1 Steve Chalk Steve Chalk Program Manager Hydrogen, Fuel Cells and Hydrogen, Fuel Cells and Infrastructure Technologies Infrastructure Technologies Electrolysis.

Slides:

Advertisements

Similar presentations

Sections Going Green IEEE-USA Meeting – Indianapolis Central Indiana Section Earl Hill & Will Kassebaum.

Advertisements

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

The Institute for the Analysis of Global Security (IAGS) is a Washington based non-profit public educational organization dedicated to research and public.

Hydrogen and Fuel Cells How is Hydrogen Produced, Delivered, and Stored? Brought to you by –

Hawaii: 2020 Presented by Alex Waegel for Team Cake B.

Path to your Energy Savings Existing Residential and Small Commercial.

U.S. Energy Information Administration Independent Statistics & Analysis Annual Energy Outlook 2014 Early Release Reference Case AEO2014 Early.

HYDROGEN FUEL CELLS CURRENT AND FUTURE DESIGNS USE AS AN ENERGY STORAGE DEVICE RENEWABLE VS. CO2 GENERATING DISTRIBUTION METHODS AND COSTS SAFETY.

Rauðarárstíg Reykjavík Sími Bréfsími: Towards the Hydrogen Economy Iceland's Vision.

Sustainable energy supply; Is Hydrogen an option? Myths and facts C. Daey Ouwens Eindhoven University of Technology.

Regional Emission-free Technology Implementation (RETI): Diversifying the U.S. Electricity Portfolio Marc Santos 2008 ASME WISE Intern University of Massachusetts.

ENERGY POLICY MAY 12, 2006 JOHN BUSH. CAN WE ANSWER THESE QUESTIONS? What is an energy policy? Does the US have an energy policy? Does California have.

Energy Sources Grouping task. nuclear oil gas Solar cells / PV biofuel / biomass wave hydroelectric coal geothermal wind tidal.

They’re GRRRRRRREAT! Tiffany Greider Jeff Woods Alaina Pomeroy Shannon Payton Robert Jones Katherine Costello.

Fuel Use LCA Cutouts required for each system. Fuel Use.

Beyond Gasoline: Concept Cars. Plug-In Hybrid (PHEV)

Transportation Issues. US Cars and Drivers US Population: 300 million Licensed drivers 190 million Cars and light trucks. 210 million.

ENGR 101/HUM 200: Technology and Society October 25, 2005.

CHP & Fuel Cells at Home. Combined Heat and Power (CHP) aka “Cogeneration”

Energy Energy- the capacity to do work –Work- force through a distance Joule- amount of work done –4 Joules = 1 calorie –Calorie- energy to heat 1 g of.

Concept 16-8 Hydrogen fuel holds great promise for powering cars and generating electricity, but to be environmentally beneficial, it would have to be.

Eere.energy.gov Rebuild Hawaii Consortium – 3/5/2012 Peter Ashley DOE / EERE Presentation.

ETP 2012 – Choice of 3 Futures © OECD/IEA DS where the world is now heading with potentially devastating results The 6°C Scenario 4DS reflecting.

WHERE DOES OUR ENERGY COME FROM?. Energy SOURCES NON RENEWABLE Do not regenerate as fast as we consume them Risk of running out! Coal, oil, gas RENEWABLE.

Renewable Energies for Transportation, Electricity and Energy Storage Technologies (Round Table 3) U.S. Policies and Programs John P. Millhone Representing.

A S TRATEGIC A PPROACH TO E NERGY P OLICY James Gover November 8, 2012.

The Energy Construct Ben Cipiti May 1, 2008 Mid-Town Brews.

Energy and Sustainability. Energy How much energy do you need? How much energy do you use?

Institution of Mechanical Engineers ENERGY FOR LIFE By John Baxter FREng President.

“Clean” and Efficient Public Transportation Kapil Kanhai Yik Ho.

07/26/2010 National Petroleum Council Future Transportation Fuels Study - Task Group/Subgroup Overview September CSC Meeting Hydrogen Subgroup.

© OECD/IEA 2010 Cecilia Tam International Energy Agency Martin Taylor Nuclear Energy Agency The Role of Nuclear Energy in a Sustainable Energy Future Paris,

Making Sense of President Bush’s New Advanced Energy Initiative Kelly Sims Gallagher, Ph.D. Energy Technology Innovation Project February 23, 2006 (updated.

US Priorities for New and Renewable Energy Technologies APEC Expert Group on New and Renewable Energy Technologies Shanghai, China October 13-15, 2003.

Department of Energy Philadelphia Regional Office Greening the Government Conference Hydrogen Transportation Update June 5, 2003.

February 2010 February 8-10, 2009 Program Directors/Managers Session - UTEP Workshop Robert R. Romanosky Advanced Research Technology Manager National.

U.S. Department of Energy Office of Hydrogen, Fuel Cells and Infrastructure Technologies September, 2003 Hydrogen Production and Delivery.

The Science and Economics of Energy: Learning about Solar Energy.

Natural Gas End Use: A Vision for Today and the Future American Gas Association Press Briefing September 22, 2009, Washington, DC Neil Leslie ,

1 GM HydroGen3 Demonstration Program Raj Choudhury General Motors Corporation Metropolitan Washington Council of Governments May 23,

Autumn Million Jen DePaoli

US Priorities for New and Renewable Energy Technologies Cary Bloyd Argonne National Laboratory APEC Expert Group on New and Renewable Energy Technologies.

Tokyo, 5 September 2012 Bo Diczfalusy, Director, Directorate of Sustainable Energy Policy and Technology Markus Wråke, ETP Project Leader, Head of Energy.

Selecting Renewable Projects at Colorado Springs Utilities APPA Conference John Romero GM Acquisition, Engineering and Planning October, 2009.

RDL Priorities for New and Renewable Energy Technologies in New Zealand. David F.S. Natusch EGNRET 25 Economy Report, Yang Ming Shan, 31 Oct -2 November,

Clean Energy Solutions Milton L. Charlton Chief for Environment, Science, Technology and Health Affairs U.S. Embassy Seoul.

Wind & Transmission: The Clean Energy Superhighway Mark Lauby Manager, Reliability Assessments, NERC.

Earth’s Changing Environment Lecture 24 Increasing Transportation Efficiency.

Racing With Hydrogen Fuel Cell Cars Hydrogen is #1 on the Periodic Table ↓

Natural Resources. Two Types of Natural Resources Nonrenewable- limited Renewable-”unlimited”

The American Recovery and Reinvestment Act Department of Energy Funding May 2009.

Changing energy from one form to another ENERGY CANNOT BE CREATED OR DESTROYED IT CAN ONLY BE TRANSFORMED IN OTHER TYPES OF ENERGY.

Hydrogen A Fuel for Today and Tomorrow. What is Hydrogen? Element 1 on the Periodic Table - 1 proton, 1 electron Diatomic molecule (H 2 ) - 2 protons,

Possible Fuel Options for Your Car

Racing With Hydrogen Fuel Cell Cars Hydrogen is #1 on the Periodic Table ↓

The Swedish Energy Foresight Energy supply and use in Sweden 2001, TWh.

Hydrogen Fuel: The Next Gasoline?

AIR CLIMATE & ENERGY RESEARCH PROGRAM B U I L D I N G A S C I E N T I F I C F O U N D A T I O N F O R S O U N D E N V I R O N M.

ENERGY RESOURCES: PREDICTIONS AND ALTERNATIVES Kristin Clark ENERGY RESOURCES: PREDICTIONS AND ALTERNATIVES Kristin Clark.

Fuel Cell Electric Vehicle Status Vehicle efficiency Zero tailpipe emissions Low noise Low vibration Acceleration (stack power) Refueling time Interior.

City Carbon Neutral CEC Financial Analysis Feb. 10, 2009.

Earth’s Resources Chapter Sixteen: Natural Resources and Conservation 16.1 Natural Resources and Energy 16.2 Supplying Our Energy Needs 16.3 Resources.

An introduction ….  We depend on having energy in our daily lives.  Electricity flows into our houses through the power lines. Gasoline is used to power.

Economics project draft. Jarred Mongeon.  Issues : Coal; Oil; Natural Gas. Fossil fuel dependency Greenhouse gasses (Climate Alteration) Contamination.

Why are fossil fuels considered nonrenewable? Fossil Fuels are sources of energy that take a very long period of time to form and once depleted, are essentially.

Alternative Energy Clickertime. Which of the following will fail to work in the case of a power failure 1.Passive solar heating 2.Active solar heating.

Cars of the Future By: Savannah Baratta. Types of cars of the future and what they run on… Hybrid Hybrid cars use two types of distinct power sources.

Mark Paster Information Exchange Meeting on Nuclear Production of Hydrogen October, 2003 U.S. Department of Energy Hydrogen Production Programs.

Fuel Cell Symposia--August 15, 2003

Department of Energy Philadelphia Regional Office

Presentation transcript:

1 Steve Chalk Steve Chalk Program Manager Hydrogen, Fuel Cells and Hydrogen, Fuel Cells and Infrastructure Technologies Infrastructure Technologies Electrolysis Production of Hydrogen from Wind and Hydropower September 9, 2003 September 9, 2003

2 Hydrogen Infrastructure and Fuel Cell Technologies put on an Accelerated Schedule  President Bush commits a total $1.7 billion over first 5 years:  $1.2 billion for hydrogen and fuel cells RD&D ($720 million in new money)  $0.5 billion for hybrid and vehicle technologies RD&D  Accelerated, parallel track enables industry commercialization decision by Fuel Cell Vehicles in the Showroom and Hydrogen at Fueling Stations by 2020

3 Transportation Drives U.S. Energy Dependence US Oil Use for Transportation Passenger Vehicles Transportation accounts for 2/3 of the 20 million barrels of oil our nation uses each day. The U.S. imports 55% of its oil, expected to grow to 68% by 2025 under the status quo. Nearly all of our cars and trucks currently run on either gasoline or diesel fuel.

4 Why Hydrogen? It’s abundant, clean, efficient, and can be derived from diverse domestic resources.. Distributed Generation Transportation Biomass Hydro Wind Solar Geothermal Coal Nuclear Natural Gas Oil With Carbon Sequestration HIGH EFFICIENCY & RELIABILITY ZERO/NEAR ZERO EMISSIONS

5 Timeline for Hydrogen Economy

6 (Millions $)FY 03 Approp.FY04 RequestHouse MarkSenate Mark Hydrogen (EERE) Hydrogen (NE) Total Energy and Water Development Appropriations (Millions $)FY 03 Approp.FY04 RequestHouse MarkSenate Mark Fuel Cells (EERE) FreedomCAR (EERE) Hydrogen (FE) Total Status of President’s FY04 Budget Request Interior Appropriations

7 Hydrogen Production from Wind and Hydropower Wind/Hydropower Role: Large domestic resources Low carbon electricity sources Low cost of electricity for electrolysis Electricity grid infrastructure

8 Wind/Hydropower Electrolysis Activities Wind/hydropower electrolysis analysis 2004 advanced electrolysis new starts - Giner Electrochemical System - Proton Energy Systems - Teledyne Energy Systems Production and delivery solicitation –Large scale electrolysis –Renewable integration

9 Meeting Goal Begin developing specific vision and priorities for renewable hydrogen production and help DOE further define its role in this area.