1. Area V: Energy Resources, Consumption VF: Energy Efficiency

2. 18-1 Improving Energy Efficiency energy efficiency: measure of useful energy produced compared to energy converted to low-quality heat energy  energy efficiency can be improved through technology example: fluorescent bulbs (20% efficient) vs. incandescent bulbs (5% efficient)  about 84% of all commercial energy used in the U.S. is wasted 41% due to degradation imposed by the 2nd law of thermodynamics

3. 18-1 Improving Energy Efficiency energy efficiency, cont.  commercial energy, cont. 43% of the energy is unnecessarily wasted by such things as motor vehicles, furnaces, and living and working in leaky, poorly designed buildings  that’s as much energy as two-thirds of the world’s population consumes!  cycle cost (initial cost plus lifetime operating costs) is an important factor in making a buying decision

4. Fig 18-3 Flow of energy in U.S. economy

6. 18-1 Improving Energy Efficiency energy efficiency, cont.  between 1970 and 2003, the U.S. has reduced the amount of energy used per person and has cut U.S. energy bills by $275 billion a year; unnecessary energy waste still costs the U.S. about $300 billion a year  4 commonly used energy devices’ waste: incandescent light bulb (95% waste) nuclear power plant (86–92% waste) internal combustion engine (75–80% waste), coal-burning power plant (66% waste)

7. Fig 18-4 Energy use per person in U.S.

8. Fig 18-5 Energy efficiencies

9. 18-1 Improving Energy Efficiency net energy efficiency: measure of the useful energy we get from a resource after subtracting the energy used and wasted to make energy available  includes efficiency of each step in the process of making energy available for use  nuclear power plant: 14% of initial energy produced is useful  passive solar heating: 90%

10. Fig 18-6 Net energy efficiency

11. 18-1 Improving Energy Efficiency net energy efficiency, cont.  two general principles for saving energy are: keep the number of steps in an energy conversion process as low as possible strive to have the highest possible energy efficiency for each step in an energy conversion process

12. 18-2 Ways to Improve Energy Efficiency industry cogeneration, a combination of heat and power systems, saves energy and money  same fuel source produces both steam and electricity; 9% of U.S. electricity production replace energy-wasting electric motors with adjustable speed drive motors switch from incandescent to fluorescent lighting

13. 18-2 Ways to Improve Energy Efficiency transportation increase fuel efficiency of motor vehicles  between 1973 and 1985, fuel efficiency rose sharply for new cars sold in the U.S. due to government-mandated standards  between 1985 and 2004, the average fuel efficiency for new cars sold in the U.S. leveled off or declined slightly  fuel-efficient cars are available, but gasoline prices in the U.S. are low; preference for larger vehicles, no new standards

14. Fig 18-7 Average fuel economy

15. 18-2 Ways to Improve Energy Efficiency transportation, cont. increase fuel efficiency, cont.  if the average car got 40 miles/gallon within 10 years: gasoline consumption would be cut in half save three times the oil in the U.S. current proven oil reserves eliminate all current oil imports to the U.S. from the Middle East

16. Fig 18-8 Real price of gasoline

17. 18-2 Ways to Improve Energy Efficiency transportation, cont. hybrid-electric vehicles have a battery and a small internal combustion engine to recharge the battery  this vehicle runs on gas, diesel fuel, or natural gas PLUS a small battery  such cars have been available from Toyota since 1997, and Honda and Nissan since 2000  sales projected to grow rapidly between 2010 and 2030  trucks and SUVs are not safer (?)

18. Fig 18-9 Hybrid gas-electric vehicle

19. 18-2 Ways to Improve Energy Efficiency transportation, cont. fuel-cell vehicles burn hydrogen fuel; H fuel combines with oxygen in the air to produce electrical energy and water vapor  fuel cells are at least twice as efficient as internal combustion engines  they have no moving parts and require little maintenance  they produce little or no pollution  affordable fuel-cell vehicles should be on the market by 2020

20. Fig 18-10a Fuel cell car

21. Fig 18-10b Fuel cell

22. 18-2 Ways to Improve Energy Efficiency transportation, cont. fuel-cell vehicles, cont.  the fuel-cell car is expected to have a fuel efficiency equivalent to more than 100 mpg  hydrogen gas stations will need to be built or perhaps a fuel-cell system may be available for home use  one problem is how to get the hydrogen efficiently

23. Fig 18-11 Prototype Hy-Wire car

24. 18-2 Ways to Improve Energy Efficiency new buildings get heat from the sun, super insulate, and initiate plant-covered ecoroofs  Atlanta’s Georgia Power Company building uses 60% less energy than conventional office buildings of the same size each floor extends out over the floor below it to block out the summer sun and let in the winter sun lights focus on desks, not the entire room

25. Georgia Power building

27. 18-2 Ways to Improve Energy Efficiency new buildings, cont. green buildings, cont.  ING Bank in the Netherlands built a headquarters that uses 92% less energy than conventional buildings  the U.S. Green Building Council has certified 89 office or apartment buildings, etc. since 2001 as meeting strict environmental design standards

28. ING headquarters in Netherlands

29. 18-2 Ways to Improve Energy Efficiency new buildings, cont. green buildings, cont.  Green Councils LEED program established building standards used by more and more architects, developers, and elected officials in the U.S.  a super insulated house is another energy efficient design cost savings in 5 years in Sweden, these homes use 90% less energy than a typical American home

30. Fig 18-12 Superinsulated house

31. 18-2 Ways to Improve Energy Efficiency new buildings, cont. green buildings, cont.  strawbale houses use walls made of compacted straw covered with plaster or adobe  ecoroofs or green roofs are covered with plants, provide good insulation, absorb storm water, outlast conventional roofs, and make a building more energy efficient

32. Fig 18-13a Strawbale house during

33. Fig 18-13b Strawbale house after

34. 18-2 Ways to Improve Energy Efficiency existing buildings insulating, plugging leaks, using energy- efficient heating and cooling systems, appliances, and lighting  about one-third of heated air escapes through closed windows, holes, and cracks  energy-efficient windows with low-E (low- emissivity) cut heat losses by two-thirds and reduce CO2 emissions  wrapping ducts in attics and basements

35. Fig 18-14 Heat loss

36. 18-2 Ways to Improve Energy Efficiency existing buildings, cont. improving existing buildings, cont.  in order, these are the most energy-efficient methods to heat space: superinsulation a geothermal heat pump passive solar heating a conventional heat pump (in warm climates only) a high efficiency natural gas furnace

37. Fig 18-15 Heating a house

38. 18-2 Ways to Improve Energy Efficiency existing buildings, cont. improving existing buildings, cont.  microturbines are cogeneration units about the size of a refrigerator that run on natural gas or liquified petroleum gas (LPG) to produce heat and electricity; save fuel and electricity  heat water more efficiently by use of a tankless instant water heater fired by natural gas or LPG – NOT electricity; last 3–4 times longer and cost less to operate

39. Fig 18-16 Passive and active solar heating

40. 18-2 Ways to Improve Energy Efficiency existing buildings, cont. improving existing buildings, cont.  use energy-efficient appliances the Department of Energy (DOE) has set federal energy-efficiency standards for more than 20 appliances; environmental benefits are conservatively estimated at $60–80 billion  use energy-efficient lighting; it could cut electricity cost by 30–60%

41. 18-2 Ways to Improve Energy Efficiency existing buildings, cont. improving existing buildings, cont.  use more efficient white-light LEDs (light- emitting diodes) and organic LEDs; these bulbs last 80 times longer than incandescent ones  cut off electrical devices when not using them, and cut off the instant-on features in TVs, cable boxes, DVDs, computers, etc.  set strict energy-efficiency standards for new buildings; could reduce energy usage per home by about two-thirds

42. 18-2 Ways to Improve Energy Efficiency pricing a glut of low-cost oil and gasoline are part of the reason for energy wastage; the price does not include the harmful costs  government tax breaks and other economic incentives for consumers and businesses would help promote improving energy efficiency  invest in improving the energy efficiency of one’s home