Engineering 10 Chp.6 Future Challenges Bruce Mayer, PE Licensed Electrical & Mechanical Engineer BMayer@ChabotCollege.edu Engineering-10: Intro to Engineering 1 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Fa14 TransferDay ExtraCredit Earn Extra Credit in the Amount of 1 Attendance Point 4. Wrap BusCards with RubberBand and Submit to Instructor How to Earn 1. Attend the Chabot College Transfer Day 2. Talk to (at Least) 3 University Reps and Collect 3 Business Cards 3. Write on Back of Bus Cards: Class & Name Engineering-10: Intro to Engineering 2 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy & Humans James Watt and His Predecessors (e.g., Savery & Newcomen) FREED Human-Kind From Muscle Power The Heat Engine Was One of the Great Advances in Human History • Enabled the “Industrial Age” The Generation & Application of Energy Multiplies The Capabilities of EVERY Person Engineering-10: Intro to Engineering 3 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Watt’s Engine Watt, James (1736-1819) Scottish inventor and mechanical engineer, renowned for his improvements of the steam engine. Watt was born on January 19, 1736, in Greenock, Scotland. He worked as a mathematicalinstrument maker from the age of 19 and soon became interested in improving the steam engines, invented by the English engineers Thomas Savery and Thomas Newcomen, which were used at the time to pump water from mines. Engineering-10: Intro to Engineering 4 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Let’s LIST Real And Potential Energy Sources OTHER Than Fossil Fuels 1. ? 2. ? 3. ? 4. ? 5. ? 6. ? Engineering-10: Intro to Engineering 5 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt USA Electricity Production Mix - 2011 Electrical Power Source Solar 0.04% Source = USA Energy Inf ormation Adminsistration Annual Energy Review - 2011 * http://www.eia.gov/totalenergy/data/annual/showtext.cf m?t=ptb0802a Other 0.27% Other Gas 0.27% GeoThermal 0.41% BioMass 0.48% Petroleum 0.68% Wood 0.90% Wind 2.91% Hydro 7.91% Nuclear 19.22% Natural Gas 24.72% Coal 42.18% 0% USA_Electricity_Mix_1309.xlsx 5% 10% 20% 25% 30% 35% 40% Fraction of Total Electrical Generation Engineering-10: Intro to Engineering 6 15% Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt 45% 50% Energy Sources Fact & Fancy Wind Power • Wind Turbines Are VERY Attractive – Energy Input to Produce is Low – Incremental Added Capacity – NO Emissions of Any Kind • Limitations – Low Energy Density Must Cover Large Areas to Produce Much Energy Limited Viable Sites – Balance of System Costs (AC→AC Freq Converter) – Danger to WildLife; Particularly Birds (Raptors) Engineering-10: Intro to Engineering 7 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy Split Wood, Not Atoms → BioMass • Burning Garbage or Plant Matter is Attractive – Simultaneous Solution to Energy and Solid-Waste Problems – “Renewable” Resource – Low Energy Input to Produce • Limitation: Emission Stream is VERY Unpleasant – Scrubbing Wood-Smoke is MUCH Harder than Cleaning Gasoline Combustion ByProducts Engineering-10: Intro to Engineering 8 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam – Page, AZ Electrical Power Generation • River: Colorado River • Plant Type: Conventional • Powerhouse Type: Above Gnd • Turbine Type: Francis • Original Nameplate Capacity: 950,000 kW (950 MWe) • Installed Capacity:1,304 MWe • Year of Initial Operation:1964 • Net Generation (FY 2005): ≈3,920,000,000 kWh Engineering-10: Intro to Engineering 9 • Rated Head:510 Bruce feet Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam Aerial View Engineering-10: Intro to Engineering 10 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam – Page, AZ Engineering-10: Intro to Engineering 11 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam – Power Gen The “Power House” 150 rpm 48 Poles 7 Generators Engineering-10: Intro to Engineering 12 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam – Power Gen Learn Why in ENGR43 Engineering-10: Intro to Engineering 13 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Glen Canyon Dam – Power Gen Set-UP Transformers 13.8kV 230kV or 13.8kV 345kV Engineering-10: Intro to Engineering 14 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Francis Turbine Generator System Engineering-10: Intro to Engineering 15 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy HydroElectric Power • Fancy: Can Provide for Future Growth • Fact: Almost ALL Viable Hydro Sites Have Been USED – Damming More Rivers is a Political Issue Ethanol as AutoMobile Fuel • Fancy: Ethanol Can Replace Oil As a Source for Automobile Fuel • Fact: Making Ethanol from Corn May Use MORE Energy than It Produces Engineering-10: Intro to Engineering 16 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy Ethanol Continued • DISTILLATION of Ethanol from Fermented Corn Requires Large Amounts of Energy – Usually Provided by Burning Fossil Fuels at the Distillation Site, or at the Electrical Power Plant Solar PhotoVoltaics (solar cells) Can Supply Future Energy Needs • Photovoltaic Solar-Electric Cells Have Many Advantages – Remote Siting, Incremental Expansion Engineering-10: Intro to Engineering 17 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy Solar Cells Continued • BUT Making a Solar Cell Requires Large Amounts of Energy – Silicon Cells are Made by, in the Beginning, MELTING SAND – Production Processes Can be Energy Intensive as Well • Connecting to the Existing Electric Grid Includes a Great Deal of “Balance of System” Components – DC→AC “Inverters”, Special Electrical boxes Engineering-10: Intro to Engineering 18 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy Solar Cells Continued • Solar Radiation has a Very Low “Energy Density” – Requires LARGE Areas to Collect Significant Amounts of Energy Proton Exchange Membrane (PEM) FC http://fuelcells.si. edu/basics.htm Can Crowd-Out Other Uses: Solar-Farm vs. Tomato-Farm Hydrogen Fuel Cells • Based on Chemical Reaction 2H 2 O2 H 2O See also http://www.olympusmicro.com/primer/java/fuelcell/ Engineering-10: Intro to Engineering 19 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Solar-Farm vs. Orange Orchard Engineering-10: Intro to Engineering 20 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy Hydrogen Fuel Cells Continued • The Fuel Cell Reaction Looks Very Good – NO VOCs/HydroCarbon Emissions – NO NOx emission – NO CO2 Greenhouse Gas • But WHERE Do We Get the HYDROGEN? – There are NO Hydrogen WELLS or MINES • The Viable Sources of Massive Amounts of Hydrogen themselves Require Large Energy or Carbon Inputs Engineering-10: Intro to Engineering 21 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy In Apr04 Gov. Arnold Schwarzenegger has proposed an ambitious network of 200 hydrogen filling stations by 2010 See also http://www.hydrogenhighway.ca.gov/ But How can we MAKE all the Hydrogen needed to Replace Gasoline? There are 3 Viable Alternatives Engineering-10: Intro to Engineering 22 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy 1. Use WIND or NUCLEAR Power to generate Electricity which, in Turn, would be Used to Electrolize WATER • Electrolosis applies Electrical current to water and splits it into oxygen and hydrogen, which are then separated… • The Chemical Reaction 2 H 2O 2 H 2 O2 ElectricalEnergy This is a Very Energy Intensive Process; about 75% efficient Engineering-10: Intro to Engineering 23 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Ulf Bossel, “Does a Hydrogen Economy Make Sense?”, Proceedings of the IEEE | Vol. 94, No. 10, October 2006, pp 1826-1837 Electric Cars: H2 vs ElectroChem Engineering-10: Intro to Engineering 24 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy 2. Steam reforming of natural gas • If you take methane, the main component of natural gas, and expose it to steam, the final products are primarily carbon dioxide and hydrogen. Chemically CH4 2H 2O 4H 2 CO2 • This is already a Large-Volume Industrial Process, but it produces a LOT of CO2 – a GreenHouse Gas • Natural Gas Supplies seem ample Engineering-10: Intro to Engineering 25 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy 3. Coal gasification • hydrogen could be produced at centralized plants, compressed and most likely transported in trucks. • Coal is mostly carbon & hydrogen, but also contains some sulfur. Exposed to water at high temperature and high pressure, it chemically reacts to yield carbon monoxide (CO) and hydrogen. – But CO is Poisonous to Humans Engineering-10: Intro to Engineering 26 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources Fact & Fancy 3. Coal gasification, cont. • Oxygen from additional water vapor turns carbon monoxide into carbon dioxide. So the end products are primarily carbon dioxide and hydrogen gas. Chemically CH 0.8 S0.005 xH2O yH 2 zCO2 wH 2 S • We have LOTS of Coal, but still need to clean up the CO2 and H2S Engineering-10: Intro to Engineering 27 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt BloomBlox → Reformed CH 4 Engineering-10: Intro to Engineering 28 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources – Fact & Fancy Question – Which Energy Source Has These Attractive Aspects • NO HydroCarbon or NOx Emissions • NO GreenHouse Gas Emissions • Very High Energy Density – Easy to Transport Fuel • Plug-Compatible With Existing Electrical Grid • Can Easily Produce Hydrogen During “Off Peak” Hours • Low Energy Inputs to Produce? Engineering-10: Intro to Engineering 29 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Answer → Nuclear (Fission) Power Engineering-10: Intro to Engineering 30 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Sources – Fact & Fancy Nuclear Fission Limitations • Waste Handling is a Political Issue – Have Technological Solutions Waste Concentration, and Then Storage in WaterFree, Geologically Stable Salt-Mine Structures • Fear of Accidental Radiation Releases Due to Loss of Coolant Accidents Such as TMI – New Designs are Fail-Safe; LoCA’s can Be Engineered OUT • ByProduction of Nuclear-Weapons Compatible Materials; e.g., Plutonium Engineering-10: Intro to Engineering 31 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Electric Car Electricity Estimate To Run our vehicles on Electricity we would need to open a NEW Nuclear PowerPlant EVERY MONTH for TEN YEARS Engineering-10: Intro to Engineering 32 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt New Electricity for Cars Compared The TOTAL generating Capacity in the USA is about 1 070 000 MWe • The Electricity for Cars would add about 25% to the USA total The Total generating Capacity in CALIFORNIA is about 56 000 MWe • The Electricity for Cars would require about 4 NEW Californias Engineering-10: Intro to Engineering 33 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt http://www.eia.doe.gov/aer/overview.html * 2009 USA Primary Energy Production by Source Engineering-10: Intro to Engineering 34 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt USA Total Energy Mix - 2011 0.3% 1.5% 0.2% 4.1% 3.7% 5.8% 30.1% Natural Gas Coal Oil 10.6% Nuclear BioMass Hydro NGPL 15.3% Wind GeoThermal 28.4% http://www.eia.gov/totalenergy/data/annual/index.cfm Engineering-10: Intro to Engineering 35 Solar Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt The USA “Energy Squid” Engineering-10: Intro to Engineering 36 http://www.eia.gov/totalenergy/data/monthly/pdf/flow /total_energy.pdf Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy BackWork Ratio The BIG QUESTION for Any Energy Src • For Every Unit of Energy OUTput, How Much Energy was INput for the ENTIRE Production Stream? – In Electrical Power Generation, for the Steady-State Condition, this is called the “BackWork Ratio” Power to Run the Plant BWR Power Output of the Plant Many Energy Sources Fail This Question • e.g., Many Solar-Electric Systems will NOT Return the Energy Required to Make Them Engineering-10: Intro to Engineering 37 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt Energy Summary In My Humble Opinion ENERGY PRODUCTION is the SINGLE MOST IMPORTANT Technology Issue Facing Human Kind • A Low-Cost, Low-Environmental-Impact Energy Source GREATLY Facilitates The Solution of All Technical Problems – Food Production – Medical Advances – Water Production – Housing & Shelter Engineering-10: Intro to Engineering 38 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt All Done for Today California’s Hydrogen HighWay There were 143 H2 vehicles in 2007 Engineering-10: Intro to Engineering 39 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt A Potential Energy Scenario Engineering-10: Intro to Engineering 40 Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt USA Electricity Production Mix - 2008 Solar 0.02% Electrical Power Source Total = 4 125 675GWhe Other 0.28% Geo Thermal 0.36% Source = USA Energy Inf ormation Adminsistration * http://www.eia.doe.gov/cneaf /electricity/epa/epates.html Fuel Oil 1.12% Wood & BioMass 1.33% Wind 1.34% Hydro 6.18% Nuclear 19.54% Natural Gas 21.69% Coal 48.13% 0% USA_Electricity_Mix_0810.xls 5% 10% 20% 25% 30% 35% 40% 45% Fraction of Total Electrical Generation Engineering-10: Intro to Engineering 41 15% Bruce Mayer, PE BMayer@ChabotCollege.edu • ENGR-10_Lec-09_Chp6_Population_Energy.ppt 50% 55%