0.9W Performance NFH Capacitor Actuated Super Energy- Saving 0.9W LED Light-Bulb Model:NANO-0.9WB 25W Incandescent lamp for drop light (Actual power consumption.

Slides:

Advertisements

Similar presentations

LIGHTING EFFICIENCY Neil Hope Taylor McKenzie. LIGHTING EFFICIENCY the amount of visible light produced for a given energy input.

Advertisements

How Architectural Engineers Impact Building Energy Use Lighting, Controls and Energy Savings.

Energy Efficient LED Lights Mohammad Alhasawi Managing Director and partner Green Tech Solutions co w.l.l. 1.

P1.3 Electrical Energy. Power Power (watts) = Energy Transferred (joules) Time (seconds) This means the more powerful something is, the more energy is.

LED Lighting Lighting the way to the future. Background Information  Light Emitting Diodes (LED) have been around for more than 40 years.  Efficiencies.

Electrical energy consumption Section 9. Lighting 40 Watts 100 Watts 60 Watts.

The Consumer Intelligence Test Saving the Earth via Choice of Light Bulb.

Electrical Energy Use in the Home

Types of lights Jack Urban.

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

Ch Electricity IV. Measuring Electricity (p )  Electrical Power  Electrical Energy.

Education Building Arizona, USA 6 High Pressure Sodium 150W each, 16,000 Lumens 12 hours per day.

Who Says Energy Efficiency Can’t be Sexy? About Us Energy + Environment  Since 1999  Decades of experience in energy efficiency  We create jobs, lower.

Warm-up Activity Think about your experience with the PhET circuit simulation that you recently completed Record in your notebook: –Two things that you.

Power. Your Utilization of Electricity Have you ever heard the word Watt before? Have you ever used the word Kilowatt before? When? When a person is speaking.

B O N N E V I L L E P O W E R A D M I N I S T R A T I O N Residential LED Recessed Down light Fixtures RTF January 4, 2011.

Question 1) You have one light which offers 12 Ω of resistance and has 2 A of current running through it. Another light offers 6 Ω of resistance, with.

By: Tosha Fegley CFL Light Bulb. History The modern fluorescent bulb was invented in the 1890’s by Peter Hewitt. It was used for photographic studios.

Power Revisited.  Power is the rate at which work is done. P = W t  Since work = a change in energy, power is the rate at which energy (changes) is.

Give me a break! How turning off the television can give your TV and the Earth a break.

Page 404 SciencePower 9. Think about it In every step between mining coal, generating electricity, transmitting it to your home and lighting a lamp some.

Electrical Efficiency. Electrical Efficiency Electrical Energy Consumption: the amount of electrical energy used.

Power and Energy. Power Electric power - the rate at which electric energy is transformed into another form of energy such as light or heat. P=IV P =

Do Now (10/10/13): What do Watts measure?

Power and Energy Calculations. Power Ratings Power is the rate that an electrical device converts electrical energy into another form (ex. light or heat)

ITALY How do we save energy?.

Efficiency Efficiency = Useful energy output X 100% Energy Input Energy Input.

Efficiency Energy for the Future From the Lab to the Marketplace: The Role of California’s Energy Policies California Lighting and Technology Center 2.

Electrical Power & Efficiency.  I will be able to calculate cost to operate and percent efficiency of various devices.

Earth’s Changing Environment Lecture 19 Lighting Efficiency Problem.

Calculating Energy Use and Converting Units Chapter 2.

Watt’s Up?! Solar Panel Activity  Goal: Have students calculate the percentage of energy provided by the solar panels to the school  Part I: Collect.

Energy Consumption Energy consumption is measured in kilowatt. hours. A kilowatt hour is the amount of energy being consumed per hour. –Energy (kwh) =

Energy Management At Home & School. Saving Energy (K-1) Building Buddies (2-3) Monitoring & Mentoring (4-6) Learning & Conserving (7-12)

Fluorescent ‘energy saving’ bulb. Connection with particle physics The electron collides with the atom of Hg and excites it The Hg atom returns to its.

Energy Efficiency.

Lighting Efficiency. Lighting Efficiency Problem Suppose that 25 incandescent light bulbs rated at 100 Watt are replaced by 25 fluorescent lamps rated.

Page 404 SciencePower 9. Think about it In every step between mining coal, generating electricity, transmitting it to your home and lighting a lamp some.

Electrical power pg. 49. Objectives Use the equation for electrical power to solve circuit problems. Understand basic concepts for home electricity usage.

ENERGY CONSERVATION USING LED ILLUMINATION Multi Unit Condo Area Copyright © 2014 MicroE3,LLC All rights reserved. No part of this publication may be reproduced.

Heat Given Off by Halogen, LED, and CFL light bulbs Group # Period Names:

An Alternate to Alternative Energy microE 3,LLC Copyrighted, 2013, microE3,LLC Robert S Donaldson.

Electricity Cost Problems- Formulas. Example Questions Electricity Costs 14.7 cents/kWh. If my total bill is $38.22, how many kWh were used? G Rate =

Buying electricity. Calculating the units of electricity The amount of electrical energy (i.e. the amount of electricity) used by an appliance depends.

UTA Environmental Improvement Projects UTA Air Emission Reduction Project 1)The UTA Rideshare Vanpool program reduces air emissions by:  Single passenger.

Energy Calculations Revision Energy = Power x Time (Joule) (Watt) (Second) Energy Power x Time Example 1: How much energy does a 40 Watt bulb use in 2.

Electrical Power and Cost of Electricity

Electrical Systems Series Circuits Parallel Circuits Electrical Power.

ENERGY JEOPARDY!.

BioBulbs Clean Energy.

“My friend power has been super stressed all week

Calculating Energy Costs

Electrical Calculations

Electricity Calculations:

Energy Cost Calculations

Natural Sciences and Technology Grade 6

IV. Measuring Electricity

ENERGY CONSERVATION.

Energy Consumption at Home

Electrical power & efficiency

Ch Electricity II. Electric Current (p ) Circuit

Power Consumption & Cost

can be used with current lighting fixtures

Power consumption.

Comparing Efficiency VS.

Cost of Electricity & Energy Usage Energy Use Recall: Measured in Watts (W) Electrical power is the rate at which electrical energy is produced.

P08424: Residential Energy Savings

Presentation transcript:

0.9W Performance NFH Capacitor Actuated Super Energy- Saving 0.9W LED Light-Bulb Model:NANO-0.9WB 25W Incandescent lamp for drop light (Actual power consumption is 35W) 25W Incandescent drop light Daily Power Consumption (Calculation based on 12 hr daily usage) 0.9W×12H = 10.8W 35W×12H = 420W Yearly Power consumption 10.8W×365 days = 3.942KWH 420W×365 days = 153.3KWH Yearly Electric Bill3.942KWH xUS$0.13/KWH = US$ KW x US$0.13/KWH = US$19.93 Yearly Electricity Bill Comparison Compared with 25W Incandescent lamp, it can save US$ US$0.513 = US$19.42 a year. Warranty/Life expectancy 3 years warranty (life expectancy 10 years) Use less than one year Model:NANO-0.9WB

1.8W Performance NFH Capacitor Actuated Super Energy-Saving 1.8W LED Light-Bulb Model:NANO-1.8WB 5W high power LED (Actual power consumption is 6W) Daily Power Consumption (Calculation based on 12 hr daily usage) 1.8W×12H = 21.6W 13W×12H = 156W 6W×12H = 72W Yearly Power consumption 21.6W×365 days = 7.884KWH 156W×365 days = 56.94KWH 72W×365 days = 26.28KWH Yearly Electric Bill7.884KWH xUS$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$3.42 Yearly Electricity Bill Comparison 1.Compared with the 11W Energy-Saving Bulb, savings are US$7.4- US$1.025 = US$6.375 a year. 2.Compared with 5W high power LED, savings are US$3.42- US$1.025 = US$2.395 a year. Warranty/Life expectancy 3 years warranty (life expectancy 10 years) Use less than one yearOne year warranty (1-2 year use only) 11W Energy-Saving Bulb (Actual power consumption is 13W) Model:NANO-1.8WB

3.5W Performance NFH Capacitor Actuated Super Energy Saving 3.5W LED Light Bulb Model:NANO-3.5WB 27W Energy-Saving Bulb (actual power consumption is 30W) 8W high power LED (Actual power consumption is 10W) Daily Power Consumption (Calculation based on 12 hr daily usage) 3.5W×12H = 42W 30W×12H = 360W 10W×12H = 120W Yearly Power consumption 42W×365 days = 15.33KWH 360W×365 days = 131.4KWH 120W × 365 days = 43.8KWH Yearly Electric Bill 15.33KWxUS$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$5.694 Yearly Electricity Bill Comparison 1. Compared with 27W Energy-Saving Bulb, savings are US$ US$1.993 = US$ a year 2.. Compared with 8W high power LED, savings are US$ US$1.993 = US$3.701 a year Warranty/Life expectancy 3 years warranty (life expectancy 10 years) Use less than one yearOne year warranty (1-2 year use only) Model:NANO-3.5WB

4.8W Performance NFH Capacitor Actuated Super Energy Saving 4.8W LED Light-Bulb Model:NANO-4.8WB 20W Inductive Fluorescent (actual power consumption is 30W ) 40W Energy-Saving Bulb (actual power consumption is 50W ) 100W Incandescent Lamp Daily Power Consumption (Calculation based on 12hr daily usage) 4.8W×12H = 57.6W 30W×12H = 360W 50W×12H = 600W 100W×12 = 1200W Yearly Power consumption 57.6W × 365 days = KWH 360W × 365 days = 131.4KWH 600W × 365 days = 219KWH 1200W × 365 days = 438KWH Yearly Electric Bill KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$56.94 Yearly Electricity Bill Comparison 1. Compared with 20W fluorescent, Savings are US$ US$2.733 = US$14.35 a year. 2. Compared with 40W Energy-Saving Bulb, Savings are US$ US$2.733 = US$25.74 a year. 3. Compared with 100W incandescent lamp, Savings are US$ US$2.733 = US$54.21 a year. Warranty/Life expectancy 3 years warranty (Life expectancy 10 years) Use less than one year Model:NANO-4.8WB

6.5 W Performance NFH Capacitor Actuated Super Energy- Saving 6.5 W LED Light- Bulb Model:NANO-6.5WB 40W Inductive Fluorescent (actual power consumption is 60W) 50W Energy- Saving Bulb (actual power consumption is 60W) 100W Incandescent Lamp Daily Power Consumption (Calculation based on 12hr daily usage) 6.5W×12H = 78W 60W×12H = 720W 100W×12H = 1200W Yearly Power consumption 78W×365 days = 28.47KWH 720W × 365 days = 262.8KWH 1200W × 365 days = 438KW Yearly Electric Bill 28.47KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$ KW x US$0.13/KWH = US$56.94 Yearly Electricity Bill Comparison 1. Compared with 40W fluorescent, Savings are US$ US$3.7 = US$30.46 a year. 2. Compared with 50W Energy-Saving Bulb, Savings are US$ US$3.7 = US$30.46 a year. 3. Compared with 100W incandescent lamp, Savings are US$ US$3.7 = US$53.24 a year. Warranty/Life expectancy 3 years warranty (Life expectancy 10 years) Use less than one year Model:NANO-6.5WB