According to an article on Bloomberg.com today, the cost of solar power is dropping so quickly that in as little as five years, it may be cheaper to use solar power in the short term, as well as in the long term.  We here at cheetahpower.net already know that the long term costs of solar/wind power are lower than using electricity supplied from your local utility–see our youtube videos here and here for more information.

According to the article, the technology used to build solar panels is progressing so fast that the price is dropping exponentially…kind of a Moore’s law for sustainable energy.  If this trend continues, where will we be in 10 years?  20?  One thing is for sure, readers of the cheetahpower.net site will be ahead of the curve!

There are two systems in homes that toss hot water down the drain.  The first system is in your shower.   The second system is from your air conditioning unit.

For the shower situation, there is a simple solution called a “Power Pipe.” The drain pipe is replaced with a “power pipe.”   The power pipe is a simple nested copper tubing system.  The hot water drains out the inner copper pipe.   The surrounding copper pipe brings the incoming cold water back to your hot water heating system.   This acts to pre-heat the cold water going into your hot water heater.   The water starts out warmer so there is less heating costs to bring it to temperature.

For homes with central air conditioning, you also create waste hot water.  According to the Heat Harvester website - “A residence with a three-ton air conditioner could expect from 15-to-25 gallons of hot water raised from 70 to-140 F every hour the air conditioner is running. With a five ton air conditioner a, possible 25-to-40 gallons could be recovered. This hot water would be available during the summer months when the air conditioner is running fairly consistently.”

Both systems are easy to install and provide a very quick return on investment.

In 1908, this Model-T automobile cost $850. It is fascinating to learn the cost of items years ago, in what looked like the good-old-days to us. Economic historians help us compare yesteryears cost to today’s value through use of an online calculator at MeasuringWorth.com.   Those who could afford this new invention in mobility were the wealthiest consumers, spending today’s equivalent of $20,000 for this first and only luxury vehicle.  That same vehicle was exponentially out of reach for the unskilled wage-earners who must work harder & longer to earn the equivalent value of $89,000. In 1925, with the perfection of the assembly line and increased supply, Ford was able to lower the sales price to $290, making the automobile truly affordable, then.

Striving to become energy self-sufficient includes consideration for mobility – how will we get around? Fortunately, purchasing a vehicle for $850 is still available, as quality risks are accepted.  There are other externalities to vehicle ownership that tilt today’s percentage of income spent far beyond that of the good-old-days.  

Cost estimates are conservative in the following table. Still, a large portion of income is consumed by fuel.

Before security measures, road taxes, and other regulations, the 1925 model consumed 15% of the average income. Today’s model requires considerably more. What would be the effect on vehicle ownership for the unskilled wage-earners? We used to know these employees as teenagers who work in the service industry. Increasingly, these are becoming the middle-aged, career-transitioned employees with families. Making the choice not to spend on luxury – any vehicle, becomes easier.

Can we expect to be living like people did back in the old days, when a car in the family meant fairly significant wealth and was only used for special occasions?

Last night I got a “crash course” in our energy, economic and environmental crises.   At the end was a preparedness sheet that was supposedly designed to help me be “ready” for the madness and mayhem that is most assuredly going to be a reality in the near term.   Having cut my teeth in my professional career doing failure modes and effects criticality analyses on complex military systems,  I was more than a little taken aback by this supposed well intentioned soul’s messages.   It felt more like crying FIRE in a crowded theater.   The “crash course” was long on analysis and very short on reasonable action that we can and should be taking ANYHOW to make sure we are prepared for anything.

Lets take a look at some of the elements of the preparedness sheet:

1. Basic living supplies - YES - we all should have a stock pile of food at the ready in the event of ANY disaster.    Six months suffices to get you to a growing season where you can replenish your supplies.   Don’t have the skills to grow your own?   Believe me, you’ll develop those skills FAST if you need them.   I went on a kick to become food self-sufficient - it took me less than one growing season.  And I had a brown thumb before I started.

2. Financial Liquidity - having gone through three banking crises in the past 12 months, I can speak with some authority on this one.  Just what is financial liquidity and how much of it do you really need?  Make sure you have several hundred dollars cash on hand - enough to cover groceries and gas until you can get at your money.   My main bank went under when I was in Hawaii.  They were shut down on a Friday and I had no access to my funds until Monday.  This meant I could not return my rental car as I had no way of paying for it.  It also meant that I could not pay for anything else.   They shut down with no warning so I did not even take out any cash ahead of time.   Luckily I was with friends who’s bank had not gone under.  And luckily I had developed good enough rapport with my friends that they covered my expenses for the weekend until we could clear up matters on Monday.   NOW, I never leave home without several hundred dollars of emergency cash on me, at least $3000 in travelers check, a pre-paid debit card with at least a $5000 balance, and have three banks where I keep at least $10,000 in cash reserves.    If you want to get precious metals, I know folks who install fire proof safes in the floors in their garages where they then park a car over.   If you are going to go the precious metal route as a way to increase your financial liquidity - make sure that you purchase a silver as well as gold coins.  And make sure YOU are the one who takes posession of the coins - NOT a third party broker.  ALSO, it is far better to store the coins in your own safe than in a safety deposit box at the bank.  You are after all procuring the precious metals for this reason in the event there is a systemic banking failure and the banks go under.   Why keep the coins at place where you won’t be able to access them precisely when you most need them?

3. Becoming friends with people within one mile of your house.   This is a good idea for a number of reasons that have more to do with just survival - it can increase the quality of your life to have good friends in your day to day life.   But just how do you go about making friends with the people who live within one mile of your house?   DO BUSINESS WITH THEM.   Yes, a lot of people run small local operations.  For example, if one of your neighbors runs a small grocery store.  Think about shopping exclusively at their store - EVEN if they charge a bit more than the super store a few miles more down the road.   This is pretty basic stuff.   Get to know what they do and how you can support their efforts (and get the help and supplies you need for your basic living).  It’s far better to be generous with your time and money when it comes to making friends with the people within closest proximity to where you live.

4.  Energy rationing - Create your own energy where it makes sense for you to do this.  Have back up transportation plans that you can use if your preferred mode of transportation is not available.   Decide where you want to spend your money.  For example, right now with gas at $3 per gallon, and a car that gets 21 miles to the gallon, you can drive 7 miles for a buck.   That seems pretty darn good.  What is within 7 miles from your house?  How often do you need to go there?   You could walk there in less than two hours, ride your bike there in under an hour, or jump in your car and be there in less than 15 minutes.    How much would gas have to go up for you to seriously consider the walking or the biking option to a place within 7 miles of your house?

Be smart, not scared.  If you feel scared by something you read on someone’s website or see on the news - consider why the person who wrote it is trying to scare you?  What are they attempting to do with their message?    Stop and think about what you could do if the worst case scenario they are proposing did in fact happen.   Then go collect your own data to access what the actual chances are of the worst case scenario happening to you in your situation.

“Energy is a national security issue !” Now, there is a commercial to help deliver real impact in energy self-sufficiency awareness.

The message has to be heard many times before it grabs attention and action. Though we never grow weary of heralding forth this message through demonstration and training, this commercial delivers a concise sound bite.

http://www.youtube.com/watch?v=XM469pTUGq4

http://www.youtube.com/watch?v=UQcICyynEgo

This is a good 2-minute measure of information for any audience. Click to view: Cheetah Power Offers An Energy Independence Course!

1. Most of us are “The Doobees.” We diligently follow the old plan of scrimping and saving to afford a less stressful and fulfilling retirement. However, the economic crisis of 2008 taught us the Weakness of building a nest egg of money.

2. Doobees face economic Threats such as stock market instability and job loss. We also hope you see that our dependence on energy threatens our national security: wars, oil prices, struggle over declining resources, even anxiety at supermarkets when power outages occur.

a. Feeling threatened causes a system of reactions, not the least of which is the clamor for gainful employment to sustain ourselves. Therefore, Cheetahs express gratitude to all greeters at big box stores! But, we know most people do not make that job a goal in their overall career plan; those jobs are limited.

b. Taking the bus, or any public transportation might actually be the preferred mode of travel if you live in an area that has a reliable and convenient public transportation system.   Most people do not and rely on their cars to get them from point A to point B.    As the price of gas goes up, using your own individual car to get you from point A to point B becomes more expensive.   People will have to made tradeoffs with where they choose to live and affordable access to employment and services.   Many people don’t want to live in or near cities where public transportation is a viable option.     Becoming energy self-sufficient means you choose the lifestyle that is right for you rather than having a lifestyle choice forced on you for economic reasons due to lack of planning.

3.     Cheetahs want you to share our vision and become “The Jones.” They scrimped and saved for their golden years, too. Intuitively, they could see the weakening value of money and began researching Opportunities. It occurred to them that they could be investing in something today that would be more valuable to them than money, later.

4. Learning is Strength! Find out how to add power to your power.  View Part 2: http://www.youtube.com/watch?v=UQcICyynEgo

Michelle LaBrosse, PMP

I have been in Connecticut the past two months expanding the markets for Cheetah Power. It’s been an exciting ride and we landed a huge opportunity to organize the Green Pavilion for the NBC Health and Wellness Festival October 16th and 17th at the Hartford Convention Center.

What has been especially exciting is seeing how well Connecticut is doing with respect to setting energy policies and incentives to help individuals and businesses adopt more energy efficient practices. In a recent report issued by the Center for American Progress, shows that Connecticut ranks number one nationwide in adopting progressive measures for energy efficiency.

At Cheetah Power, we don’t just talk sustainability, we live sustainability.   We took the Connecticut corporate retreat center property and have installed a 6kw solar photovoltaic system (we received a $9000 credit from the State of Connecticut to install the system and a 30% tax rebate from the Federal Government reducing the cost to install the system by over 40%).   We reduced the energy consumption of this property by converting the electric hot water tank to instant on propane water heaters.  Replaced the 25 year old air conditioners with high efficiency air conditioners.   Removed an old hot tub that was not being used but had been kept running so it wouldn’t be damaged.   Replaced an aging pump on the pool filter that was drawing far too much electricity than needed to work at less than optimal performance. We replaced the light bulbs with compact florescent bulbs and LED lights (where they made the most sense to use) and put all the systems that were on continually on easy to turn off power strips to turn off when not needed (reduced phantom power loads). In the summer time, when the electrical consumption was the highest on this property, the bills have decreased by 3/4 with these measures in place.

We are also installing sealed gas fireplaces in the two fireplaces that currently exist for the most part to just suck warm air out their stacks in the winter, have a weatherization maintenance plan in place and expect to reduce the heating costs by at least 30%.

Additionally to improve the properties overall sustainability and to increase our contribution to the community’s sustainability, we planted a garden that grows the produce used at the corporate retreat events, and are planning on orchard to contribute to the local CSA’s.

In several countries in Europe there is now a classification for people who are allergic to Electro Magnetic Force (EMF) - the greater the amount of electricity flowing through a power line, the greater the levels of EMF. Living close to high transmission power lines or electrical substations has been implicated in childhood cancer. For folks who develop EMF intolerance though, even low amounts of EMF - that emitted from a cell phone or a computer, becomes debilitating. My question is - was the overload though caused from these much larger energy transmission systems that put out far more EMF than the human body has evolved to handle? Yes the sun emits EMF - but that is a stable amount that we have been conditioned with as part of evolution.

EMF is not something we can see, but many people can feel it. Take a fluorescent tube under high voltage electrical lines and watch it light up just by being near the lines. They put out that much energy. And this represents energy losses as well - that is electricity that is being lost on the way to being useful. Not only is it making some people sick, it’s not even being delivered.

When you create energy closer to where it is needed, you decrease losses, create less of it and reduce the negative impacts of large amounts of EMF exposure.

What is our motivation to better use electricity? Answer: absolute necessity. Have you considered why many European cities are more advanced than the US in this sustainability movement? Again, absolute necessity as many European countries charge by the peak demand.  Europeans have to select how much electrical power they will use.  The rates increase dramatically going from 3kw to 5kw peak demand.  Considering most dryers use 5kw, it’s no wonder Europeans prefer the solar dryer (the clothesline).  We can see some similarities in the Alaskan lifestyle.

While living within the breathtaking landscape, South East Alaskan citizens are encouraged to use innovative technologies and make adjustment to their own energy behavior to help the region live within the capabilities of their existing hydroelectric power plant capacities or risk paying exorbitantly high electrical rates from electricity created by diesel power generators.

Juneau, Alaska got a wake up call regarding just how crucial it’s inexpensive hydroelectric power was when an avalanche rendered it unavailable in April 2008.   Overnight, Juneau’s 30,000 residents saw their electrical bills increase by a factor of 5 as the town had to rely on it’s back up diesel generator’s to create the power that it needed.  This scene is replayed throughout communities in Southeast Alaska every winter as electrical power companies have to supplement the power to their customers.  The hydroelectric plants lose some capability because of freezing water flow just at the time when the residents need for electricity increases due to the much shorter daylight hours.

It was amazing that Juneau’s 30,000 residents were able to decrease their energy consumption by 40% in just two weeks (http://newscenter.lbl.gov/feature-stories/2008/06/18/powering-down-in-juneau/).  And there was nothing “virtuous” about their actions.  It was all economics.   Many of Southeast Alaska residents make the lionshare of their income from May to September and primarily live off their earnings the remainder of the year.  Come April, their bank accounts are pretty lean.   They certainly felt a 5x increase in their electric bills far more acutely than they would have had it happened another time of the year.   They were able to decrease their electrical use by things we have all been admonished to do - but most of us just never really take it that seriously.  When an electric bill most often represents less than 5% of an average wage earner’s  monthly take home pay, and that is with no conservation measures, where is the incentive to really save?   Jump that to 25% of a person’s monthly take home pay, and there are plenty of reasons to conserve.

And conserve they did - Juneau was able to reduce it’s electrical usage by 40%.  They took the standard measures of unplugging electronics when not in use, converting to compact fluorescent bulbs, better insulating their hot water heaters and using less hot water.   But the town also realized that they were wasting a tremendous amount of electricity in the pumps to move water - for purification, delivery, sewage treatment.   By encouraging people to conserve water, they actually made substantial reductions in the town electricity required.

This was not a public service announcement campaign.  Each and every citizen of Juneau was incentivized to use less energy because the cost of creating it had become more than what they were willing to pay.   Basic supply and demand economics at work.

 

Two years ago, Cheetah Power realized that motivating the individual is absolutely necessary to reach our goal of energy self-sufficiency for all.  We’ve stumbled upon likeminded efforts along this journey, one of which is OPOWER. 

OPOWER is an industry leader in Energy Efficiency and a stellar example in achieving the same goal set forth by Cheetah Power – energy awareness within millions of people.

They employ an effective way to get people to pay attention to this energy conservation / energy independence message and respond favorably. Their approach is awesome!  The power of “normative messaging” is essentially tapping that old familiar emotion of not being left behind or made to feel less efficient. Yes, keeping up with the Jones’ is still a motivator toward action. 

Experts in energy efficiency already know that motivating customers to take energy conservation action is a big challenge because making an impact requires large scale citizen participation. OPOWER’s approach includes a colorful and friendly energy report that is sent directly to utility customers. Their new utility bills offer clear visibility into how energy is being used right in their neighborhood and compares neighbor’s efficiency.  Internally, people aspire to do their very best, as good as or better than the neighbor – someone who is watching. The neighborhood is the targeted attention grabber. Marketing professionals know that if information is not relevant, people won’t pay attention. While the OPOWER utility bill has the customer’s attention, the report makes it easy to take action by suggestion sensible steps that anyone can perform at minimal cost and effort: adjusting thermostat at night, use of large appliances during off-peak hours, or changing air filters, etc. Officials at OPOWER believe that motivating one million households to make simple adjustments in their daily energy consumption will save enough energy to power 25,000 homes!

OPOWER is engaging the customer and using customer data analytics to leveraging behavioral science.  Change happens when people really want to change. How can we continue their success?

NYTimes.com

SAN DIEGO — In a laboratory where almost all the test tubes look green, the tools of modern biotechnology are being applied to lowly pond scum. Foreign genes are being spliced into algae and native genes are being tweaked. Different strains of algae are pitted against one another in survival-of-the-fittest contests in an effort to accelerate the evolution of fast-growing, hardy strains.

The goal is nothing less than to create superalgae, highly efficient at converting sunlight and carbon dioxide into lipids and oils that can be sent to a refinery and made into diesel or jet fuel. “We’ve probably engineered over 4,000 strains,” said Mike Mendez, a co-founder and vice president for technology at Sapphire Energy, the owner of the laboratory. “My whole goal here at Sapphire is to domesticate algae, to make it a crop.”

Dozens of companies, as well as many academic laboratories, are pursuing the same goal — to produce algae as a source of, literally, green energy. And many of them are using genetic engineering or other biological techniques, like chemically induced mutations, to improve how algae functions.

“There are probably well over 100 academic efforts to use genetic engineering to optimize biofuel production from algae,” said Matthew C. Posewitz, an assistant professor of chemistry at the Colorado School of Mines, who has written a review of the field. “There’s just intense interest globally.”

Algae are attracting attention because the strains can potentially produce 10 or more times more fuel per acre than the corn used to make ethanol or the soybeans used to makebiodiesel. Moreover, algae might be grown on arid land and brackish water, so that fuel production would not compete with food production. And algae are voracious consumers of carbon dioxide, potentially helping to keep some of this greenhouse gas from contributing to global warming. But efforts to genetically engineer algae, which usually means to splice in genes from other organisms, worry some experts because algae play a vital role in the environment. The single-celled photosynthetic organisms produce much of the oxygen on earth and are the base of the marine food chain. “We are not saying don’t do this,” said Gerald H. Groenewold, director of the University of North Dakota’s Energy and Environmental Research Center, who is trying to organize a study of the risks. “We say do this with the knowledge of the implications and how to safeguard what you are doing.”

At a meeting this month of President Obama’s new bioethics commission, Allison A. Snow, an ecologist at Ohio State University, testified that a “worst-case hypothetical scenario” would be that algae engineered to be extremely hardy might escape into the environment, displace other species and cause algal overgrowths that deprive waters of oxygen, killing fish. A week earlier, at an industry-sponsored bioenergy conference, David Haberman, an engineer who has worked on an algae project, gave a talk warning of risks. Many scientists, particularly those in the algae business, say the fears are overblown. Just as food crops cannot thrive without a farmer to nourish them and fend off pests, algae modified to be energy crops would be uncompetitive against wild algae if they were to escape, and even inside their own ponds.

“Everything we do to engineer an organism makes it weaker,” said Stephen Mayfield, a professor of biology at the University of California, San Diego, and a co-founder of Sapphire. “This idea that we can make Frankenfood or Frankenalgae is just absurd.” Dr. Mayfield and other scientists say there have been no known environmental problems in the 35 years that scientists have been genetically engineering bacteria, although some organisms have undoubtedly escaped from laboratories. Even Margaret Mellon of the Union of Concerned Scientists, who has been critical of biotech crops, said that if genetically engineered algae were to escape, “I would not lose sleep over it at all.”

Still, some algae researchers worry they will be engulfed by the same backlash aimed at biotech foods and say care must be exercised. “About 40 percent of the oxygen that you and I are breathing right now comes from the algae in the oceans,” the genetic scientist J. Craig Venter said at a Congressional hearing in May. “We don’t want to mess up that process.” Dr. Venter’s company, Synthetic Genomics, is getting $300 million from Exxon Mobil to create fuel-producing algae, in part by using synthetic genes. When the two companies cut the ribbon on a new greenhouse here earlier this month, Dr. Venter assured local dignitaries in attendance that no algae would escape. “Nothing will go into the drains, Mr. Mayor,” Dr. Venter said, only half-jokingly. “San Diego is safe.”

In the long run, Dr. Venter said, the algae should be given “suicide genes” that would kill them if they escaped the lab or fuel production facility. Some companies are sticking with searching for and breeding natural strains. “Re-engineering algae seems driven more by patent law and investor desire for protection than any real requirement,” said Stan Barnes, chief executive of Bioalgene, which is one of those companies. But Dr. Venter and Mr. Mendez argue that there are huge obstacles to making algae competitive as an energy source and that every tool will be needed to optimize the strains.

Sapphire Energy seems one of the best-positioned companies to do that. The company, which is three years old, has raised $100 million from prominent investors, including Bill Gates. Sapphire is also getting $100 million in federal financing to build a demonstration project containing 300 acres of open ponds in the New Mexico desert. The company has inserted a gene into algae that allows the organisms to make a hydrocarbon they would not naturally produce, one that would help make fuel. “You don’t want to take what algae gives you,” said Mr. Mendez, who previously worked for medical biotechnology companies. “You want to make the best product.” The company is also developing algae that can thrive in extremely salty and exceedingly alkaline water. It has even developed what might be called Roundup Ready algae. Like the widely grown Roundup Ready soybeans, these algae are resistant to the herbicide Roundup. That would allow the herbicide to be sprayed on a pond to kill invading wild algae while leaving the fuel-producing strain unhurt.

Not all these traits are being developed by genetic engineering, because in many cases scientists do not know what genes to use. Instead, the company screens thousands of strains each day, looking for organisms with the right properties. Those desirable traits can be further enhanced by breeding or accelerated evolution. In one room at Sapphire’s lab, parallel tubes contain algae with identical traits growing under identical conditions. But each strain is slightly different, and only the fastest growing one — determined by which tube turns the darkest green — will be chosen for further development. “If you can’t outcompete your wild cousin, it doesn’t make it out of this room,” said Mr. Mendez. Algae can reproduce rapidly, doubling in as little as a few hours. And they can be carried long distances by the wind. “They have the potential to blow all over the world,” said Richard Sayre of the Donald Danforth Plant Science Center in St. Louis.

Dr. Sayre, who is also chief technology officer of Phycal, an algae company, is using genetic engineering to develop algae that capture less light. Right now, he explained, algae capture more light than they need and waste a lot of it as heat. If each organism captured less, then a given amount of light could be shared by more organisms, increasing biomass production. Instead of using open ponds, some companies are using bioreactors, which typically contain the algae in tubes. Some experts say, however, that these would not totally prevent escapes. “The idea that you can contain these things and have a large-scale system is not credible,” said John R. Benemann, an industry consultant in Walnut Creek, Calif. He said, however, that he saw absolutely no risk from genetically engineered algae. Sapphire says it is not growing any genetically engineered algae in open ponds yet. When it is ready, it says, it will comply with all regulations.

Genetically engineered algae, whether in open ponds or enclosed bioreactors, are likely to be regulated by the Environmental Protection Agency, which now regulates genetically engineered microbes under the Toxic Substances Control Act. Still, there has been at least one case in which genetically modified algae seem to have fallen between the regulatory cracks. When Mera Pharmaceuticals, which is based in Hawaii, wanted to test the feasibility of producing human pharmaceuticals in genetically engineered algae in 2005, none of the three federal agencies that regulate the various areas of biotechnology — E.P.A., the Food and Drug Administration and the Agriculture Department — claimed jurisdiction. Steven G. Chalk, acting deputy assistant secretary for renewable energy at the Energy Department, said any federally financed project, like Sapphire’s New Mexico demonstration, would have to undergo an environmental assessment. But risks would be assessed case by case, he said, not for all conceivable genetically modified algae.

http://www.nytimes.com/2010/07/26/business/energy-environment/26algae.html?pagewanted=2&ref=business&src=me