logging in or signing up Deena Abigail hydrogen Burnell Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 294 Category: Entertainment License: All Rights Reserved Like it (1) Dislike it (0) Added: November 07, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Hydrogen Fuel for Transportation: Hydrogen Fuel for Transportation Deena Patel and Abigail MechtenbergIntroductory Questions: Introductory Questions What is the most abundant element in universe? Hydrogen What percentage of the atoms are hydrogen? 90 % Where is hydrogen found on Earth? H20 and Hydrocarbons (i.e. fossil fuels) Is hydrogen a source or carrier on Earth Carrier Where is hydrogen found as a source (not bound to other atoms? Sun World has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. 1881 UM Engineering Today’s UM Engineering 1917 Shop 1942 Engineering ClassWorld has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. 1913 Model-T 2003 cars with navigation systemsWorld has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. Today’s UM Computer Lab 1948 IBM Computer Today’s IBM ComputerOriginal Gasoline Delivery - Innovative: Original Gasoline Delivery - Innovative 1901President Bush Launches the Hydrogen Fuel Initiative: President Bush Launches the Hydrogen Fuel Initiative "Tonight I am proposing $1.2 billion in research funding so that America can lead the world in developing clean, hydrogen-powered automobiles. "With a new national commitment, our scientists and engineers will overcome obstacles to taking these cars from laboratory to showroom so that the first car driven by a child born today could be powered by hydrogen, and pollution-free. "Join me in this important innovation to make our air significantly cleaner, and our country much less dependent on foreign sources of energy." President George W. Bush 2003 State of the Union Address January 28, 2003Energy Consumption – 100 Quads: Energy Consumption – 100 QuadsSlide9: Transportation Petroleum Use by Mode (1970-2025) 2003 Total = 13.42 mbpd Note: Domestic production includes crude oil, natural gas plant liquids, refinery gain, and other inputs. This is consistent with EIA, MER, Table 3.2. Previous versions of this chart included crude oil and natural gas plant liquids only. Source: Transportation Energy Data Book: Edition 24, ORNL-6973, and EIA Annual Energy Outlook 2005, Preliminary release, December 2004. Dependence on Oil Imports: Dependence on Oil ImportsGHG Emissions: GHG EmissionsGHG Emissions by Fuel Type: GHG Emissions by Fuel TypeApproaches to Reducing the Oil Gap: Approaches to Reducing the Oil Gap Produce More Domestic Oil Use Less Improve Efficiency (hybrid techology) Use Alternative Fuels (hydrogen, biofuel) Reduce Vehicle Miles Traveled (VMT) - PolicyDOE Partners with Industry: DOE Partners with Industry FreedomCAR focuses on fuel cell vehicle and hybrid component technologies Hydrogen Fuel Initiative focuses on hydrogen production, storage, delivery and infrastructure technologies The Goal: Fuel Cell Vehicles in the Showroom and Hydrogen at Fueling Stations by 2020Hydrogen Pathway: Hydrogen Pathway . Distributed Generation Transportation Hydro Wind Solar Geothermal Coal Nuclear Biomass Natural Gas Oil With Carbon Sequestration Note: Nuclear Power Plant does not need carbon sequestrationConventional Vehicle: GV: Conventional Vehicle: GV Hybrid Electric Vehicles: HEV: Hybrid Electric Vehicles: HEV Hydrogen Fuel Cell Vehicle: HFCV: Hydrogen Fuel Cell Vehicle: HFCV Fuel 50 Transmission Losses = 6 Accessories 2 Power to Wheels 16 Efficiency FC: Losses = 26Entering Market Prediction: Entering Market PredictionFuel Economy Predictions: Fuel Economy Predictions Assuming PEMs are more efficientHydrogen Fuel Cell: Hydrogen Fuel CellInside a Fuel Cell: 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 is removed. The yellow e- represents an electron moving through a circuit to do work (like lighting a light bulb or powering a car). The green Os represent an oxygen molecule (O2) from the air. The blue drops at the end are for pure water--the only byproduct of hydrogen power. 2H2 +O2 2H2O + electrical energyProton Exchange Membrane: PEM: Proton Exchange Membrane: PEM The proton-exchange membrane (PEM) fuel cell uses a fluorocarbon ion exchange with a polymeric membrane as the electrolyte. The PEM cell appears to be more adaptable to automobile use than the other types of cells. These cells operate at relatively low temperatures and can vary their output to meet shifting power demands. Efficiency is about 40 to 50 percent with outputs generally ranging from 50 to 250 kW Fuel Cell Demonstration Vehicles: Fuel Cell Demonstration Vehicles 4-5 passengers 80-90 mph speed 180-250 miles rangePerformance: PerformanceFuel Cell System: Fuel Cell System Fuel Cell Fuel Processor (if present) Fuel Storage Fuel InfrastructurePossible System Configurations: Possible System Configurations Methanol Gasoline Direct Methanol FCWeight of Sub-Systems: Weight of Sub-Systems Methanol Gasoline Direct Methanol FC 90 kg 100 kg 52 kg 50 kg 85 kg 100 kg 80 kgHow large of a gas tank do you want?: How large of a gas tank do you want? Schlapbach & Züttel, Nature, 15 Nov. 2001 Volume Comparisons for 4 kg Vehicular H2 Storage Volumetric Energy Density vs Mass Energy Density: Minimum Performance Goal Volumetric Energy Density vs Mass Energy Density Ultimate GoalStorage Issues for Various H2 Fuels: Storage Issues for Various H2 FuelsHydrogen Safety: Hydrogen Safety Photo 3 - Time: 1 min, 0 sec - Hydrogen flow is subsiding, gasoline vehicle engulfed in fire Photo 2 - Time 0 min, 3 seconds - Ignition of both fuels occur. Hydrogen flow rate 2100 SCFM. Gasoline flow rate 680 cc/min. Vehicle with hydrogen tank Vehicle with gasoline tank From: M.R. Swain, Fuel Leak Simulation, University of Miami, Hydrogen Flame Cannot be seen Temperature Flame goes upVaried Views on Timing: Varied Views on Timing “Fuel-cell cars, in contrast [to hybrids], are expected on about the same schedule as NASA’s manned trip to Mars and have about the same level of likelihood.” Scientific American May 2004Perspectives to Consider: Perspectives to Consider Even “in the advanced technology case with a carbon constraint … hydrogen doesn’t penetrate the transportation sector in a major way until after 2035.” Jae Edmonds et al., PNNL, 2/04 Before then, H2 cars likely to increase GHGs. Zero-CO2 H2 cars avoid CO2 at cost of $700/ton! E.C. Joint Research Center & EUCAR, 1/04Back to Original Goals: Back to Original Goals In the meantime, we can reduce the oil gap by: Fuel Efficient Vehicles Alternative Fuel Use Reduce VMT (Vehicle Miles Traveled) If we choose to use hydrogen in transportation, then we have to ask where is the hydrogen coming from Current Worldwide Hydrogen Uses: Current Worldwide Hydrogen Uses Source: NRC Hydrogen Economy (2004) 42 million tons (US 9 million tons)Where does H2 come from?: Where does H2 come from? Most H on earth is bound to other atoms Water: H20 Fossil Fuels: hydro-carbon chains Organic matter: biomass Need to input energy to break these bonds in order to isolate the hydrogen. Energy carrier like electricity. H2 from H2O: H2 from H2O Electrolysis Running an electric current through water produces hydrogen and oxygen (reverse of fuel cell). Dates back to 1800’s Produces high purity H2 Can use any fuel to generate electricity Fossil fuels, nuclear, solar, wind Other ways of splitting water: Photolysis, biological, thermo-chemicalRenewable Resource Potential: Renewable Resource PotentialH2 from fossil fuels: H2 from fossil fuels Fossil fuels, like oil, are made up of hydrogen and carbon chains.H2 from fossil fuels – natural gas: H2 from fossil fuels – natural gas Steam reforming of natural gas: CH4 +H2O (1100° C) CO + 3H2 Need to purify: CO can poison catalysts Water gas shift reaction: CO +H2O CO2 + H2 H2 from fossil fuels – coal, coke, biomass: H2 from fossil fuels – coal, coke, biomass Gasification to synthetic gas (syn. gas) C +H2O (1000° C) CO + H2 Followed by water gas shift reaction CO +H2O CO2 + H2 CO2 can be vented or captured (carbon capture). Current World Hydrogen Production: Current World Hydrogen Production Source: DOE (2003) Current US production: 9 million tons. By 2040 fuel cell cars and light trucks will require 150 million tons of hydrogen (DOE estimate)Peak Oil Production: Peak Oil Production Source: P. Weisz Phys. Today July 2004Natural Gas Supplies: Natural Gas Supplies Source: P. Weisz Phys. Today July 2004 Coal Supplies: Coal Supplies Source: P. Weisz Phys. Today July 2004 Carbon Capture: Carbon Capture If fossil fuels are used to generate hydrogen, green house gasses (primarily CO2) can be captured at the production site. Underground storage: geologic formations such as depleted gas and oil reservoirs. Done in Norway since 1996: 1 million metric tons of CO2 per year. Economical for large centralized sitesCarbon Capture Potential: Carbon Capture Potential Current US CO2 emissions: 6 billion metric tonsDelivered H2 Cost ($/kg): Delivered H2 Cost ($/kg) $2.50/gallon of gasoline Source: LIpman (2004)GHG Emissions - Hydrogen Fuel Cell: GHG Emissions - Hydrogen Fuel Cell Natural Gas Reforming Electrol- ysis Nuclear Solar Biomass Source: LIpman (2004) Major Air Pollutants – Hydrogen FC: Major Air Pollutants – Hydrogen FC Natural Gas Reforming Electrol. Nuclear Solar Biomass Source: LIpman (2004) Summary: Summary Hydrogen is abundant worldwide, but not in an isolated form (H2). Fuel cells convert H2 to electricity. Currently, Hybrids-GHEV get better efficiencies than Conventional Vehicles-GCV, but Hydrogen-FCV offer higher efficiencies (HEV could run on H2) H2 can be produced from renewable or nonrenewable sources Long term goals should include moving towards renewable sources. Carbon capture to reduce greenhouse pollution from fossil fuel sources. References/Further Reading: References/Further Reading National Research Counsel: Hydrogen Economy 2004. APS Revised Hydrogen Report, October 2004 G. Crabtree et al. The Hydrogen Economy, Physics Today, December 2004. P. Weisz, Basic Choices and Constraints on Long-Term Energy Supplies, Physics Today, July 2004. T. Lipman, What Will Power the Hydrogen Economy? Present and Future Sources of Hydrogen Energy. Thank you.: Thank you. Abigail Mechtenberg and Deena PatelCurrent Cost Estimate: Current Cost Estimate Hydrogen Fuel Cost Gasoline Fuel Cost You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Deena Abigail hydrogen Burnell Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 294 Category: Entertainment License: All Rights Reserved Like it (1) Dislike it (0) Added: November 07, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Hydrogen Fuel for Transportation: Hydrogen Fuel for Transportation Deena Patel and Abigail MechtenbergIntroductory Questions: Introductory Questions What is the most abundant element in universe? Hydrogen What percentage of the atoms are hydrogen? 90 % Where is hydrogen found on Earth? H20 and Hydrocarbons (i.e. fossil fuels) Is hydrogen a source or carrier on Earth Carrier Where is hydrogen found as a source (not bound to other atoms? Sun World has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. 1881 UM Engineering Today’s UM Engineering 1917 Shop 1942 Engineering ClassWorld has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. 1913 Model-T 2003 cars with navigation systemsWorld has transformed dramatically in one life time – say in the last 80 years.: World has transformed dramatically in one life time – say in the last 80 years. Today’s UM Computer Lab 1948 IBM Computer Today’s IBM ComputerOriginal Gasoline Delivery - Innovative: Original Gasoline Delivery - Innovative 1901President Bush Launches the Hydrogen Fuel Initiative: President Bush Launches the Hydrogen Fuel Initiative "Tonight I am proposing $1.2 billion in research funding so that America can lead the world in developing clean, hydrogen-powered automobiles. "With a new national commitment, our scientists and engineers will overcome obstacles to taking these cars from laboratory to showroom so that the first car driven by a child born today could be powered by hydrogen, and pollution-free. "Join me in this important innovation to make our air significantly cleaner, and our country much less dependent on foreign sources of energy." President George W. Bush 2003 State of the Union Address January 28, 2003Energy Consumption – 100 Quads: Energy Consumption – 100 QuadsSlide9: Transportation Petroleum Use by Mode (1970-2025) 2003 Total = 13.42 mbpd Note: Domestic production includes crude oil, natural gas plant liquids, refinery gain, and other inputs. This is consistent with EIA, MER, Table 3.2. Previous versions of this chart included crude oil and natural gas plant liquids only. Source: Transportation Energy Data Book: Edition 24, ORNL-6973, and EIA Annual Energy Outlook 2005, Preliminary release, December 2004. Dependence on Oil Imports: Dependence on Oil ImportsGHG Emissions: GHG EmissionsGHG Emissions by Fuel Type: GHG Emissions by Fuel TypeApproaches to Reducing the Oil Gap: Approaches to Reducing the Oil Gap Produce More Domestic Oil Use Less Improve Efficiency (hybrid techology) Use Alternative Fuels (hydrogen, biofuel) Reduce Vehicle Miles Traveled (VMT) - PolicyDOE Partners with Industry: DOE Partners with Industry FreedomCAR focuses on fuel cell vehicle and hybrid component technologies Hydrogen Fuel Initiative focuses on hydrogen production, storage, delivery and infrastructure technologies The Goal: Fuel Cell Vehicles in the Showroom and Hydrogen at Fueling Stations by 2020Hydrogen Pathway: Hydrogen Pathway . Distributed Generation Transportation Hydro Wind Solar Geothermal Coal Nuclear Biomass Natural Gas Oil With Carbon Sequestration Note: Nuclear Power Plant does not need carbon sequestrationConventional Vehicle: GV: Conventional Vehicle: GV Hybrid Electric Vehicles: HEV: Hybrid Electric Vehicles: HEV Hydrogen Fuel Cell Vehicle: HFCV: Hydrogen Fuel Cell Vehicle: HFCV Fuel 50 Transmission Losses = 6 Accessories 2 Power to Wheels 16 Efficiency FC: Losses = 26Entering Market Prediction: Entering Market PredictionFuel Economy Predictions: Fuel Economy Predictions Assuming PEMs are more efficientHydrogen Fuel Cell: Hydrogen Fuel CellInside a Fuel Cell: 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 is removed. The yellow e- represents an electron moving through a circuit to do work (like lighting a light bulb or powering a car). The green Os represent an oxygen molecule (O2) from the air. The blue drops at the end are for pure water--the only byproduct of hydrogen power. 2H2 +O2 2H2O + electrical energyProton Exchange Membrane: PEM: Proton Exchange Membrane: PEM The proton-exchange membrane (PEM) fuel cell uses a fluorocarbon ion exchange with a polymeric membrane as the electrolyte. The PEM cell appears to be more adaptable to automobile use than the other types of cells. These cells operate at relatively low temperatures and can vary their output to meet shifting power demands. Efficiency is about 40 to 50 percent with outputs generally ranging from 50 to 250 kW Fuel Cell Demonstration Vehicles: Fuel Cell Demonstration Vehicles 4-5 passengers 80-90 mph speed 180-250 miles rangePerformance: PerformanceFuel Cell System: Fuel Cell System Fuel Cell Fuel Processor (if present) Fuel Storage Fuel InfrastructurePossible System Configurations: Possible System Configurations Methanol Gasoline Direct Methanol FCWeight of Sub-Systems: Weight of Sub-Systems Methanol Gasoline Direct Methanol FC 90 kg 100 kg 52 kg 50 kg 85 kg 100 kg 80 kgHow large of a gas tank do you want?: How large of a gas tank do you want? Schlapbach & Züttel, Nature, 15 Nov. 2001 Volume Comparisons for 4 kg Vehicular H2 Storage Volumetric Energy Density vs Mass Energy Density: Minimum Performance Goal Volumetric Energy Density vs Mass Energy Density Ultimate GoalStorage Issues for Various H2 Fuels: Storage Issues for Various H2 FuelsHydrogen Safety: Hydrogen Safety Photo 3 - Time: 1 min, 0 sec - Hydrogen flow is subsiding, gasoline vehicle engulfed in fire Photo 2 - Time 0 min, 3 seconds - Ignition of both fuels occur. Hydrogen flow rate 2100 SCFM. Gasoline flow rate 680 cc/min. Vehicle with hydrogen tank Vehicle with gasoline tank From: M.R. Swain, Fuel Leak Simulation, University of Miami, Hydrogen Flame Cannot be seen Temperature Flame goes upVaried Views on Timing: Varied Views on Timing “Fuel-cell cars, in contrast [to hybrids], are expected on about the same schedule as NASA’s manned trip to Mars and have about the same level of likelihood.” Scientific American May 2004Perspectives to Consider: Perspectives to Consider Even “in the advanced technology case with a carbon constraint … hydrogen doesn’t penetrate the transportation sector in a major way until after 2035.” Jae Edmonds et al., PNNL, 2/04 Before then, H2 cars likely to increase GHGs. Zero-CO2 H2 cars avoid CO2 at cost of $700/ton! E.C. Joint Research Center & EUCAR, 1/04Back to Original Goals: Back to Original Goals In the meantime, we can reduce the oil gap by: Fuel Efficient Vehicles Alternative Fuel Use Reduce VMT (Vehicle Miles Traveled) If we choose to use hydrogen in transportation, then we have to ask where is the hydrogen coming from Current Worldwide Hydrogen Uses: Current Worldwide Hydrogen Uses Source: NRC Hydrogen Economy (2004) 42 million tons (US 9 million tons)Where does H2 come from?: Where does H2 come from? Most H on earth is bound to other atoms Water: H20 Fossil Fuels: hydro-carbon chains Organic matter: biomass Need to input energy to break these bonds in order to isolate the hydrogen. Energy carrier like electricity. H2 from H2O: H2 from H2O Electrolysis Running an electric current through water produces hydrogen and oxygen (reverse of fuel cell). Dates back to 1800’s Produces high purity H2 Can use any fuel to generate electricity Fossil fuels, nuclear, solar, wind Other ways of splitting water: Photolysis, biological, thermo-chemicalRenewable Resource Potential: Renewable Resource PotentialH2 from fossil fuels: H2 from fossil fuels Fossil fuels, like oil, are made up of hydrogen and carbon chains.H2 from fossil fuels – natural gas: H2 from fossil fuels – natural gas Steam reforming of natural gas: CH4 +H2O (1100° C) CO + 3H2 Need to purify: CO can poison catalysts Water gas shift reaction: CO +H2O CO2 + H2 H2 from fossil fuels – coal, coke, biomass: H2 from fossil fuels – coal, coke, biomass Gasification to synthetic gas (syn. gas) C +H2O (1000° C) CO + H2 Followed by water gas shift reaction CO +H2O CO2 + H2 CO2 can be vented or captured (carbon capture). Current World Hydrogen Production: Current World Hydrogen Production Source: DOE (2003) Current US production: 9 million tons. By 2040 fuel cell cars and light trucks will require 150 million tons of hydrogen (DOE estimate)Peak Oil Production: Peak Oil Production Source: P. Weisz Phys. Today July 2004Natural Gas Supplies: Natural Gas Supplies Source: P. Weisz Phys. Today July 2004 Coal Supplies: Coal Supplies Source: P. Weisz Phys. Today July 2004 Carbon Capture: Carbon Capture If fossil fuels are used to generate hydrogen, green house gasses (primarily CO2) can be captured at the production site. Underground storage: geologic formations such as depleted gas and oil reservoirs. Done in Norway since 1996: 1 million metric tons of CO2 per year. Economical for large centralized sitesCarbon Capture Potential: Carbon Capture Potential Current US CO2 emissions: 6 billion metric tonsDelivered H2 Cost ($/kg): Delivered H2 Cost ($/kg) $2.50/gallon of gasoline Source: LIpman (2004)GHG Emissions - Hydrogen Fuel Cell: GHG Emissions - Hydrogen Fuel Cell Natural Gas Reforming Electrol- ysis Nuclear Solar Biomass Source: LIpman (2004) Major Air Pollutants – Hydrogen FC: Major Air Pollutants – Hydrogen FC Natural Gas Reforming Electrol. Nuclear Solar Biomass Source: LIpman (2004) Summary: Summary Hydrogen is abundant worldwide, but not in an isolated form (H2). Fuel cells convert H2 to electricity. Currently, Hybrids-GHEV get better efficiencies than Conventional Vehicles-GCV, but Hydrogen-FCV offer higher efficiencies (HEV could run on H2) H2 can be produced from renewable or nonrenewable sources Long term goals should include moving towards renewable sources. Carbon capture to reduce greenhouse pollution from fossil fuel sources. References/Further Reading: References/Further Reading National Research Counsel: Hydrogen Economy 2004. APS Revised Hydrogen Report, October 2004 G. Crabtree et al. The Hydrogen Economy, Physics Today, December 2004. P. Weisz, Basic Choices and Constraints on Long-Term Energy Supplies, Physics Today, July 2004. T. Lipman, What Will Power the Hydrogen Economy? Present and Future Sources of Hydrogen Energy. Thank you.: Thank you. Abigail Mechtenberg and Deena PatelCurrent Cost Estimate: Current Cost Estimate Hydrogen Fuel Cost Gasoline Fuel Cost