www.OPOWER.com

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

Solar Energy has been around for decades, but the popularity has grown by leaps and bounds over the last few years.  Solar is propping up in more and more conversations, in news articles and on the web.  The popularity of renewable energy in general reminds me of the dot.com boom of the late 90’s, which I also had the pleasure of working in.  The major difference I see between the dot.com boom and renewable energy boom is that I see a lot more value spread across the renewable energy field.  There is less “flash in the pans” if you will. Now that does not mean that solar does not have its share of flakes…just not as many. 

Today, we are going to discuss strategies for picking a solar energy installer so you can weed through the pretenders and find the right installer for you.  First off, there are many installers out there that are starting out - they may not have a huge body of work, but they are very well educated on the science and design of solar.  These installers are not to be discounted.  Secondly, there are a lot of general contractors/electricians/hvac guys out there who are successful in their field and have a large body of work in their specialty but did not take the solar courses and do not know an azmuth angle from their az and have little to no solar experience.  These installers are not to be given too much credit for non-solar work.  So my first two pieces of advice for picking an installer revolve around one thing - education.  There are plenty of solar install courses out there and if your installer has not taken one, then chances are that the design of your system will not be optimal and you will be paying for a system that does not yield the maximum amount of power possible.

 Next are industry standards.  The unwritten rules for solar installation is that the installer takes care of all aspects of the install from the initial site survey, to the design of the system, to the coordination and management of electricians, structural engineers, crew required to handling all the paperwork, permitting, rebate applications, through the install and meeting with town/state inspectors after the job is complete.   The way the industry has grown, the installer is the one stop shop that will handle all the above.  Like any contractor, the installer may sub-contract portions of the project (which is completely normal), but the contractor is still fully responsible of all coordination and supervision of the project.  You, as the customer should not be coordinating all the sub-contractors.  More than likely, your installer follows this unwritten rule but it is always good to check during your initial meeting with the installer.

Which brings us to the incentives.  As we reviewed in a previous post from SunBlue Energy (Stimulus for the Rest of Us), the US government offers a 30% tax credit on all renewable energy projects with no project cap.  Your installer can assist you with filling out the tax credit, but the installers’ responsibility ends there.  Your accountant should be briefed on all the incentives and provide you an overview of the tax implications prior to your purchasing the system.  Solar is an extremely good investment so make sure you are maximizing the incentives as they pertain to you.

 Now that we have covered federal tax credit, we can move on to the state incentives.  Each state/region has different incentives.  In many states, a rebate requires that the installer fill out an application for you.  Once completed/submitted by the installer and approved by the state, you are ready to rock.  It is important to note that certain state/regional rebate checks are sent to the installer and therefore covered by the installer as a portion of the deal.   Make sure you check your local state rebate to confirm that this is the case.  If it is, then there should be no reason for you pay to for that portion of the project.  The rebate check will be simply sent to the installer after completion.

Above are all a few specific tips for picking a solar energy installer.  When it comes down to it, you are hiring a contractor to handle a home improvement.  So the most important rules to follow are those that you would follow for any other contractor. 

·        Make sure you get at least 2-3 quotes

·        Confirm that the contractor has the proper license and insurance required

·        Ask for references and make sure that there is a contractual agreement in place that outlines the work to be performed, price and progress payment schedule. 

·        It is also important to outline what is important to you - local guy, smaller company, tall dark and handsome, lives in Sleepy Hollow, NY, runs a company called SunBlue Energy, whatever your preference.

Stay true to yourself and if it smells fishy, then go to the next installer - there are plenty of fish in the sea.

Contributor: Christopher D. Hale, Owner at www.SunBlueEnergy.com

The system was approved today by the town building department.   The last hurdle is the utility company putting in the bi-directional meter.   There are 7 switches to flip to get this working (picture attached).   For the building inspector test run, it was producing 4.3 KW of power at 10:30 AM on May 11, 2010.   We still have some trees to drop so it gets more sun in the early morning and late afternoon.   What I’ve learned doing this - PATIENCE.   It is a work of art though and well worth all the waiting.

The Path to Power

The 1200 sqf house with 6kw of solar panels

This is the first complete alternative energy project for Cheetah Power. The house only needed 3kw of power, however, the utility company gave us a rebate for a 6kw system so the solar installation company figured out how to put up another 3kw. We are going to be using the extra power to generate heat and electricity for green houses to grow citrus fruits. This is part of our expanded plan to become not only energy self-sufficient, but food self-sufficient as well. For a $22k investment (this includes state and federal rebates and incentives), we’ll save $84k in utility bill fees over 30 years. Additionally, we’ll be positioned to weather the increases in food prices due to the rising oil prices.

My neighbors in Mud Bay are worried about the noise of my helix wind mill.  It’s highly un likely when the wind is a blowing in ‘da hood, that they will hear anything other than the wind.   Their concerns are based on a windmill the former owner had on the property over 15 years ago.    As I understand it from some of the long time neighbors, the former windmill took up the majority of the two acre field and was well over 100 feet high.   It was also extremely loud.    My new windmill is a vertical windmill made by Helix for urban enviroments that produces a noise signature LESS than most ambient noise produced from windy locations.  http://www.helixwind.com/download/factSheet63_1_Helix_Noise_Assessment.pdf , It is four feet wide and stands less than 35 feet tall.   Anyone who has ever come out to my point when it’s windy, knows well the roar of the wind.   When it’s calm, the vertical helix wind turbine won’t be operating any how, therefore, there will be no noise.

I have been working the alternative energy scenarios on my Connecticut property this past year.  When I started, the State of Connecticut was no longer doing the individual incentives for solar power.  While I was in the process of installing a 6kw solar system, they reinstated their program.   I put my project on hold, applied for the rebate and was awarded a $9071 rebate for my 6KW system based on the amount of energy it’s going to generate (which is pretty close to 9071 KWH per year).

To increase the amount of power my panels were going to create and get the maximum rebate possible, I had to chop down one tree (in a stand of about ten other trees).  Small price to pay.

I reran my payback analysis figures based on today’s scenario.  It came out that they system would pay for itself in 15 years.  The expected system life is 25 years.  I will keep the house until the market goes back up within the next 20 years (it’s bound to happen - CT has experienced two real estate “corrections” of this magnitude in the past 30 years).   This is still the best place to park my money for creating a retirement nest egg.

It is going to cost me a little over $28k to install the 6kw solar system.   Based on what else I could be doing with that money, this will generate a 4.5 x better return over 20 years than anything else I could be doing with my money right now.   Even the safest place to park your money - US Treasuries adjusted to keep up with inflation - the solar panels still generate a 2.3 x better investment.

The bolts arrived and the concrete pad for the first windmill is poured.   Next we have to get the pole and in a month after the concrete pad cures, we can install the windmill.

Pouring the first wind mill base in Alaska

We have had a bit of a delay in installing the 5kw helix wind mill in Alaska.   But we are moving along.   here is where we are with this project:

1.  Continuing with the wind feasibility study.  A huge 60+mph gust took out the weather station.    Since we are down south at meetings and conferences, we had to get a local friend to put it back up.

2.  The Helix 5kw windmill was shipped.  Part of the packaging was damaged.  We’ll have to inspect it when we get back up there in December.

3.  We had sticker shock for the concrete pad pour.  There is only one concrete vendor in town and they charge 3 times more than any other concrete place in the US because of their monopolistic hold on the town.  We are holding our nose and paying their bill.   And contemplating setting up our own concrete plant to give folks in town an option and introducing some competition.

4. We ordered four sets of bolts for the concrete pour even though we are just installing one wind mill now since we want to put in three more wind mills next spring.   The bolts are showing up next week.

5. Kent is taking a class on installing the windmills this week so we can put the windmill up in December.

6.  We are ordering the pole for the windmill this week.   When you get a windmill - they do not sell you everything you need to install it.  BIG lessons learned.

My graphics design team and I came up with this conceptual drawing of a wind farm in Haines Alaska.   Depending on the size of the wind turbines, this wind farm can create from 9 to 18 mw of power.  The town right now only uses 3 to 4 MW of power.  The extra power could be used to create a hydrogen refueling station for a fleet of fuel cell powered fishing boats at the small boat harbor.