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Energy Efficiency And Renewable Energy Revolution

Subject : science

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Collectors absorb energy and a fan or pump supplies part of the building's space heating
Large scale hydropower
Active Solar Heating System
Solar Thermal plant
Dry Steam

2. Pumps using surplus electricity from a powerplant pump water from one lake to another
Pumped Storage hydropower
solar-hydrogen revolution
Energy Efficiency
Micropower systems

3. Steam with no water droplets
Pumped Storage hydropower
Fuel Cell
Dry Steam
Solar Thermal plant

4. Where hydrogen and oxygen are combined to produce electrical currents - have no moving parts - are quiet - only emit water or heat - and are more reliable
OTEC
Large scale hydropower
Life cycle cost
Fuel Cell

5. Use of passive solar energy and solar cells
OTEC
Green design
Life cycle cost
Dry Steam

6. Low dam is built across a stream
Reforming
Small scale hydropower
Cogeneration
Micropower systems

7. Started at the end of the Age of Oil
Pumped Storage hydropower
solar-hydrogen revolution
Parabolic Dish Collectors
Solar Thermal plant

8. Collect and transform radiant energy from the sun into thermal energy that can be converted to electricity
Fuel Cell
Parabolic Dish Collectors
Passive Solar Heating System
Solar Thermal Systems

9. Combined heat and power CHP - two useful materials are produced from the same fuel source.
Active Solar Heating System
Small scale hydropower
Cogeneration
Solar Thermal Systems

10. Use bowls basically to store sunlight
Large scale hydropower
Small scale hydropower
Parabolic Dish Collectors
Strawbale houses

11. Organic material that can be used as fuels
Biofuels
Small scale hydropower
Large scale hydropower
Micropower systems

12. Dam is built across a large river to create a resevoir - uses turbines
Strawbale houses
Large scale hydropower
DOE
We steam

13. Collectors absorb energy and a fan or pump supplies part of the building's space heating
Small scale hydropower
Active Solar Heating System
Compressed gas storage tanks
Strawbale houses

14. Use of passive solar energy and solar cells
Strawbale houses
Large scale hydropower
Small scale hydropower
Green design

15. Corporate Average Fuel Economy
Solar Thermal plant
CAFE
Large scale hydropower
Geothermal

16. Absorbs and stores heat from the sun directly within a structure. Example is greenhouse
Passive Solar Heating System
We steam
Active Solar Heating System
Small scale hydropower

17. Energy from heat contained in underground rocks
Geothermal
Green design
Passive Solar Heating System
Biofuels

18. Use bowls basically to store sunlight
Geothermal
Dry Steam
Net Energy Efficiency
Parabolic Dish Collectors

19. Energy efficient smaller technology to be used in every day life
Micropower systems
Large scale hydropower
Solar Thermal plant
Biofuels

20. Energy of the entire delivery process - determined by efficiency of each step of the procedure
Reforming
Green design
Energy Efficiency
Net Energy Efficiency

21. The percentage of total input into a conversion device or system that does useful work and is not converted to useless heat
Energy Efficiency
OTEC
OTEC
Green design

22. Homes with walls made of bales covered with plaster or adobe
Strawbale houses
PV
OTEC
Net Energy Efficiency

23. Dam is built across a large river to create a resevoir - uses turbines
Energy Efficiency
Compressed gas storage tanks
Dry Steam
Large scale hydropower

24. Organic material that can be used as fuels
Biofuels
Dry Steam
CAFE
solar-hydrogen revolution

25. Low dam is built across a stream
OTEC
Small scale hydropower
Biofuels
Large scale hydropower

26. Collect and transform radiant energy from the sun into thermal energy that can be converted to electricity
Micropower systems
Solar Thermal Systems
OTEC
Parabolic Dish Collectors

27. Mixture of steam and water droplets
Net Energy Efficiency
We steam
Cogeneration
Dry Steam

28. Initial cost plus lifetime opperating cost
Solar Thermal Systems
OTEC
Life cycle cost
Micropower systems

29. Where hydrogen and oxygen are combined to produce electrical currents - have no moving parts - are quiet - only emit water or heat - and are more reliable
Parabolic Dish Collectors
Fuel Cell
Pumped Storage hydropower
Small scale hydropower

30. Ocean Thermal Energy Conversion
OTEC
Energy Efficiency
We steam
Parabolic Dish Collectors

31. Mixture of steam and water droplets
Cogeneration
Green design
DOE
We steam

32. Started at the end of the Age of Oil
solar-hydrogen revolution
Fuel Cell
Green design
Small scale hydropower

33. Energy efficient smaller technology to be used in every day life
Energy Efficiency
Micropower systems
CAFE
We steam

34. The percentage of total input into a conversion device or system that does useful work and is not converted to useless heat
Energy Efficiency
Net Energy Efficiency
Dry Steam
Pumped Storage hydropower

35. Absorbs and stores heat from the sun directly within a structure. Example is greenhouse
Solar Thermal plant
Cogeneration
Solar Thermal plant
Passive Solar Heating System

36. Central retriever system that uses mirrors to collect heat
Dry Steam
Pumped Storage hydropower
Reforming
Power tower

37. Department of Energy
Compressed gas storage tanks
Life cycle cost
Net Energy Efficiency
DOE

38. Photovoltaic cells - or solar cells. Transparent wafer with a semiconductor material hanging and creates an electrical current
Solar Thermal Systems
Geothermal
OTEC
PV

39. Stores hydrogen above or below ground - very expensive
Passive Solar Heating System
Micropower systems
Compressed gas storage tanks
solar-hydrogen revolution

40. Steam with no water droplets
Dry Steam
Energy Efficiency
Small scale hydropower
Large scale hydropower

41. Produces hydrogen by using chemical processes and high temperatures to seperate hydrogen atoms from carbon
Green design
Reforming
Large scale hydropower
Pumped Storage hydropower

42. Energy of the entire delivery process - determined by efficiency of each step of the procedure
Net Energy Efficiency
solar-hydrogen revolution
Passive Solar Heating System
Solar Thermal plant

43. Initial cost plus lifetime opperating cost
Passive Solar Heating System
Cogeneration
Life cycle cost
Net Energy Efficiency

44. Photovoltaic cells - or solar cells. Transparent wafer with a semiconductor material hanging and creates an electrical current
Biofuels
Passive Solar Heating System
Net Energy Efficiency
PV

45. Pumps using surplus electricity from a powerplant pump water from one lake to another
Micropower systems
Life cycle cost
Micropower systems
Pumped Storage hydropower

46. Distributed reciever system with sunlight collected and focused on pipes
Active Solar Heating System
DOE
Solar Thermal plant
CAFE

47. Corporate Average Fuel Economy
We steam
Compressed gas storage tanks
Fuel Cell
CAFE

48. Produces hydrogen by using chemical processes and high temperatures to seperate hydrogen atoms from carbon
Reforming
Green design
Geothermal
Dry Steam

49. Distributed reciever system with sunlight collected and focused on pipes
Solar Thermal plant
Power tower
Solar Thermal Systems
Parabolic Dish Collectors

50. Central retriever system that uses mirrors to collect heat
Power tower
Reforming
Strawbale houses
Biofuels