18.5.09

Energy Myths

Following is a list of myths about energy and energy savings. Sometimes the basic premise is correct, but the energy savings are much smaller than people realize. In other cases the myth is based on factors that were once true but have been subsequently resolved through better design or manufacturing of products.

Energy efficiency and energy conservation are one and the same thing.
Well-intentioned information campaigns during oil crises of the 1970's created a lot of confusion about how to save energy and even about how to talk about saving energy. Energy efficiency means getting a job done with less energy. This could be lighting a room, cooling a house, or refrigerating some vegetables. The things made possible by using energy are sometimes called "energy services," e.g. illumination, comfort, or food preservation. Energy conservation, on the other hand, means reducing the level of services, e.g. reducing lighting or comfort or turning up the temperature of your fridge. Reducing service levels (conservation) does not necessarily mean sacrifice, however. For example, many spaces are over-lit by current-day standards, water heater temperature are set too high, etc. Consumers have the option of improving energy efficiency (e.g. by purchasing better appliances) and/or reducing service levels, but lowering the quality of life is not a prerequisite for reducing energy demand.


Duct tape is good for sealing ducts.
Unfortunately, laboratory research has concluded that duct tape has very low durability when used to seal ducts. On new installations, tape may fall off due to poor surface preparation, because ducts are installed in dirty and dusty locations and conditions. On older systems, the tape falls off as it ages and the adhesive dries out and tends to wrinkle.


When my appliance is turned off, it's off.
In fact, we've found that most devices continue to consume power when they're switched off, sometimes as much power as when they're on!


Cleaning refrigerator coils saves energy.
While this seems intuitively logical, and very small savings may indeed arise, efforts to actually measure this effect have typically come up empty-handed.


Installing foam gaskets in electrical outlets will significantly reduce air leakage.
Measurements have shown that less than 1% of a home's air leakage is due to outlets.


Leaving lights, computers, and other appliances on uses less energy than turning them off and makes them last longer
The small surge of power created when some devices are turned on is vastly smaller than the energy used by running the device when it's not needed. While it used to be the case that cycling appliances and lighting on and off drastically reduced their useful lifetimes, these problems have been largely overcome through better design.


Energy efficiency increases the first cost of houses.
This is not necessarily the case. Market data have shown, for example, that there is little or no correlation between refrigerator efficiency and purchase price. In some instances, efficiency can even reduce first cost as in the case where smaller ("downsized") heating and cooling systems can be installed if they're highly efficient. Smaller units with high efficiency generate as much heating or cooling benefit as large, inefficient ones.


Insulating the ceiling will just cause more heat to leak out of the windows.
Adding insulation to one part of a home won't increase the "pressure" on heat losses through other parts. However, it is certainly true that poorly insulated areas will be the major loser of heat and they often merit attention before improving already well-insulated parts of the home.


Switching to electric room heaters will reduce your energy bill.
This is true only under some circumstances. If you have central electric heating, the using room heaters will most likely save you money. But, if you have central gas heating (which is far cheaper per unit of useful heat) you can easily match or even exceed your heating bill by switching to electrical units.


Fluorescent lighting is unhealthy.
Fluorescent lighting has changed dramatically in the last few years. Today's fluorescents have greatly improved color quality. And the annoying flicker and hum have been eliminated from fluorscents that use electronic incandescent lighting. Because they require less electricity, fluorescents generate less power plant pollution, emissions which have many known health effects. (Fluorescent lights also contain small amounts of mercury and should be disposed of properly.) However, additional mercury releases are avoided thanks to reduced use of mercury-containing fossil fuels used to generate electricity. If it's been a while since you tried fluorescent lights, you might give them another chance.


Halogen lighting is super-efficient.
It's true that halogen lights use slightly less energy than standard incandescent bulbs, but halogens require transformers that can use extra energy, even when the light is off. They are also a fire hazard. By comparison, compact flourescent lights are nearly three-times as efficient and don't pose a fire hazard. Many new models are dimmable, like halogens.


Electric heating is more efficient than fuel-based heating.
It's true that all, or almost all, of the electricity that goes into an electric heater is transformed to useful heat in your home. However, making electricity is an inefficient process, with as much as two-thirds of the input energy (coal, natural gas, etc.) being lost in the process. This is why electricity is so much more expensive for the consumer than direct fuels.

Source: http://www.greenhome.com/info/articles/save_energy/85/