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

Slides:

Advertisements

Similar presentations

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

Advertisements

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

Alternative Fuels.

1 Alternative Energy Sources Delivered to: Bill Pyke Hilbre Consulting Limited October 2012 Alternative Transport Fuels Hydrogen, Engine Developments &

By: Isaiah Canlas and Max Tchen. Advantages/ Disadvanages Advantages  No harmful emissions  Environment friendly  Renewable  Fuel efficient Disadvantages.

Hydrogen Production. Sources of hydrogen Hydrogen is one of the most abundant element in the universe. It can be produced from various sources as 90%

1 the "forever fuel" that we can never run out of HYDROGEN Water + energy hydrogen + oxygen Hydrogen + oxygen water + energy.

Hydrogen Fuel Cells. Basic electrochem Galvantic cell 2H 2 + O 2 → 2H 2 O Anode (oxidation) H 2 → 2H + + 2e- Cathode (reduction) O 2 + 4e- → 2O 2-

Hydrogen Production and Use. Methods of Hydrogen Production Splitting water (H 2 O) into Splitting water (H 2 O) into Hydrogen (H 2 ) Oxygen (O)

Hydrogen Power By: Maggie Hartz Mike Balke Jackie Fontaine

B9 Coal Deploying Fuel Cells to Generate Cheap, Clean Electricity from Fossil Fuels.

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

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

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.

Carbon Management Alternatives Jeffrey J. Siirola Eastman Chemical Company Kingsport TN AIChE Annual Meeting 5 November 2007.

NONRENEWABLE AND RENEWABLE RESOURCES

Advantages and Disadvantages of Energy Sources

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.

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

Energy Sources Chapter 9. Using Energy Where does our energy come from? How do we obtain our energy? What types of energy are available?

Current uses and facts. Proton Exchange Membrane Fuel Cells were developed by General Electric in the 1960s Current Fuel Cells use Hydrogen gas and Oxygen.

Hydrogen Energy: An Overview

Natural Resources.

By: John Vang & Gee Yang. What is Hydrogen is the simplest atom and is even lighter then air. A highly combustible gas and also very flammable. Made of.

Proton Exchange Membrane Fuel cell

Chapter 11: Energy Resources

Industrial Prospective for Hydrogen Utilization - Safety Aspect - 10 September 2005 K.Takeno Mitsubishi Heavy Industries, Ltd. 添付 -2.

Carbon Capture & Storage(CCS)

Warm-up What is the difference between a renewable and a non renewable resources? What is an example of a nonrenewable resource? What is an example.

Hydrogen Economy Travis Bayer Energy Law, Overview Hydrocarbon Economy vs. Hydrogen Economy Hydrocarbon Economy vs. Hydrogen Economy Past excitement.

Inside a Fuel Cell The red Hs represent hydrogen molecules (H2) from a hydrogen storage tank. The orange H+ represents a hydrogen ion after its electron.

Energy in Northeast Ohio Main sources of energy in Ohio-coal, oil, natural gas, and nuclear Ohio used the 3rd highest amount of energy in the Nation.

A Hydrogen Economy. Agenda A Hydrogen Vision of the Future Hydrogen Systems Producing Hydrogen Storing and Transporting Hydrogen Hydrogen Fueled Transport.

Alternative fuel technology

CO 2 Sequestration Sequestration –To set off or apart; separate; segregate Why sequester CO 2 ? –Removal from atmosphere reduces the impact that anthropogenic.

What is happening here and how is it linked to what we’ve been studying? Click picture for guardian link.

Natural Resources Warm Up 1. What is energy? 2. Make a list of all the things today that you used that require energy. 3. Put the following types of.

Energy Units & Consumption ESM 102. Sources of Energy.

1 Hydrogen Economy Ryan Morrison ChE /20/2006 Methanol Economy vs.

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

Energy and Fuel Sources Mrs. B-Z. Two broad categories Renewable –Perpetually Renewable –Potentially Renewable Nonrenewable.

Fuel cells An electrochemical conversion device Chemical reactions cause electrons (current) to flow Requires a fuel, an oxidant and an electrolyte ( a.

Kate Wallace Erin Turner Jillian Abraham. What is hydrogen all about? 9% of your body is made up of hydrogen 9% of your body is made up of hydrogen Greater.

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,

© 2011 Pearson Education, Inc. AP Environmental Science Mr. Grant Lesson 103 Ocean Energy Sources & Hydrogen.

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

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

Introduction: Energy Unit Technology Foundations.

Hydro WHY PRODUCTIONSTORAGE HARVESTING ENERGY BENEFITS PRACTICALITY The demand for energy is increasing while the finite supply of fossil fuel is being.

Hydrogen Fuel And its place in our future. Some Chemistry 2 H 2 + O 2 2 H 2 O kJ.

Biofuels Biomass is a renewable energy source because its supplies are not limited. We can always grow trees and crops, and waste will always exist. Environmentally,

Renewable energy Types of energy used Evaluating energy What is net energy Energy efficiency Ways to improve efficiency Solar Hydro Wind Biomass Hydrogen.

What is it? Where does it come from?. Energy – What is it? The capacity of a body system to do work or a measure of this capacity, measured in joules.

What is renewable energy Renewable energy sources are things like: solar energy,wind,energy and geothermal, which can be used over and over again. Fore.

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.

May 2013 by; OM PRAKASH MEENA PANKAJ PINGOLIYA RAKESH JOTAR.

Teknik Elektrokimia 15/16 Semester genap Instructor: Rama Oktavian Office Hr.: T , Th ; 13-15, F ;

 Readily available  Cheap  Exist in solid, liquid, and gas forms › Coal › Petroleum › Natural gas.

HYDROGEN ENERGY Hydrogen - 3 rd most abundant element on earth’s surface; found primarily in water [H 2 O] and organic compounds and generally produced.

Sources of Hydrogen and the Development of a Hydrogen Economy

Presentation by Shreenithi Lakshmi Narasimhan

Renewable vs Nonrenewable

Disadvantages Lots of wind turbines are needed to produce enough power. Turbines can only be put in windy areas. It is not always windy. Some people don’t.

Achieving Energy Sustainability

Ethanol construction designed to take advantage of solar radiation without active technology.

Industrial Prospective for Hydrogen Utilization - Safety Aspect -

Hydrogen Economy Keith Hohn Associate Professor

Generating Current Electricity Review

Presentation transcript:

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

Molecular Hydrogen Facts Three times energy content of gasoline (120 Mj/kg vs. 44Mj/kg) Cost of liquefying it is 30 to 40% of its energy content Pipelines are 50% greater diameter than for gas (for equivalent energy transmission rate), so more $. Distribution doubles cost of production ($1.03/kg). Flammable concentration has a wide spread from 4% to 75%.

Types of Fuel Cells Phosphoric Acid fuel cells: only commercially available. Since 1991, 250 units sold (until 2004). $4500/kW Proton Exchange Membrane fuel cells. Vehicle transportation method because 25kW to 150kw size. Beta testing at $1500/kW by UTC Fuel Cells. Solid Oxide fuel cells. Currently operate using natural gas, but could use H. Unlike those above, no noble metals. Can operate up to 1000 c.

Molecular Hydrogen Generation Three different scales of generation: Central Station, Midsize, and Distributed. Central Station: 1,080,000 kg/day would support 2M cars. Distributed by pipeline. Generated by fossil fuel or nuclear energy. Midsize: 21,600 kg/day would support 40k cars. Distributed by cryogenic truck. Generated by natural gas or biomass Distributed: 480 kg/day would support 800 cars. No distribution system needed. Renewable fuels used.

Hydrogen Generation Electrolysis: from fossil fuels or renewable energy sources Fossil Fuels requires carbon sequestering (next slide) Hydroelectric, Nuclear Energy, Photovoltaic, grid based energy, wind power, have either periodic generation, which may not match usage, or have constant generation, which does not match usage. Energy storage at peak times is a problem for these energy sources that hydrogen generation could solve. Cost for all distributed (renewable) sources is two to five times cost of gasoline (2004)

Carbon Dioxide Sequestering No advantage to Hydrogen production from fossil fuels as far as reducing Carbon Dioxide is concerned. Yet this is the cheapest method to generate Hydogen. Currently, only 4% of Hydrogen is from electrolysis; the rest is from coal, oil and natural gas, which contains about 10% CO2 as well as the Hydrogen. Norway injects CO2 into saline aquifer. Los Alamos study of CO2 injection into magnesium formations (Peridotites, serpentinite, Gabbro, and Basalt) Costs about $8 per ton of CO2 disposed. Permanent and no legacy problems for future generations.

CO2 and Hydrogen from fossil fuels Small increase in cost to capture CO2 when hydrogen produced by fossil fuels. Using coal as feedstock, sulfur captured along with CO2. CO2 sequestering and storage costs about $4.00/barrel of oil, $24/ton of coal, $0.54/cubic feet of natural gas. New infrastructure required to transfer CO2 from H2 production to storage. Deep ocean already stores CO2, may give it up with warming. World’s biological storage now 700 billion tons. To double this storage would require doubling vegetation.

Hydrogen production technologies From natural gas. Already import natural gas. H conversion from methane by steam reforming, produces CO too. If natural gas costs $6.50/Btu, H costs $3.51/kg From Coal. Enough to last 200yrs. Produces the most CO2 for the same H. Gasification produces syngas. Research may get costs to $0.90/kg. From nuclear energy. Water splitting by electrolysis or thermochemical process. Need temps of 700 to 1000 c. No CO2. No cost estimates. Electrolysis. Most expensive. Use proton exchange membrane( PEM) or liquid electrolyte (KOH).

Hydrogen production--Renewable fuels From wind energy. Electrolyze water. Wind is the most cost effective renewable energy source: $0.04 to $0.07/kWh costs about $6.64/kg per H2 if grid back up used. From Biomass. Only 0.2 to 0.4% of solar energy converted to H2. Costs $7.05/kg by gasification, not including fertilizers and land degradation. From Solar energy. Either by electrolysis (Photo voltaic) or using photoelectrochemical cell (in a early stage of development). Cost now is $28.19/kg and solar energy is only available 20% of the time.

Hydrogen safety Small leak more flammable than for gasoline, but more likely to disperse, so ignition less likely. Static spark can ignite, so ground during transfer. Detonation more likely than with gasoline because of wider flammable concentration and higher flame speed. Need high pressure to transfer efficiently: 5-10k psi. Odorless, burns with a blue flame. Small molecule precludes adding scent molecule.