Chapter 10 Structure of the Utility Industry Managing Energy Demand Electrical Charges and Currents...
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Transcript of Chapter 10 Structure of the Utility Industry Managing Energy Demand Electrical Charges and Currents...
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Chapter 10Structure of the Utility Industry
Managing Energy Demand
Electrical Charges and Currents
Batteries and Electric Vehicles
Hybrid Vehicles
Ohms Law
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Energy in the News
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Electrical Generation vs Time
Sources and amount of electricity generation in the UnitedStates from 1950 to 2000 (for units see figure 10.1 in yourBook. Purple (top): coal Green: Petroleum and natural gasAqua: Hydroelectric power Blue: Nuclear power.
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General Trends
Coal provides most of the power for electrical generation
Need for electrical power in the 1970s, doubled every 10 years
Rate of growth in demand has slowed to about 2% per year(implied doubling time??)
Energy use overall: largest rate of growth is in electrical consumption
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Use of Coal, Natural Gas and Petroleum by Utilities
Nonutility producers ofEnergy: use proportionatelymore renewable energy,Don’t use nuclear at all.Do use some fossil fuels.
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Restructuring of the Utilities
Deregulation of the utilities: Goals: 1) To make electricity cheaper by promoting competition2) Promote increased efficiency of power plants3) Allow consumers choice of renewable energy sources
Historical Perspective: Why a utility monopoly?
1) Smoothing of demand: promotes efficiency2) Power plants are expensive
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Utilities: Why Change?
1) Facilities already built
2) Profit guaranteed: no incentive for change
3) Power plant efficiencies: historical trends
4) Renewable energy sources (other than hydro)
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Deregulation History
PURPA: Public Utility Regulatory Policy Act: 1978
1) Must buy power from independent producers at avoided cost(about 6 cents per kWH), typical cost of electricity from existingPower plants (about 3.5 cents per kWH).Avoided cost: cost of constructing new power plants
Cost of wind generated power: about 5.5 cents per kWhCogeneration: typically cheaper than wind power
Result: promotion of cogeneration and wind power: Increased energy efficiency and renewable power.
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Problems with Deregulation
Stranded costs
Utilities divided up: Generation, transmission and distribution all separate
If a utility sells a power plant: who should get the profits?
California: regulated charges from utilities to consumersBut not charges from fossil fuel brokers to utilities
Transmission lines: incentive to modernize?
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Good Aspects of Deregulation
Number of independent power producers increased,Therefore more power generated from renewables
Efficiency of power plants now increasing ratherThan stalling; newer plants 40% efficientCould be 60% efficient with best technology
Consumers in some states can choose to pay moreTo buy power generated from renewables: Increases the market for renewables
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Energy Trends
Times of high demand: electrical costs $10 per KWHVs typical price?
Peak power use closer and closer to total capacity
Big plants no longer most efficient power generators:New technologies like microturbines important
Transmission lines: need modernization(What happened in California power crisis?)
Times of high demand: utilities pay big energy usersTo shut down. (What types of companies use the most power?)
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Electrical Charges and Currents
Electricity= moving electrons
Conductors: metals with electrons able to move easily(outer shell of electrons in the atom)
Electron: negative chargeProton: positive charge
Unit of Charge: coulomb
6.25E18 electrons = 1 Coulomb
Like charges repel: unlike charges attract
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Semi-Conductors and Insulators
Semi-conductors: electricity is conducted but lessEasily than in conductors (What uses semi-conductors?)
Insulators: don’t conduct electricity. PCBs are insulatorsPCB = polychlorinated biphenols Hudson river and PCBsWhy did General Electric manufacture PCBs in large amounts?
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Electrical ForcePotential Energy: Applies to electrical force
Electrical Potential= Potential energy embodiedIn electrical charges: unit of potential = voltOne volt = 1 Joule per Coulomb
Potential Difference: Electrical potential energyDerived from difference in energy between positivelyAnd negatively charged parts of electrical device
Electrical current flows from negative to positiveWhy??
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Electrical CurrentElectrical current: movement of electrons from Area of electron excess (negative charge) to Area of electron deficit (positive charge)
Unit of current= amp or ampere
Types of current: direct current (DC)Alternating current (AC)
Alternating current: has a frequency in hertz (Hz)USA: 60 HzEurope: 50 HzMost devices run on AC because generators produce ACSolar homes run on DC (why?)
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Battery Driven Electrical Motor
Where is the circuitIn this picture?
What do you need to Know to determineThe direction of Current flow?
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Batteries
Inside of a flashlight with two batteries:Where is current flowing in this device?In what part is current flowing to the right?In what part is current flowing to the left?
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Components of a Battery
1)Two electrodes (or terminals) 2) Submerged in an electrolyte
Electrolytes allow a chemicalReaction to occur. This chemical energy is convertedInto electrical energy by theBattery
Do batteries get warmer when they operate: why or why not?
Pb-acid Dry Cell
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Pb-acid batteriesChemical reactions:Negative electrode Pb= Pb 2+ +2e-
Pb2+ +SO4
2- = PbSO4
Positive electrode: PbO2PbO2 + SO4
2- , 4H+ + 2e- = PbSO4 + 2H20
Electrolyte is providing H+ and SO4 2-
Both are needed for the chemical reaction
Where does PbSO4 end up?
Pb acid battery: car battery stores about 2% of the energy in 1 gallonOf gasoline (seismometers in Iceland)
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Important Battery Characteristics
Overall voltage
Battery Life
Rechargable?
Energy Density (Watt hours per kilogram)
Toxicity of components
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Battery Design
First battery: invented by Volta
Zinc and Silver platesBlotting paper moistened withSalt water.
What are the electrodes?What is the electrolyte?What compounds are being formed?(Make an educated guess)
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Lemon Power Runs a Calculator
Why does this work?What part of the battery areThe lemons functioning as?
What else needs to be Present?
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Battery Characteristics (for electric cars)
What is the range derived from? Why don’t the batteries withThe highest energy density always have the greatest range?
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Types of Batteries
Range is for an electrical car with that battery. Why doesn’t theBattery with the highest energy density have the largest range?
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Electrical Vehicles
Not new: first speeding ticket for a car-given toAn electrical car(how fast was it going?)
Electric powered vehicles (Evs) Mostly powered by Pb acid batteriesBatteries take 6 to 8 hours to rechargeRange of 60 to 160 miles between charges
(sound too short a distance? 75% of private carsAre driven less than 50 miles per day)
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How an Electrical Vehicle Works
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Electrical Vehicles:Why?Big incentive: California law requiring that 10% of all new cars sold in California be zero emission vehicles (ZEVs) by 2003.
Only two types of zero emissions vehicles: bicycles and electrical cars
Are there zero emissions of CO2 when an electricalCar is used? Why or why not?
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Electrical Cars: Pros and Cons
Against: are not truly zero emissions vehiclesEmissions are just moved to the power plant
Pb acid batteries: production and use generate PbPollution-so far other batteries much too expensive
At present power plant efficiencies overall level of pollutionProduced by electrical cars: more than by hybrid cars
Pro: as power plant efficiencies improve (60% possible)Electrical vehicles will outperform present hybridsIn terms of overall emissions
Reduce urban air pollution
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Hybrid Vehicles
Hybrids are not just cars: a hybrid is any vehicleThat uses two forms of energy for propulsion
Name three types of hybrid vehicle.
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Two Hybrids on the Market
Toyotas Prius: 52 mpg city, 45 mpg highway
Hondas Insight: 61 mpg city, 70 mpg highway
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How Insight gets 70 mpg!!This is a new record!!
Combination of electrical motor and gasoline engine: thus gasoline engine smaller, runs at maximum efficiency
Gasoline engine shuts off at a stoplight
Energy from braking used to charge the battery that runs the electrical motor.
Unique aerodynamic design of car
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Emissions Reduction
Insight emits 84% fewer hydrocarbons and50% less NOx than a typical car.
Note that the Prius gets better mileage in the City than on the highway. Why?