Energy Savings Target Chart

Energy Savings Target Chart

The U.S. is set to construct roughly 60 billion square feet of new buildings by 2030. But when Edward Mazria of Architecture 2030 looked at projections for electricity consumption in those buildings, he found something surprising: energy needs are actually falling. In theory, that means we won't need to develop new power plants to service those buildings. (Source: Greentech Media, Steven Lacy)

LED Bulbs Can Look and Function Just Like Regular Incandescent

LED Bulbs Can Look and Function Just Like Regular Incandescent

It becomes an even more powerful proposition, and more important to our national security, economy and environment, when we use the power of efficiency to replace oil.

We can drive our cars with the energy we save in our home

In modern homes, there can be well over 100 light bulbs inside and outside. Gone are the days of one light bulb in the middle of the room, or one lamp fixture with one light bulb, or one porch light. Outdoor areas can become lighting masterpieces with dozens of lights in both the front and back yards set on timers illuminating for 2-6 hours per night.

Using a modern home and our lifestyle as an example, I estimate that 1/3 of those 100 light bulbs are on 4 hours a day, 1/3 are on 2 hours a day and 1/3 are seldom or never on. For an average of all the bulbs, two hours per bulb is a fair estimate. Your family or home may vary. That is 200 bulb hours per day. Assuming an average bulb rating of 60 watts, we consume 12 kwh a day, 360 kwh a month, or 4,300 kwh per year in lighting our modern well appointed home.

What happened when we switched those to LED?

The 60 watts that an incandescent bulb used was reduced to 8 watts using the LED bulb. The 200 bulb hours a day for our modern house is now reduced to 1.6 kwh per day, 48 kwh per month, or 585 kwh per year.

That’s a savings of 3,715 kwh a year switching from incandescent to LED.

Fit EV Powered by the Sun

Fit EV Powered by the Sun

With an efficient electric car like the Honda Fit EV or the upcoming BMW i3, 4.5 miles travelled per kwh is a good rule of thumb. To dive these cars a typical 12,000 miles a year requires 2,700 kwh a year. So saving 3,715 kwh via the lightbulbs, and then using 2,700 kwh to drive 12,000 miles in one car leaves us with a extra 1,000 kwh to use for our second car.

This simple example is just for lighting our home, A few months ago we replaced our 6 year old 50” plasma TV that warmed the whole living room and used $15 a month of electricity with a 50” LED that uses $15 a year. Computers, appliances, smart thermostats and every electronic gizmo in the home are all getting more efficient each year.

According to the EIA, in 2011 the average home in America used 11,280 kwh per year. (Source: EIA)

Without much effort or cost, it would be very easy for the average home dweller to save the 2,700 kwh a year to power the car in the garage 12,000 miles a year.

We are entering a new energy world where optimized efficient home construction coupled with solar PV generation, will allow for a net zero energy operations cost for both the home and the two cars in the garage, with a capitol cost of construction payoff in less than 5 years. In some parts of the country that's already a reality.

Tip: Replace the lightbulbs that you use most often first, those that you seldom or never use don't need to be replaced.

About the author:

Peder Norby is San Diego County Planning Commissioner. He and his wife, Julie, received the 2007 Energy Excellence Award from the California Center for Sustainable Energy for the construction of their net-zero energy home in Carlsbad, Ca. They have driven more than 80,000 miles powered by sunshine in their two plug-in electric vehicles.

Editor's Note: This article originally appeared on Peder's blog. You'll find this article, as well as other resourceful green information there.

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