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Even as the ice cream melts on your countertop and the fire hydrants are whistling for the dogs, there is a way to keep your house cool without using your air conditioner.  Stick a big ass fan in your attic.  A whole-house fan can save you some serious money and still keep you comfortable.

So you’re turning in for the night and the thermostat reads 80 degrees.  But the outside temperature has dropped to 68.  You’re just throwing money away if you turn on the a/c just to cool your house to 72.

Why use a whole house fan?

A whole house fan is a simple and inexpensive method of cooling your house. The fan draws cool outdoor air inside through open windows and exhausts hot indoor air through the attic to the outside.  Running a whole house fan whenever outdoor temperatures are lower than indoor temperatures will cool your house.

In summer, the air inside a home is heated during the hot part of the day. During the morning, late evening, and night, the outside air is often cooler and can be used to replace the inside air.  As daytime temperatures rise, the whole house fan can be turned off.

What are the benefits?

A whole house fan can be used as the sole means of cooling or to reduce the need for air conditioning. If both methods of cooling are present, seasonal use of the whole house fan (during spring and fall) may yield the optimum combination of comfort and cost.

Costs less to buy

• Purchase cost for a whole house fan = $150 – $650
• Purchase cost for a window unit a/c = $250 – $800
• Purchase cost of central a/c = $2,500 – $7,000

Costs less to operate

You lose money every time you turn on the a/c when you can bring in cooler outside temperatures for practically free.

• Central a/c = $0.15 – $0.43 per hour
• Window a/c = $0.18 – $0.52 per hour
• Whole house fan = a penny to a nickel per hour

Drawbacks

A whole house fan does a great job of bringing in cool outside air.  But, it can also bring in humidity, dust and pollen (and of course the smell of your friendly neighborhood skunk – but that’s how you know your fan is working) .  If you suffer from allergies, you can install allergy screens in your windows and still benefit from a whole house fan.

Selecting a whole house fan

• FAN SPEED. A two-speed fan permits the entire house to be ventilated quickly on high speed (such as when the occupants first arrive at home) and then provides gentle air circulation at the lower, quieter speed. A variable speed unit offers more flexibility in selecting the desired air movement.

• CONTROL OPTIONS. Control may be a simple on/off pull or wall switch, a multi-speed rotary wall switch, or a timer that automatically shuts off the fan at pre-selected time intervals.

• LOUVERS. Dampers or louvers typically operate automatically whenever the fan is on. Motorized dampers are available but are not necessary if the louvers are correctly installed and maintained.

• MOTOR MOUNTS AND NOISE. A direct drive unit has its fan blades attached directly to the motor shaft. This type of unit is usually less expensive to buy and operates at a higher speed than its belt-driven counterpart. A belt-driven unit typically features a motor driving a slowermoving, larger-diameter fan with four or more blades. It may be quieter, but will require maintenance of the pulley and belt.

Sizing a whole house fan

Determining the amount of airflow in cubic feet per minute (cfm) that the whole house fan should provide involves a simple calculation. Multiply the total gross square footage of the house (include upstairs area) by the ceiling height (typically 8 feet). Select a fan that delivers between one-half to one time that amount of cfm at 0.1″ static pressure. For example, a 25′ x 40′ one-story home is 1,000 square feet and would need an 8 x 1,000 x 1/2 = 4,000 cfm fan or better. A two-speed unit that delivers 4,500 cfm at the high setting (240 watts) and 3,200 cfm at low (120 watts) should be adequate.

Whole House Fan Installation – Do It Yourself

USE “H” BRACKETS TO PROVIDE PROPER SUPPORT. When installing a whole house fan, be sure to provide proper support and seal the unit into the rough opening in the ceiling. Never cut a truss chord; wooden “H” brackets installed between the trusses create a framed box to raise the fan above the truss system. The louvers must be able to open and close freely and care must be taken to prevent binding or misalignment. A fan with a 34″ base (30″ blade) will work with the dimensions shown in the diagram at left.

BUILD AN ATTIC-SIDE BOX COVER. A typical whole house fan has a 30″ diameter blade with a sheet metal cowling of 31″ to allow for blade clearance. An attic-side box cover may be constructed from a 4′ x 4′ piece of 1″ rigid fiberglass duct board. The box will be 33″ square with 1″ thick walls (inside dimension of 31″ x 31″). It will be 61/2″ deep. Adjust dimensions to actual fan size.

Note:  For a bit more money, you can find models with motorized automatic insulated doors to provide an air tight seal between the attic and living area when the unit is not in operation.

TIPS AND CONCERNS

Seal penetrations and vent attic.  Caulk all penetrations between the attic and living space, such as electrical boxes for ceiling light fixtures, loose attic hatches, large cutouts for plumbing vents, exposed beams, and recessed lights. A whole house fan creates a positive pressure in the attic; it is important that air from the attic is not forced back into the living space through cracks and gaps.

A guideline for sufficient attic vent area is one square foot of net-free vent area per 750 cfm of fan airflow. Continuous ridge and soffit vents are usually more than adequate. Vents with insect screens may have a net-free area equivalent to one-half of the total open area, depending upon the size of the holes in the screen area. Insulation should be installed directly against the fan box frame. Blown-in insulation may require the sides of the fan box to be raised (with baffles) to prevent interference.

AVOID BACKDRAFTS. Care should be taken to avoid backdrafting combustion appliances that are installed in the conditioned space. It is strongly recommended that combustion appliances NOT be installed in such a manner that they use room air for combustion. A whole house fan is capable of pulling large quantities of air from the home and, particularly if not enough windows are open, may easily backdraft a water heater located inside a louvered closet door.

Whole House Fan (PDF: 236k)

Click here to find where to buy a whole house fan

Article adapted from the Oak Ridge National Laboratory, U.S. Department of Energy, Building Technologies Program. and Southface Energy Institute

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When Architect Carol Shen decided to renovate the kitchen in a house built in 1929, she had one goal: make it look gorgeous while creating a showcase of efficiency.  In this video, she shares the sustainable technologies, strategies and materials she used in the project.

One goal was to reuse as much as possible and minimize what went into the landfill.  When choosing new wood materials, she made sure they were from certified sustainable forests and had the Forest Stewdarship Council (FSC) seal of approval.

One of the coolest features is the new induction cooktop.  Okay you primal I-need-open-fire-to-cook-with geeks, I hear you whining.  But this electric induction cooking is winning over even the most primitive naked-ape chefs.  Unlike gas or conventional electric stoves, induction cooktops send almost all of their energy into the pot.  This reduces waste heat, lowers energy cost and keeps the surrounding cooking area cool.  You can actually place your hand on the stove top next to the pot without getting burned.

The super-efficient LED lights have the same high-style appeal of the old incandescent.  But, they reduced the energy consumption from 390 watts to a meager 72 watts (a savings of over 80%!!).  In the life-cycle competition the LEDs win hands down.  The LEDs have a lifespan of 50,000 hours compared to only 1,000 hours for the incandescents.  Boo-ya-daddy.

By installing an Energy Star front loading washing machine, Carol reduced her water consumption by almost 1,000 gallons.  The front loader has the added benefit of better washing performance while being gentler on your clothes.

What you need to know:

- FSC Certified Wood

- Energy Star Appliances

- 90% energy efficient induction cooktop

- Highly energy efficient CREE LED lighting

- Low or zero-VOC paints and finishes

- Marmoleum flooring

- Maximum use of local suppliers for sustainable materials

- Cabinets made locally from FSC certified wood.  Formaldehyde-free with soy-based glues.

- Deconstruction, donation or reuse of existing cabinets, fixtures and appliances

- Improved indoor air quality and passive cooling with use of vents and windows

From re:Source

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Click here to download your FREE Federal Tax Incentive Decoder from GreenAndSave.  Also, check out the simplified Greenovation Tax Credit Guide.

The GreenAndSave team of experts read and de-coded the 400 page American Recovery and Reinvestment Act so that you wouldn’t have to. We made it simple for you to easily take advantage of these government incentives.

The American Recovery and Reinvestment Act (ARRA) signed into law by President Obama in February of 2009 has created some tremendous opportunities for homeowners. This Green De-Coder will help you uncover information regarding whatever energy efficiency improvement tactics you want to pursue, including:

* Reducing utility costs…
* Producing power…
* Financing options…
* Buying your first home…
* Buying a new car…
* Resources for state incentives…

Click here to download your FREE copy.

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Dr. Anna Marie does a “greenovation evaluation” of Terra Verde. She joins the Greenalysis team to find out what challenges she will face to make her home more energy efficient and have a healthy indoor environment.

She discovers more than just dirty lint in her dryer. She learns that she’s throwing money and energy out her 1970s windows and that her incandescent light bulbs are creating more heat than light.

Perhaps her biggest lesson is that moving her 19 year old washer out to the barn is a bad move. Retiring old appliances and replacing them with effiicient Energy Star models will save a ton of energy. Keeping that old washer could also waste over $145 each year.

FACTS:

Your home may lose 30% of its heating and cooling through its windows

Low-E glass keeps summer heat out and winter heat in where it belongs.

CFL bulbs use 75% less energy and last 10 times longer than incandescent bulbs.

Keeping your furnance filter clean can make it run more efficiently.

Energy Star appliances are a must when buying new.

Dirty lint traps and vents make your dryer work harder and waste energy.

Replacing your existing faucet aerators with a new more efficient one can

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A brief introduction to geothermal: the next wave of clean and sustainable energy.

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photo credit: David Lewinski

By: Jon Zemke, 7/9/2008 from ConcentrateMedia

Matt and Kelly Grocoff picked an ugly ducking of a house when they bought their century-old Old West Side abode two autumns ago. While others saw an old, dilapidated structure –with the buzz words that make homebuyers run: lead and asbestos– the Grocoffs saw an opportunity to do something special at bargain basement rates. They saw history, and they made their own mark on it.

“It’s one of those things where people didn’t see what was beneath the lead paint and asbestos,” Matt Grocoff says. “You have a structure that has lasted 100 years and could easily last another 100 years if it’s maintained.”

Less than two years later the couple has transformed the Folk Victorian-esque home on the western edge of one of Ann Arbor’s most celebrated historic neighborhoods into an eco-dream house.

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