST) -seismic mapping- Remote Reservoir Resistivity Mapping (R3M) -floating production, storage and offloading vessel (FPSO) Sakhalin-1 development (Russia)

11 economies of scale – LNG tankers 128,000 m 3 conventional (~1976) 260,000 m 3 Q-Max (2008) 145,000 m 3 conventional (~1995) 210,000 m 3 Q-Flex (2007)

12 capturing and storing CO 2

13 making vehicles more efficient efficiency and technological developments in vehicles are critical we are developing vehicle technologies to improve fuel economy and reduce emissions advanced technologies for conventional vehicles advanced vehicles breakthrough technologies

14 enhanced lithium ion batteries ExxonMobil Chemical has developed new separator film for lithium-ion batteries may be more cost-effective than current batteries, potentially resulting in more drivers opting for hybrid vehicles improves safety, reliability and power of batteries for hybrid vehicles

15 on-board hydrogen reformer fuel exhaust water hydrogen production fuel cell stack electricity H2H2 current target future

16 reinventing your wheels Exxpro TM : ExxonMobil Chemical’s new tire lining technology enables lighter, more durable tires maintains proper air pressure longer than conventional tires helps save fuel, creating fewer emissions

17 energy efficiency – one quart at a time Mobil 1 AFE: Lower-viscosity synthetic motor oil launched in April can improve fuel economy by up to 2 percent versus most common motor oils builds on ExxonMobil’s 30-year tradition of protecting against engine wear

18 Global Climate & Energy Project an unprecedented alliance of scientists and companies over a 10-year period focus on creating commercially viable low emissions technologies projects at Stanford and in Europe, USA, Japan, Australia research projects include: designing and fabricating solar cells with the goal of developing efficient and low-cost options to convert solar energy into electricity exploring the science underlying the operation of fuel cells approaches to the capture, separation and storage of carbon dioxide emissions

19 Thanks!