All are tasks I’ve already accomplished myself, and have reported in detail elsewhere. So, with all that in mind, here goes…
Simple Act of Green Number 1:
Reducing Electrical Power Consumption through CFLs & Vampire Slaying
Most of us get our electrical power from a utility company that generates electricity by burning fossil fuels (coal, oil, or natural gas). The problem here is that this generation process is often highly inefficient. Much energy wasted in the form of heat lost to the environment. In fact, on average, for every 100 watts of power (of various forms) employed by the utility in the production and distribution of electricity, the consumer only receives about 30 watts of electrical power. Therefore, it greatly benefits the environment (as well as our own pocketbooks) to reduce our overall demand for electrical power.
* Replace Light Bulbs
One of the simplest and most effective means of reducing power consumption is that of replacing your most frequently used incandescent lamps with compact fluorescent lamps, or CFLs, of equivalent wattage. Yet another, perhaps less well-understood, but equally compelling strategy is identifying and eliminating the so-called vampire loads of certain appliances. That is — Certain appliances consume electricity, even though they’re either cycled-off, or are otherwise not providing any useful service.
* Manage Power Consumption of Devices
Examples of these might include devices like cable boxes, DVD/DVR players, computer peripherals, etc. Vampire loads are difficult to deal with, because you can’t always readily tell whether a particular appliance is drawing a vampire load. Or, if so, how large that load is. Furthermore, even if existing vampire loads are all relatively small, over the course of a long period of time, they can add up to a lot of wasted electricity.
A general strategy for managing vampire loads is to first find them. Then decide which are essential (and which are not). And finally, devise a strategy for cutting power to the non-essential vampire appliances when they’re not in use.
Configuring the Kill A Watt(TM) Power Meter with a value of current billing rate
* How to Take Power Readings on Electrics
A simple and inexpensive digital power meter, such as the Kill A Watt
You then allow the meter to run for some reasonable amount of time (for example — overnight). The device being tested is turned off or otherwise not in active service. The power meter’s display will tell you definitively whether the appliance is drawing power. And if so, how much and at what cost.
You can then calculate how much this vampire load costs over the course of a day, week, month, or a year. Of course, if the meter registers nothing, then the device is not a vampire, and you have nothing to worry about. Here are the costs of some vampire loads I actually measured in my own home. I extrapolated them out to one year, and based them on my current billing rate of $0.203 per kilowatt-hour:
Estimated Annual Costs of Several Measured Vampire Loads
Cable box = $30.23 per year
Notebook computer power adapter = $42.67 per year
Mobility device charging system = $17.78 per year
Cable modem = $10.66 per year
Total = $108.45 per year
Of these, the cable modem is actually not a vampire, but rather, an acceptable, continuous load that I would never want to actually shut off (because doing so would interfere with my voice telephony service). On the other hand, the hibernating laser printer is clearly a vampire — not a big one, but still something one wouldn’t expect from a relatively new, Energy Star
Measuring the power consumption of a mobility device charging system
Once you’ve found the vampires, what do you do about them? You could always unplug them when not in use, but doing so would get a little onerous. On the other hand, if you have a sufficient number of outlets, you can deploy several power strips, one for non-vampire or essential appliances, another for all the vampires that you want to collectively switch off. Not nearly as bad as unplugging individual appliances, but still requiring unwanted manual intervention.
* Manage Vampire Loads By Adding a Smart Strip
Yet a third alternative is to use a so-called “smart strip”. These are surge-suppressing power strips with some number of permanently “hot” outlets, some number of “switched” outlets, and usually a single “control” outlet that disrupts power to the switched outlets whenever the control outlet appliance is switched off. For example, you want your DVD player powered down whenever your television is switched off. By plugging the television into the control outlet, and the DVD player into a switched outlet, this will happen automatically, without the need to manually trip any switches.
7- and 10-Outlet Smart Strips
In my own home, I use a smart strip to manage my home computing environment. It consists of several notebook computers and a high-end Linux workstation — all controlled via a single KVM switch. I plug my monitor’s power cord into the control outlet, because whenever I’m using any of these computers, the monitor invariably is on as well. When I shut the monitor off, the notebook power adapters all lose power, as does the printer and the workstation, since all are plugged into switched outlets. But my modem and wireless router, powered by hot outlets, always remain up.
An IT purist might object to the idea of configuring equipment in such a manner. That is – that switching a monitor off also kills power to the workstation, and I would generally concur with that. However, in my world, I always shut my equipment down in an orderly fashion, the monitor being the very last thing I’d switch off anyway.
Editors Note: All items listed above are very common corrective measures prescribed during a simple energy audit. To learn more about What’s in an Energy Audit, see this article – Energy Audit Costs.
Simple Act of Green Number 2:
Reduce Your Water Consumption with Low-Flow Aerators
From an energy conservation standpoint, water should be regarded as being equivalent to energy. That’s because it requires energy to extract or collect water, filter it, heat it or chill it, and then finally transport it to your faucet or tap. So water should never be wasted. A simple act of green regarding water management, of course, is making sure you have no leaks anywhere in your home water supply system, and repairing them if you do. In a sense, doing so is almost the water conservation analog of replacing all your incandescents with CFLs — it makes little sense to continue until you’ve performed this first essential step, to stop all the major bleeding.
Various 1.5 gpm swivel sprays
* Regulate Water Flow on Plumbing Fixtures
But yet another lightweight water management strategy is to systematically restrict water flow at almost all manually-operated faucets and taps inside your home. Accomplished through the use of various low-flow aerators or spray heads. They are relatively low cost, and are installed by most homeowners themselves. In my own home, I’ve installed both 1.0 and 1.5 gallon per minute (gpm) aerators in all my sinks, including the pull-down spray-head in my kitchen. I’ve also installed a rather elegant 1.5 gpm Victorian-style spray-head in my shower.
Danze Victorian 1.5 gpm showerhead and conventional hand-held
* Add Low-Flow Aerators
Of course, one could argue against the need for doing this by asserting that the real key to conserving water at the faucet is to cycle the stream off when not actually making use of it. (For example, while shaving, or soaping your hands.) Or by manually turning down the flow to the bare minimal flow that you can get by with. While I wouldn’t necessarily disagree with that reasoning, I still advocate the use of low-flow aerators, for a number of reasons.
First of all, even the best intentioned of us will soon lose patience with any solution that requires too much manual fussing about. Secondly, just as with electricity, any true home energy management strategy needs to be grounded in the ability to quantify use. As well as measure and track results. If I know definitively that the maximum flow rate at a shower head or faucet is, for example 1.5 gpm, then I can easily estimate my average water usage over time, if need be. Or I can use this as the basis for fine-tuning other aspects of my water usage or my supply or waste systems.
* Consider Your Drains when Evaluating Flow Rate
Finally, unless you’re sure that your drain/waste pipes are fully capable of carrying away waste water at much lower flows, I think it’s wise to establish some reasonable, fixed, yet water-saving flow rate, such as 1.5 gpm. When you manually make the flow as low as possible, you might be creating a situation where waste water isn’t completely carried away with some left standing in your drains.
Simple Act of Green Number 3:
Buy Local and/or Plant a Garden of Edibles
Recently, I read that the amount of energy required to provision your dinner plate with a piece of store-bought produce is often greater than the amount energy your body will acquire from consuming and metabolizing that same piece of produce. That’s because in the current state of commercial agriculture, a tremendous amount of energy goes to fertilize, harvest, prepare, and then ship most produce. Clearly, this is not a sustainable situation. Were a simple subsistence farmer required to expend more bodily energy than his vegetables could replenish him with, he’d eventually starve to death.
* Visit a Farmers Market, Check out Container Growing & Investigate Community Gardening
It makes a lot of sense, therefore, to try to buy produce locally (from your local farmer’s market, for example). Or better yet, plant and raise as much of your own vegetables, fruit, and other edibles, as you can and if you are in a position to do so. Of course, many of us live in locations where there are restrictions against large scale outdoor planting, even when there’s room.
I find that very sad. And frankly, I can’t help but view that as yet another unfortunate consequence of living in a society unduly influenced by a total dependence on cheap fossil fuels. (Okay. I said it, and now I’ll slowly step down off my soapbox). But if you do have the space, and no restrictions, then by all means, seriously consider raising your own edibles. And if you lack space, containers are a worthy alternative.
Community gardening, as well, is an excellent alternative to a lack of space or restrictions, as long as there is a community gardening program in your area. An added benefit is that you can make new friends with a common interest in gardening in the process.
A small container herb garden is attractive, compact, and easily moved about
* Vegetable Gardens Don’t Need a Ton of Space
Many of us have preconceptions of vegetable gardens as being unattractive. When I was a kid, it seemed that nearly all my friends’ grandparents (their parents, less so) always planted vegetable gardens. These people were of a different generation. The mindset too of having lived through one or two world wars, as well as the Great Depression. Home gardening and self-sufficiency seemed second nature to them. But I swear, most of them also caught up in a brutal competition to see who could create the ugliest gardens possible. Their prize tomato plants staked with paint-splattered, broken curtain rods, and tied-off with strips of cloth torn from someone’s old, stained undershirt.
However, centuries before the French (and some other European cultures as well) pioneered the concept of a potager. The Kitchen Garden. A vegetable garden designed to be just as aesthetically pleasing as it was utilitarian. In recent years, this practice of creating ornamental gardens from both edible and decorative plantings has made a comeback with amazing examples. Many published in leading gardening magazines. So there is no need for such a garden to be ugly. With good planning, and commitment, and a little artistic adventurism, your vegetable and herb gardens can compete with the best flower gardens while also providing you with a local, sustainable supply of fresh produce.
Editors Note: For the much more on this topic, see John’s article – A Call to Arms of the Citizen Farmer.
A vegetable garden can be as attractive as any decorative flower garden
Some Final Thoughts
Of the three lightweight acts of green described here, the first two — dealing with power and water respectively — are sort of “fix ’em and forget ’em” in nature. (At least until you buy more appliances or your aerators require cleaning). The backyard vegetable garden on the other hand, especially if artistically done, clearly represents a much greater commitment of time and focus. It doesn’t necessarily have to involve a great deal of cost, if managed the right way. But it might not actually be fair for me to categorize it as “lightweight”. I do, however, see it as being an essential feature of any sustainable homestead.
In recent years, the kitchen has very much resumed its centuries-old, traditional role of being both the heart and soul of the home. A concept which, like the kitchen garden itself, had been lost somewhere back in the days of cheap oil. So, why not recognize both the validity and novelty of finally combining these two notions. The elegant kitchen and its elegant kitchen garden — back together again? And in doing so, perhaps forming a new hallmark feature of that green, sustainable future we’re so intent on achieving?
Oh, and remember, of course, to include a rain barrel in your elegant kitchen garden; after all, water is energy, and energy needs to be conserved. :-)
Note from Building Moxie:
A ways back John earned the nickname “The Technician.” Do you wonder why? But seriously, John is into this stuff – he lives it and these tips will live on beyond this one day.
John is a supporter, most if not all of the products mentioned here are available at >> Energy Circle. Energy Circle is celebrating Earth Day 2011 with a Simple Solutions Sale and Raffle.
Many thanks John and a Happy Earth Day and Passover and Easter to all. ~jb