How much air is your house leaking? Are you unknowingly slurping in dirty air from your garage and attic? Perhaps a blower door test can help you find out. Tom White is the Publisher of Home Energy (aka "my boss"). He's gotten to know a lot about home performance in this job over the last few years. He knows about blower doors and pressure envelopes, duct blasters and thermal envelopes; and has been initiated into the knowledge that you never use duct tape on ducts. But there was one more initiation to go. So he went to the Web to find someone to do an energy audit on his house.

"I went to the ServiceMagic Web site that I learned about editing a Home Energy article," says Tom. "Within less than a minute after I entered some basic information about my house and what I was looking for in the way of an energy audit, the phone rang." It was Sustainable Spaces, a home performance contractor located in San Francisco. Tom made an appointment for his audit for the next week. "They were offering a 'Stimulus Special' for $395."

The house Tom shares with his partner Dmitri was built in 1907. "The home has never been remodeled," says Tom. "We recently had the furnace replaced with a hot water radiant system. We have been careful to keep to the original features of the home, so we got our radiators from buildings built around the same time that used to be part of the heating systems in buildings at Fort Baker." They also installed a renewable energy source. "We installed photovoltaic (PV) panels on our roof, but we should have had the audit first to show us how to use less energy and save on the PV.  Our annual true-up statement says we owe $75 for electricity, but I want to get that down to $0!"

Rob Mitchell, an experienced contractor who knows a lot about Bay Area houses, came with two younger men for an audit of Tom and Dmitri's 102-year-old home. The crew closed all the exterior doors and windows, installed a "blower door" in the main doorframe, and depressurized the house. Immediately, dust and insulation particles began to pour through the "pocket doors" from the attic. After taking some measurements to get a general sense of how leaky the house is, and blocking some of the major air leaks, the crew from Sustainable Spaces then pressurized the house. "We walked around the house with a liquid pencil, which showed there is airflow around switch plates, gaps in the baseboard where the home is connected to the outside, and the cabinet in our kitchen where there used to be 'torpedo tubes,' which used to hold hot water heated by the wood stove, and other places" says Tom.

So the old house has some problems with air leakage, which means heating energy being lost to the outside. The crew also found out that the humidity in the kitchen was 20% higher than that on the outside of the house. "We both took showers that morning, and I had a cup of hot tea," says Tom. That was enough to keep the humidity high a few hours later.

Since the home has no mechanical ventilation, moisture build up could lead to mold growth on surfaces in the living spaces, or-even worse because it is hidden-within the walls. Mold can degrade building materials and create poor indoor air quality. Tom has allergies and a moldy house could make it difficult for him to breathe. Since Tom is living in the mild climate of the Bay Area, where we can open windows and get fresh air other ways in our leaky houses, the moisture may not hang around long enough to be a problem. If he lived in a cold climate such as Minnesota's, or a hot-humid climate such as Atlanta's, fixing the air leaks in his house without adding mechanical ventilation could create a "sick house", meaning one with poor indoor air quality due to mold.

"We won't get the report until next week," says Tom. The report will include specific numbers for air leakage from the house to the outside-or in this case between the living spaces and the attic and basement. Too much air flow means lost energy and too little means a sick house. The report will also give a range of measures that will make Tom and Dmitri's house healthier and more energy efficient. "We'll decide what measures we want done when we get the report. We made our heating system more efficient with the radiant system that heats the living spaces and provides us with hot water. We use half the gas now to heat water than we did before. So spending a lot more on fixing the building envelope doesn't make so much sense to us right now. We'll probably fix the big leaks by air sealing around the attic. And we may insulate under the floor between the living spaces and the basement."

"I wanted to have our house audited mostly because I'm curious," says Tom. "And we want to save energy." But from now on when Tom talks about home performance, and the importance of healthy and efficient homes, it will take on a whole new dimension-the homeowner's perspective.

And old, 19th Century windmill in contrast to wind turbines today.

Last summer I visited the Netherlands, the original home of the windmill. Surprisingly, I saw hardly any of the quaint structures we associate with Dutch wind power. One hundred years ago Holland had about 10,000 wooden windmills dotting its landscape. Today, barely 10% remain. What I saw instead were high tech wind turbines, white and spare and gracefully generating electricity with wind from the North Sea. Many view these modern day towers as an eyesore, but I see them as a sign of hope. Like giant flowers across a landscape, they symbolize for me a clean energy future. But wind power, and solar, have a handicap that fuels claims that renewables will never be more than a small percentage of U.S. power. These energy sources can't be counted on when night falls or the wind subsides. Their inconsistent and therefore unreliable nature poses a problem for a world with an enormous appetite for electricity. If only excess power could be stored on a grand scale, it might solve many of our energy problems.

It isn't that electrical energy isn't currently storable, but as Andrew Tang, Senior Director of PG&E’s Smart Meter program points out, the current generation of batteries can’t store electricity at a price that's cost effective. But both he and Steve Berberich from California System Operators were optimistic about future storage possibilities. Tang described an experimental project that uses a sodium sulfur battery the size of an 18-wheeler trailer. The battery would be located next to a substation, or somewhere in the network, and its stored power would be used during times of peak demand. He also talked about the future of plug-in electric cars whose batteries could both store energy and in theory put it back onto the grid when the car's not in use. Steve Berberich envisioned several possibilities for storing excess power. He proposed converting it to hydrogen, which could be burned in a gas plant or could be used in a fuel cell. And he suggested using power to compress air, which could be injected into the ground and called upon when the wind's not blowing and the sun’s not shining.

Whatever the final solution to storage, you can guarantee it will be a game changer in the renewable power industry. No longer will wind and solar be looked upon as unreliable. Hopefully this missing puzzle piece will go a long way towards helping us detach from our dependence on fossil fuels. But we’ll still be left with the challenge of getting all that clean, green energy onto the power grid. And you can be sure that environmental concerns, zoning, aesthetics, and cost will undoubtedly be cantankerous issues for years to come.

Watch the Climate Watch: Unlocking The Grid television story online.

Non-profits like Green For All are working with federal and state goverments to usher in new "weatherization worker" legislation.Editor's note: our home energy blogger Jim Gunshinan sends in his post from the 2009 National Weatherization Training Conference, in Indianapolis, Indiana.

Tuesday, July 21

There are 3,200 people here for the conference in Indianapolis! This is more than twice as many as the last time. Heard from Gil Sperling, Program Manager for the Department of Energy’s Weatherization Assistance Program, and others at opening plenary. Some buzz about Davis-Bacon prevailing wage legislation. Department of Labor created a new category "weatherization worker" and is polling organizations around the country to come up with prevailing wage numbers. Department of Labor staff is here to get feedback.

Five U.S. Territories are now part of the Weatherization network.

Van Jones speaking at lunch today.

Will set up display for later today. Something like 94 exhibitors are here, including heavy hitters like Home Depot and Sears. Will try to convince Home Depot folks to carry Home Energy Magazine in stores.

(later)

Van Jones, White House green jobs czar, spoke to weatherization workers at the National Weatherization Training Conference, "You are the quiet heroes. Your job is to take the inhalers out of little girls' pockets; little boys pockets."

No, he is not encouraging shoplifting, but the kind of homes that do not aggravate kid's asthma. A green home is an energy efficient and healthy one. That's something the weatherization community has known since the DOE Weatherization Assistance Program began in 1976.

Wednesday, July 22

At the awards lunch today, Gil Sperling mentioned that the Dept. of Labor (DOL) is making good progress in discussions with local weatherization agencies to determine the prevailing wage for a new classification of worker, the weatherization worker. The Davis-Bacon legislation from a decade ago (?) requires that organizations receiving federal government project money must hire people at the prevailing wage for similar work in the area. The legislation is being applied to the funds coming through the American Recovery and Reinvestment Act (ARRA) of 2009, (also known as the Stimulus Bill) for weatherization efforts. DOL came up with a new classification of worker, weatherization worker, in order to help the states comply with the Davis-Bacon requirements.

If the prevailing wages of construction workers were the standard, in New York, beginning weatherization workers would have to make $50 per hour! Weatherization agencies all over the country want to pay their workers well, but those kind of wages for beginning workers would wreck the budgets of most of them. So the new classification and prevailing wages will help agencies to pay a living wage, increase pay as workers become more experienced, and allow the agencies to live within their budgets. DOL staff are here in Indianapolis, and there listening sessions have been packed!

Thursday, July 23

A friend asked me What is the headline for the conference? I think it should be Weatherization Gets Down to Business. I am reminded of the ramp-up to the war in Iraq, and the war profiteering that is probably still going on. I remembered the “lost” $8-billion in the first months of the war. And I wonder if that kind of corruption will enter in the “war for energy security and green jobs and against global warming.” It probably will, because humans are involved. But the level of accountability here is very very high, and the expectations are very very clear. And I get the sense that, this time, the adults are in charge.

Recent articles in USA Today and California's Flex Your Power e-Newswire discussed the phenomenon known in energy efficiency circles as "take back" or the "Snackwell Effect" (see "Consumers Can Sabotage Energy-Saving Efforts," and "The Snackwell Effect: Consumers Sabotage Energy-Saving Efforts").

Stanley Jevons first described the take back effect in 1865, so this is nothing new. Jevons observed that new efficient steam engines decreased coal consumption, which led to a drop in coal prices. But the lower prices meant that more people could afford to use coal, and so coal consumption increased.

The "Snackwell Effect" takes it's meaning from the habit of people on diets who eat lots of low-cal snacks that add up to many times the calories of a regular snack. The example given in both articles mentioned above is a West Virginia couple that bought an energy efficient washing machine to replace their old inefficient one. Their energy bills were no different after the conversion. Turns out they were doing more loads of laundry, even washing one piece of clothing in one load, because they were lulled into complacency by their energy efficient purchase.

I asked Jim McMahon, the head of the Energy Analysis Program at Lawrence Berkeley National Laboratory (LBNL), about the Snackwell Effect and appliance energy use. I recently heard him speak about the great efficiency gains made between the first energy crisis brought on by the Arab oil embargo in 1973, and today. Those gains are significant; refrigerators today use about half the energy on average than they did in the 1970s. "This effect [Snackwell Effect] has been studied for a long time, [it was] formerly called the rebound or take back effect," he says. One 2001 study concluded that for every gain in energy efficiency, about 10% is taken back by an increase in energy use. Greater air conditioner efficiency, for example, may mean that people lower their thermostats, since they expect their energy bills to be lower, and this eats into the efficiency savings. "I think that there are a number of energy-using devices where consumers do not exhibit the Snackwell effect, such as refrigerators or televisions. In those cases, in my view, the usage behaviors are unrelated to the cost of energy, at least for most households in the United States," says McMahon. He does admit that more study is needed in this area. A 10% take back effect is significant, but certainly not a barrier to serious energy efficiency improvements.

Karen Ehrhardt-Martinez, a sociologist, studies human behavior and energy use for the American Council for an Energy Efficient Economy (ACEEE). "The relationship between energy efficiency and energy consumption is not as straightforward as it may initially appear and as some people like to portray it."

The trends show that: 1) residential energy consumption increased by roughly 57% between 1970 and 2005; and 2) residential energy consumption per capita increased by only 7%".

According to Ehrhardt-Martinez, a bigger problem than the 10% of energy lost due to the take-back effect-or the Snackwell Effect-is the proliferation of energy using, albeit more efficient, devices in American homes; lifestyle choices, such as the dramatic increase in the size of homes while families got smaller; population increase; and the "invisible" energy, such as standby power or phantom loads, that is hidden from consumers. "However," says Erhardt-Martinez "if we were able to combine efficiency improvements with better lifestyle choices (i.e. smaller, more energy efficient houses), smart purchasing behaviors, and improved information mechanisms that allowed consumer to actively manage their energy consumption, then we could have a much more dramatic impact on both household level consumption as well as state and national level consumption."

This 1928 home in Albemarle County, Virginia recently
underwent a renovation through the EarthCraft Virginia
existing homes renovation program. After the renovation,
electricity use dropped by 24% and energy costs dropped
by 42%.

Home Energy Magazine is celebrating its 25th anniversary with a special May/June issue. We're taking the opportunity to look back at the past several decades of energy policy in America, and look ahead to what may come. Here's a sneak preview of some of what we're thinking.

Alan Meier, Senior Executive Editor, and Steve Greenberg, Technical Editor, among others, lived through the first energy crisis precipitated by the Arab oil embargo in 1973 and its aftermath. They remember the sudden interest in energy efficiency and renewable energy; the proliferation of solar water heaters on the roofs of homes that broke down quickly, had no one trained to fix them, and have become rusted monuments to the best of intentions gone wrong; the sudden and short lived gain in the average car’s fuel efficiency. They also recall some major successes: the huge and lasting increase in appliance efficiency, especially refrigerators; the success of the Energy Star program; and California’s progressive Title 24 building standards.

Alan, in a yet-to-be-published editorial, has been musing on what will happen after the billions of dollars from the American Recovery and Reinvestment Act (ARRA) have been spent on building and retrofitting more efficient and sustainable buildings. Will it be the same three steps forward, two steps back pattern that we’ve seen before? Not so, according to Alan, if we:

Steve came up with some powerful images to stimulate our thinking about the future of energy efficiency:

We've been on a ramp with a rather gradual (and usually upward, with notable exceptions) slope. Suddenly the ramp gets so steep it looks like a wall. If we make it to the new, much higher level, what does the terrain look like? Do we go off a cliff, completing a boom and bust cycle the likes of which we've never seen? Or is there a reasonable ramp down to a sustainable level?

I lived through the lines for gasoline, though I couldn’t yet drive. I've observed the resulting interest in miles per gallon instead of horsepower; the return to a horsepower-mentality; and the recent switch back to a concern about miles per gallon. My family had a great experience with our new-fangled heat pump in the early 70s. My Dad, an engineer and all-around handy man, first got me interested in how houses and cars work during that time. I guess I vote for a steep, but not impossible ramp up in efficiency, followed by a less intense, slow and gradual climb that continues for a long time, with sudden jumps due to new, undreamed of (or only just dreamed of) technology. The pressure will come from high energy prices and people starting to feel the real effects of global warming and unhealthy air. I don't think these things will change anytime soon.

These 5 folks are full of bright ideas.
Image Source: PiccoloNamekACI trains home performance professionals through national and regional conferences and through the Web. Last week I participated in my eighth ACI national conference. The annual conference is where I go to network; learn about all aspects of home performance; recruit authors for Home Energy Magazine; and best of all, be inspired.

Here are a few of the people that I ran into last week who inspire me:

Don Fugler does research through the Canada Mortgage and Housing Corporation. He developed the Garbage Bag Air Flow Test. He rides his bike to work year round in Ottawa, and wears suspenders. He has a dry sense of humor and has toppled any lingering stereotype I had about Canadians. He told a crowded room at the ACI meetings in Pittsburgh that the way we live in our houses, the way we use our cars, and the way we travel in the air contribute about equally to our carbon footprints. The way we eat contributes a lot also. A pound of beef is responsible for a heck of a lot of greenhouse gases released. I don’t know if Don is a vegetarian, but I think he probably is.

Jim LaRue is a sort-of-retired home performance contractor from Cleveland, Ohio. He designed a really efficient and healthy house for a group of nuns in Ohio and wrote about it for Home Energy. He has also written for the Cleveland Green Building Coalition and for the magazine a Greening Your Home series of articles. I don't know anyone who has worked harder to create healthy, efficient, and affordable housing in Cleveland. He's retired but so far no one has noticed.

Linda Wigington has been with ACI since its beginning and is now the manager of program design and development. At the ACI Summit on global climate change held at the Pacific Energy Center in San Francisco last summer, which she was instrumental in bringing about, she talked about how she lived one whole winter in her home outside of Pittsburgh while never raising her thermostat above 50 degrees Fahrenheit. She is passionate about finding ways (mostly not involving such personal discomfort) to drastically reduce the energy use in existing homes to reduce the nation's greenhouse gas emissions.

Kate and Paul Raymer, founders of Hayoka Solutions, a green building and green building advocacy organization, announced the Starting from Home Challenge at the ACI meetings, an annual contest for post secondary school students around the country to create 70%–90% energy savings in existing homes with real people living in them. Hayoka is a Lakota Indian word describing someone who causes others to see things in a completely new way. Paul is an expert in healthy home ventilation. Don't get him started on attached garages. "Why would anyone park their car in their house?" Paul often wonders.

I could go on, and on, and on. These are just a few of the people who inspire me. I hope they inspire you as well.

Jim Gunshinan is Managing Editor of Home Energy Magazine. He holds an M.S. in Bioengineering from Pennsylvania State University, State College, Pennsylvania, and a Master of Divinity (MDiv) degree from University of Notre Dame.