Presentation is loading. Please wait.

Presentation is loading. Please wait.

Introduction Hi, y’all, – I’m leaving in the morning, so I didn’t get to spend as much time on this as I would have liked – Please let me know if you find.

Published byNickolas McKenzie Modified over 8 years ago

Similar presentations

Presentation on theme: "Introduction Hi, y’all, – I’m leaving in the morning, so I didn’t get to spend as much time on this as I would have liked – Please let me know if you find."— Presentation transcript:

1 Introduction Hi, y’all, – I’m leaving in the morning, so I didn’t get to spend as much time on this as I would have liked – Please let me know if you find it useful – Suggestions for improvement are welcome

2 Lesson 1 Before beginning this lesson, please read “Electrical Needs Assessment” with the glossary, and “The Vocabulary of Electrical Power

3 Contents Review of terms and relationships Sample Problems Skill building problems Answers to skill building problems

4 Review of terms and relationships Current is the flow of charges – Measured in amps (short for amperes ) Voltage is the electrical potential – Measured in volts Power is the rate at which energy is used – Measured in watts – 1 watt = 1 amp * 1 volt

5 Mechanical Power vs. Electrical Power A gasoline engine’s power is measured in horsepower – 1 horsepower = 746 watts

6 Energy Energy is what a photovoltaic cell captures Energy is what a pump, motor, or light uses Energy = Power * time – Measured in watt-hours

7 AC vs. DC The power produced by batteries and PV panels is DC (for Direct Current) DC current flows in one direction AC current changes direction tens of times a second

8 AC vs. DC power In a solar power system, DC power goes in to an inverter; and AC power comes out of an inverter. The inverter has electrical losses. – When you know the AC watts, add 15% to find how many DC watts will have to be supplied

9 Sample Problem 1 A 23 watt CFL (compact fluorescent light) puts out as much light as a 100 watt incandescent bulb. How much energy does each bulb use if it burns for 8 hours a night?

10 Answer to Sample Problem 1 A 23 watt CFL (compact fluorescent light) puts out as much light as a 100 watt incandescent bulb. Both bulbs use 120 volt AC power, how much energy does each bulb use if it burns for 8 hours a night? This is a straight “plug in the numbers” problem CFL: 23 watts * 8 hours = 184 watt-hours Inc: 100 watts * 8 hours = 800 watt-hours

11 Sample Problem 2 A CFL bulb uses 184 watt-hours a night An incandescent bulb uses 800 watt-hours a night How many hours of sunlight are needed on a 300 watt PV array to provide the energy to light the bulbs for a night?

12 Answer to sample problem 2 PV panel watts are DC, the lights are AC – CFL: 184 watt-hours AC * 1.15 = 212 watt-hours DC – Inc: 800 watt-hours AC* 1.15 = 920 watt-hours DC (* 1.15 adds 15 %) Since Energy = Power * time, time = Energy / Power CFL: 212 watt-hours/300 watts = 0.71 hour, or 42 minutes Inc: 920 watt-hours/300 watts = 3.1 hours, or 3 hours and 4 minutes

13 More on problem 2 It takes 42 minutes for a 300 watt panel to gather enough energy to run a 23-watt CFL bulb for 8 hours It takes 3 hours and 4 minutes for a 300 watt panel to gather enough energy to run a 100- watt incandescent bulb for 8 hours. Solar 1 grads will work with the OP’s to reduce their energy demands while meeting the OP’s needs.

14 Sample problem 3 A CFL bulb uses 184 watt-hours a night An incandescent bulb uses 800 watt-hours a night How many amp-hours will each bulb draw from a 24-volt, 225 amp-hour battery in one night?

15 Answer to sample problem 3 From sample problem 2, the CFL needs 212 watt- hours DC and The incandescent bulb needs 920 watt-hours DC Since watts = volts*amps, amps= watts/volts CFL: 212 watt-hours/24 volts = 8.8 amp-hours Inc: 920 watt-hours/24 volts = 38.3 amp-hours Another reason to use CFL’s!

16 Skill Building Problem 1 If a 310 watt PV panel array puts out 5.5 amps, what voltage is the PV panel providing?

17 SBP 2 An AC air conditioner uses 1,500 watts. If a site gets 5 hours of sunlight a day, how big should the PV array be to run the air conditioner for 3 hours?

18 SBP 3 Conduct an “electrical needs assessment” in 1 room in your home – That is, find the number of watt-hours of energy per week that is used in one room in your home

19 Answer to SBP 1 If a 310 watt PV panel array puts out 5.5 amps, what voltage is the PV panel providing? Since watts = volts * amps, volts = watts/amps 310 watts/ 5.5 amps = 56 volts

20 Answer to SBP 2 An AC air conditioner uses 1,500 watts. If a site gets 5 hours of sunlight a day, how big should the PV array be to run the air conditioner for 3 hours? 1500 watts AC * 1.15 = 1725 watts DC 1725 watts * 3 hours = 5175 watt-hours 5175 watt-hours/ 5 hours = 1035 watts

Download ppt "Introduction Hi, y’all, – I’m leaving in the morning, so I didn’t get to spend as much time on this as I would have liked – Please let me know if you find."

Similar presentations

Mrs. Cockrell PAP Physics

Mrs. Cockrell PAP Physics
ERA SOLAR PRODUCTS ERA Renewable Energy. Solar energy is the ultimate source of energy from millions of years and it is a renewable energy. This energy.

ERA SOLAR PRODUCTS ERA Renewable Energy. Solar energy is the ultimate source of energy from millions of years and it is a renewable energy. This energy.
Energy Accountability You: The Consumer. Making the shift from Red to Green. JR. ACE Program 1.

Energy Accountability You: The Consumer. Making the shift from Red to Green. JR. ACE Program 1.
Rooftop Solar Systems Rooftop Solar System (Off-Grid) Reliance Solar Energy™, Ratnagiri.

Rooftop Solar Systems Rooftop Solar System (Off-Grid) Reliance Solar Energy™, Ratnagiri.
Electricity Preview Understanding Concepts Reading Skills

Electricity Preview Understanding Concepts Reading Skills
Quarter 3 Test 2 Review. 1 Typically, household appliances operate at 120 volts. What is the current flowing in the circuit of a microwave when the resistance.

Quarter 3 Test 2 Review. 1 Typically, household appliances operate at 120 volts. What is the current flowing in the circuit of a microwave when the resistance.
What is Electricity? Electricity is the flow of moving electrons. When the electrons flow it is called an electrical current.

What is Electricity? Electricity is the flow of moving electrons. When the electrons flow it is called an electrical current.
ELECTRIC CURRENT TEST REVIEW. A. Series B. Parallel C. BothD. Neither 1. C Potential difference and current are directly related. 2. A A(n) _____ circuit.

ELECTRIC CURRENT TEST REVIEW. A. Series B. Parallel C. BothD. Neither 1. C Potential difference and current are directly related. 2. A A(n) _____ circuit.
Household Electricity

Household Electricity
Power and Energy. Power Power means work over a time period Units = Watts Electric power is measured in Watts.

Power and Energy. Power Power means work over a time period Units = Watts Electric power is measured in Watts.
Electricity Compare AC and DC electrical current and understand their important differences Explain the relationship between volts, amps, amp-hour, watts,

Electricity Compare AC and DC electrical current and understand their important differences Explain the relationship between volts, amps, amp-hour, watts,
Power and Electricity Cost Physics. Electric Power The proportional rate of the amount of current being sent through a circuit to the amount of voltage.

Power and Electricity Cost Physics. Electric Power The proportional rate of the amount of current being sent through a circuit to the amount of voltage.
Electric Power, AC, and DC Electricity

Electric Power, AC, and DC Electricity
Circuits & Electronics

Circuits & Electronics
Macro-Scale Photovoltaic Technology An Introduction.

Macro-Scale Photovoltaic Technology An Introduction.
Circuits. Reviewing terms Series and Parallel Circuits Key Question: How do series and parallel circuits work?

Circuits. Reviewing terms Series and Parallel Circuits Key Question: How do series and parallel circuits work?
EGR100- Engineering Seminar Going Solar in the Park.

EGR100- Engineering Seminar Going Solar in the Park.
Batteries Storing Renewable Energy “Chemical engines used to push electrons around”

Batteries Storing Renewable Energy “Chemical engines used to push electrons around”
Designing Solar PV Systems (Rooftops ). Module 1 : Solar Technology Basics Module 2: Solar Photo Voltaic Module Technologies Module 3: Designing Solar.

Designing Solar PV Systems (Rooftops ). Module 1 : Solar Technology Basics Module 2: Solar Photo Voltaic Module Technologies Module 3: Designing Solar.
Electric Circuits A circuit is a path where a current can flow If the flow is to be continuous, the can be no gaps in the path Introduce gaps in the form.

Electric Circuits A circuit is a path where a current can flow If the flow is to be continuous, the can be no gaps in the path Introduce gaps in the form.

Similar presentations

Ads by Google