Category Archives: solar power

Solar Power From Space To Heaven – We concentrated on hell last week

Posted on by
Reply

while this may sound like pie in the sky:

http://www.phrases.org.uk/meanings/282700.html

Did you know that that phrase was coined by famous labor organizer Joe Hill?

OH sorry

http://arstechnica.com/science/news/2009/07/will-the-stars-align-for-space-based-solar-power.ars

Will the stars align for space-based solar power?

The high cost of putting hardware into orbit would seem to rule out space-based solar power on financial grounds, but several companies are betting that technology has changed the equation. Here’s how such systems would work.

By John Timmer | Last updated July 9, 2009 12:30 PM C

 

Will the stars align for space-based solar power?

Although the US has plenty of terrain that’s well placed for producing solar power, the intermittent nature of that power and the distances of these sites from major population centers on the east coast puts severe constraints on what we can do with it. Space-based solar power, which can gather energy around the clock and transmit it to most of the populated areas of the planet, provides a way around these limits, one that was already being contemplated before the energy shocks of the 1970s.

Unfortunately, the prohibitive launch costs and challenges of sending the energy back to earth have left matters at the contemplation stage, but with the current focus on renewable energy, several companies are now betting that we’ll see hardware in space well before the next decade is over.

Going commercial

To understand what’s changed, we talked with William Maness and Philip Owen of PowerSat, one of a handful of companies planning to commercialize space-based power. Maness emphasized that the systems won’t require any new technologies, saying, “We aren’t doing science fiction, although it sounds like it; we’re looking for a steep decline in the cost curve, but no breakthroughs are required.”

PowerSat hopes to combine several recent developments, most of which serve to cut down on the weight of what’s put into orbit. At least one of these has found applications on earth: thin-film solar cells (PowerSat is looking at CIGS-based cells—Copper, Indium, Gallium, and Selenium—on a titanium or aluminum substrate). These can reach high efficiencies despite being only microns thick.

To deploy these in space without heavy equipment, PowerSat is looking to leverage some of the testing NASA has done on the use of inflatable structures in space. All of that means that far more energy-producing hardware can be put in space as a single unit. Maness says that the company’s models predict that it can get about 17MW out of a single 10-ton unit.

Most proposals for space-based solar have involved a constellation of satellites, each transferring those 17MW to a central unit for transmission back to earth. This adds to the complexity of the system and means at least one satellite has to integrate a very large amount of power. PowerSat hopes to avoid all that. The satellites will receive a pilot signal from the ground and use that to coordinate their energy-carrying return signal to the ground-based receiver. “The satellites act as a radio frequency cloud to create a phase array of phased arrays,” Maness says.

When the microwave signal hits the ground, the transmission from each satellite should be additive—all of which dramatically cuts down the weight and complexity of the hardware that has to be put into orbit.

The other place that PowerSat plans to save weight is in propulsion. “Traditionally, powersets are in geosynchronoous orbit and relied on a chemical tug to pull them out to geo,” Maness said. But NASA’s work with ion engines, which are lightweight but require an electric power source, have provided an alternate method—clearly, once the solar arrays unfurl, there will be no shortage of power.

When asked about the risk of opening up something that large amidst the junk in low earth orbit, Maness said that “a collision would have very little impact outside some small, critical areas.” In most cases, space junk would rip straight through the thin film material.

This setup will allow PowerSat to “start in all sorts of initial orbits” and take six to eight months to transfer to a geosynchronous orbit. “We can focus on the lowest cost ride,” Maness said. All told, these differences should mean that launch weight is cut by two-thirds compared to more traditional schemes—the 17MW satellite will come in at about 10 tons. And, since launch weight means dollars, this represents a huge cost savings.

Grounding the power

On the ground, the microwave power sent by the satellites is received by a structure that’s about a mile wide and between one and two miles long, depending on how far north of the equator it’s based. Maness says that there are chunks of unallocated microwave frequency that can easily handle the 230 watts per square meter that’s allowed by the EPA. Despite the size, the cost of the ground stations are only a small fraction of the total expense; PowerSat estimates it at $100 million or so. That’s largely because the hardware is very diffuse. Rain and sun can pass right through it, and Maness suggested the ideal location might be over an orchard or corn field, where the added heat could be advantageous.

And there is some added heat; models suggest about two degrees Fahrenheit for every 10 minutes in the core of the signal—about a quarter of what you’d get on a sunny day at the beach, Maness said. He indicated that the EPA had done extensive testing, and birds and other animals that might be bothered by the microwaves simply leave the area. It’s not completely without effect, though: “Your cell phone will definitely stop working,” Maness said.

http://arstechnica.com/

:}

okey dokey then

http://www.youtube.com/watch?v=rL0x5wgN2Xg

:}

Feds Form 5695 That You Use To Claim The Big Ticket Items In The Stimulus Package

Posted on by
5

I know that this is an obvious ploy for google numbers but I am the original google whore. I tried to get the PDF file from the Feds converted to a Word file so we could become the goto site for such things but I failed miserabley…(psss. it jam band friday –http://www.youtube.com )

All I succeeded in doing was getting the instructions but I think even they are instructive. In fact I will put the locations of the forms 5695, 3800 and 8910:

http://www.irs.gov/pub/irs-pdf/f5695.pdf

http://www.irs.gov/pub/irs-pdf/f8910.pdf

http://www.irs.gov/pub/irs-pdf/f3800.pdf

:}

http://www.youtube.com/watch?v=y8OgkjcW0g4

There was a comedian whose whole stick was to read the tax code in a very high minded and serious tone and used to cause audiences to roar. This was the case because we have all had our tax code moments, because we can imagine little people in offices dreaming this shit up, and because we can see people taking advantage of it.

General Instructions

Section references are to the Internal Revenue Code.

What’s New for 2008 Nonbusiness energy property credit expired. You cannot take the nonbusiness energy property credit for property placed in service in 2008.

Credit expanded. You can now include costs for qualified small wind energy property and qualified geothermal heat pump property in figuring the residential energy efficient property credit.

What’s New for 2009 Nonbusiness energy property credit available. The nonbusiness energy property credit will be available for property placed in service in 2009. The credit is available for items such as high-efficiency heating and cooling systems, water heaters, windows, doors, and insulation. The amount of the credit will be limited by the amount of any nonbusiness energy property credit you took in 2006 or 2007.

Qualified solar electric property. There is no limit on the amount of qualified solar electric property costs when figuring the residential energy efficient property credit.

Purpose of Form

Use Form 5695 to figure and take your residential energy efficient property credit, including any credit carryforward from 2007. :}

http://www.youtube.com/watch?v=2zkEppr68PM

Apperently you can not be a human and take advantage of this but if you are a Home well you are in like Flin.

Who Can Take the Credit

You may be able to take the credit if you made energy saving improvements to your home located in the United States in 2008. For credit purposes, costs are treated as being paid when the original installation of the item is completed, or in the case of costs connected with the construction or reconstruction of your home, when your original use of the constructed or reconstructed home begins. If less than 80% of the use of an item is for nonbusiness purposes, only that portion of the costs that are allocable to the nonbusiness use can be used to determine the credit.

Home. A home is where you lived in 2008 and can include a house, houseboat, mobile home, cooperative apartment, condominium, and a manufactured home that conforms to Federal Manufactured Home Construction and Safety Standards.

You must reduce the basis of your home by the amount of any credits allowed.

Main home. Your main home is generally the home where you live most of the time. A temporary absence due to special circumstances, such as illness, education, business, military service, or vacation, will not change your main home.

Special rules. If you are a member of a condominium management association for a condominium you own or a tenant-stockholder in a cooperative housing corporation, you are treated as having paid your proportionate share of any costs of such association or corporation.

Subsidized energy financing. Any amounts provided for by subsidized energy financing cannot be used to figure the credit. This is financing provided under a

federal, state, or local program, the principal purpose of

which is to provide subsidized financing for projects designed to conserve or produce energy.

Residential Energy Efficient Property Credit

You may be able to take a credit of 30% of your costs of qualified solar electric property, solar water heating property, fuel cell property, small wind energy property, and geothermal heat pump property. This includes labor costs properly allocable to the onsite preparation, assembly, or original installation of the property and for piping or wiring to interconnect such property to the home. This credit is limited to:

                      $2,000 for qualified solar electric property costs,

                      $2,000 for qualified solar water heating property costs,

                      $500 for each one-half kilowatt of capacity of qualified fuel cell property for which qualified fuel cell property costs are paid.

                      $500 for each one-half kilowatt of capacity of qualified small wind energy property for which qualified small wind energy property costs are paid (not to exceed $4,000), and

                      $2,000 for qualified geothermal heat pump property costs.

:}

http://www.youtube.com/watch?v=byjPd28KegM

I could let this stuff go with out comment but then that is nearly impossible. So if I spend money to cut down my neighbors tree so I can get my solar access back, is that tax deductible?

Qualified solar electric property costs. Qualified solar electric property costs are costs for property that uses solar energy to generate electricity for use in your home located in the United States. This includes costs relating to a solar panel or other property installed as a roof or a portion of a roof. The home does not have to be your main home.

Qualified solar water heating property costs.

Qualified solar water heating property costs are costs for property to heat water for use in your home located in the United States if at least half of the energy used by the solar water heating property for such purpose is derived from the sun. This includes costs relating to a solar panel or other property installed as a roof or a portion of a roof. To qualify for the credit, the property must be certified for performance by the nonprofit Solar Rating Certification Corporation or a comparable entity endorsed by the government of the state in which the property is installed. The home does not have to be your main home.

Qualified fuel cell property costs. Qualified fuel cell property costs are costs for qualified fuel cell property installed on or in connection with your main home located in the United States. Qualified fuel cell property is an integrated system comprised of a fuel cell stack assembly and associated balance of plant components that converts a fuel into electricity using electrochemical means. To qualify for the credit, the fuel cell property must have a nameplate capacity of at least one-half kilowatt of electricity using an electrochemical process and an electricity-only generation efficiency greater than 30%.

Costs allocable to a swimming pool, hot tub, or any other energy storage medium which has a function other than the function of such storage do not qualify for the residential energy efficiency credit.  

Qualified small wind energy property costs.

Qualified small wind energy property costs are costs for property that uses a wind turbine to generate electricity for use in connection with your home located in the United States. The home does not have to be your main home.

Qualified geothermal heat pump property costs.

Qualified geothermal heat pump property costs are costs for qualified geothermal heat pump property installed on or in connection with your home located in the United States. Qualified geothermal heat pump property is any equipment that uses the ground or ground water as a thermal energy source to heat your home or as a thermal energy sink to cool your home. To qualifiy for the credit, the geothermal heat pump property must meet the requirements of the Energy Star program that are in effect at the time of purchase. The home does not have to be your main home.

Married taxpayers with more than one home. If you or your spouse lived in more than one home, the credit limits would apply to each of you separately. For qualified fuel cell property, the homes must be your main homes. If you are filing separate returns, both of you must complete a separate Form 5695. If you are filing a joint return, figure your nonbusiness energy property credit as follows.

:}

http://www.youtube.com/watch?v=4e3cR2H38Wo&feature=related So what do you want to be when you grow up little Johnny? Tax payer A or Tax payer B?

1.        Complete a separate Form 5695 for each home through line 21.

2.        On one of the forms, complete line 22. Then, figure the amount to be entered on line 23 of both forms and enter the combined amount on line 23 of this form.

3.        On the dotted line to the left of the entry space for line 23, enter “More than one home”. Then, complete the rest of this form.

4.        Attach both forms to your return. Joint occupancy. If you occupied your home jointly, each occupant must complete his or her own Form 5695. To figure the credit, the maximum qualifying costs that can be taken into account by all occupants for figuring the credit is $6,667 for qualified solar electric, solar water heating, or geothermal heat pump property; and $1,667 for each one-half kilowatt of capacity of qualified fuel cell or small wind energy property (not to exceed $13,333 for qualified small

 

wind energy property). The amount allocable to you is the lesser of:

1. The amount you paid, or

2. The maximum qualifying cost of the property multiplied by a fraction. The numerator is the amount you paid and the denominator is the total amount paid by you and all other occupants.

These rules do not apply to married individuals filing a joint return.

Example. Taxpayer A owns a house with Taxpayer B where they both reside. In 2008, they installed qualified solar water heating property at a cost of $8,000. Taxpayer A paid $6,000 towards the cost of the property and Taxpayer B paid the remaining $2,000. The amount of cost allocable to Taxpayer A is $5,000 ($6,667 X $6,000/$8,000). The amount of cost allocable to Taxpayer B is $1,667 ($6,667 X $2,000/$8,000).

Specific Instructions

 Also include on lines 1, 5, 9, 13, or 18, any

labor costs properly allocable to the onsite

preparation, assembly, or original installation

of the property and for piping or wiring to interconnect such property to the home.

Line 1

Enter the amounts you paid for qualified solar electric property. See Qualified solar electric property costs on page 3.

Line 5

Enter the amounts you paid for qualified solar water heating property. See Qualified solar water heating property costs on page 3.

Line 9

Enter the amounts you paid for qualified fuel cell property. See Qualified fuel cell property costs on page 3.

Line 13

Enter the amounts you paid for qualified small wind energy property. See Qualified small wind energy property costs on this page.

Line 18

Enter the amounts you paid for qualified geothermal heat pump property. See Qualified geothermal heat pump property costs on this page.

Line 25

If you are claiming the child tax credit for 2008, include on this line the amount from line 12 of the Line 11 Worksheet in Pub. 972.

:}

http://www.youtube.com/watch?v=x8jDc_vu9is

Right about now you are saying I can’t take anymore. Why did I ever think about doing these energy improvements. Get me out of this tax hell. But there is more.

If you are not claiming the child tax credit for 2008, you do not need Pub. 972.

Line 28

If you cannot use all of the credit because of the tax liability limit (line 26 is less than line 23), you can carry the unused portion of the credit to 2009.

Paperwork Reduction Act Notice. We ask for the information on this form to carry out the Internal Revenue laws of the United States. You are required to give us the information. We need it to ensure that you are complying with these laws and to allow us to figure and collect the right amount of tax.

You are not required to provide the information requested on a form that is subject to the Paperwork Reduction Act unless the form displays a valid OMB control number. Books or records relating to a form or its instructions must be retained as long as their contents may become material in the administration of any Internal Revenue law. Generally, tax returns and return information are confidential, as required by section 6103.

The average time and expenses required to complete and file this form will vary depending on individual circumstances. For the estimated averages, see the instructions for your income tax return.

If you have suggestions for making this form simpler, we would be happy to hear from you. See the instructions for your income tax return.

:}

Now all you have to do is make copies for your records, double check that everything is signed, put it all in an envelop with the proper postage and address, mail it off and PRAY…have a nice day.

http://www.rooftopcomedy.com/watch/SouthernObamaSupport

:}

Feds Tax Credits For Solar Panels – One for every roof in America

Posted on by
5

If we had been this aggressive for the last 30 years. We would have a green economy and we would be skipping all of the problems we have right now. The world would have followed suit and our species would not be in the danger it is now. Grousing doesn’t help though..First the Tax Credits

Not there silly over here

http://www.energystar.gov/index.cfm?c=products.pr_tax_credits#s4

Solar Energy Systems

Photovoltaic Systems Photovoltaic systems must provide electricity for the residence, and must meet applicable fire and electrical code requirement. 30% of cost Use IRS Form 5695 PDF Exit ENERGY STARMust be placed in service before December 31, 2016.

:}

You’ll never guess who is doing it.

http://www.bp.com/genericcountryjump.do?categoryId=9070&contentId=7038143

Partner with BP Solar

Tools

How to buy

 

Request more information

 

Rebates and incentives

 

Solar savings estimator

 

Is solar right for me?

 

 

 

 

Visit us at the PV America conference, booth 1303

June 8-10 in Philadelphia, Pennsylvania

 

Teichert home

Home solutions

Industry leading solar solutions

Solar panels in a field

Business solutions

Save money, improve your brand

Builder installing panels

Builder solutions

 

Press releases

BP Solar to supply PV power systems for major retailer in California
22 April 2009

BP Solar lowers cost in drive toward grid-competitive electricity prices
31 March 2009

BP Solar to develop 37MW in projects for Long Island Power Authority
11 March 2009

Colorado Governor Bill Ritter dedicates new solar power system at CSU-Pueblo
13 January 2009

BP Solar announces completion of solar power pilot project
18 December 2008

 

:}

 

Now they are real proud of it. What does the future hold?

 

http://www.siliconsolar.com/flexible-solar-panels.html

 

 

Flexible Solar Panels – Consumer Ready Modules – OEM

Solar Store

Silicon SolarSolar PanelsFlexible Solar Panels

Flexible Solar Panels: The lightest thin film flexible solar panels on today’s market are available from Silicon Solar.

Solar technology has reached its most convenient, lightweight form: the newly-engineered flexible solar panel. Silicon Solar is the proud carrier of over 50 modules of flexible solar panels, offered in a variety of sizes.

Through recent developments, Silicon Solar has provided ways of listing thin, light weight, flexible solar panels allowing for multiple applications to now be solar accessible that never were before.

Thin Film solar cells and panels now allow for several types of application to be introduced into the market including solar backpacks, solar thin film clothing and athletic apparel. We at Silicon Solar have taken these methods to the extreme and receive requests from customers who give us incentive and constructive feedback on developing new ways of utilizing this technology not only for them, but for you as well. Each flexible solar panel can be rolled up to 2 inches in diameter, making the paper thin solar cell one of the most durable and long lasting solar modules on the market.

:}

It is jam band Friday tomorrow and the topic is Solar Water Heaters. I know you can’t wait.

:}

Tax Credits For Standard Water Heaters – But who would buy these when you can have Solar

Posted on by
6

I am just posting these tax credits so people will know. I question why someone would buy a standard water heater when Solar water heaters are not that much more and are free over the life of the system (like forever).

http://www.energystar.gov/index.cfm?c=products.pr_tax_credits#c4

Water Heaters Gas, Oil, Propane Water Heater Energy Factor >= 0.82
or a thermal efficiency of at least 90%.		 30% of cost, up to $1,5002 All ENERGY STAR gas tankless water heaters will qualify.There are currently no ENERGY STAR qualified gas storage tank or gas condensing water heaters that qualify.View ENERGY STAR criteria for water heaters.For a partial list of qualifying products go to: Air-Conditioning, Heating, Refrigeration Institute (AHRI) Exit ENERGY STAR
Electric Heat Pump Water Heater Same criteria as ENERGY STAR: Energy Factor >= 2.0 30% of cost, up to $1,5002 All ENERGY STAR electric heat pump water heaters qualify for the tax credit.

:}

Of the above I like tankless and electric heat pump water heaters. Tankless I like the best:

http://www.rheemtankless.com/content/tankless/rheem/Residential.shtml

  • NEW 66 Direct Vent tankless model available
    • Temperature range from 85° to 140°
    • Great for homes with 2 to 3 bathrooms
    • Same great compact design
    • Gas inputs ranging from 11,000 to 180,000 BTUH, fully modulating
    • Adjustable for optimal use between sea level an 9,840 feet
    • 12-Year heat exchanger warranty
    • 5-Year limited parts warranty
    • 1-Year limited warranty
    • click here to learn more
  • Indoor and Outdoor Models Available (Applies to 53, 66, and 74 units after 7.1.08)
    • Available in Natural Gas and LP Models 12-Year Limited Warranty on Heat Exchanger *
    • 5-Year Limited Warranty on Parts *
    • 1-Year Limited Service Warranty
    • Continuous hot water
    • Energy saving design
    • Compact, space saving design
    • Intelligent electronic controls and sensors
    • Self diagnostic program
    • Digital display shows temperature setting and maintenance codes
    • Exclusive sensing burner technology
    • Exclusive film wrap overheat limiter
    • Built-in electric blower
    • Indoor units use Category III stainless steel vent
    • Indoor models supplied with a 120 Volt power cord
    • Low NOx emissions meet SCAQMD rule 1146 requirements
    • A remote control thermostat is included with all models (100 F – 140 F setpoint range) Requires 18 AWG, 2 conductor thermostat wire for remote control connection. Wire not included.
    • Optional additional remote controls are available

:}

Or:

http://www.noritz.com/homeowners/products/

NOTE: Noritz America does not offer fuel oil or electric tankless water heaters.

PLEASE CLICK ON HEATER IMAGES FOR MORE DETAILS.

Noritz tankless gas water heaters are designed and manufactured with 3 key factors in mind:

1. Energy savings
Using advanced water heating  technology, our on-demand systems are manufactured for high efficiency (83-94%). Noritz energy efficient hot water heaters can cut your current water heating costs up to half and conserve wasted energy spent on heating a traditional tank water heater. Noritz tankless gas hot water heaters are designed to ensure all of your hot water needs are met efficiently.

2. Space Savings & Durability
The space saving design of Noritz tankless gas water heaters allow for installation virtually anywhere, indoor or outdoor.  Our compact water heaters conserve space and emit low levels of CO2, providing a cleaner environment for you to live in.  Wall-mounted, saving valuable space, these compact water heaters are extremely durable and provide an extended long life capacity.

3. Safety & Assurance
Noritz tankless hot water heaters are always hot, providing endless hot water for all of your needs. We care for your safety and comfort, ensuring a hot water heater that is safe and convenient for everyone to use. The electronic Advanced Q Function control system helps prevent scalding dangers and sudden bursts of cold water, minimizing discomfort. Noritz designs and manufactures each tankless hot water heater with the user in mind, ensuring quality workmanship, parts and service. 

  • AVAILABLE MODEL TYPES

Noritz offers RESIDENTIAL and COMMERCIAL tankless gas (NG & LP) water heaters for 1 – 5 showers.  Noritz heaters are also linkable (via Quick-Connect or Multi-System) up to 24 units.  We also have the NH series which is specifically designed to heat homes.  The NH series can be use for such applications as floor heating, baseboards, radiators and driveways.

  • INSTALLATION COSTS

Noritz is the manufacturer and therefore do not offer installation services.  We rely on our trained installers to offer their professional services and workmanship.  Each home is different and unique so the installation price will range depending upon the amount of additional parts and labor involved.  Here are some factors that will affect the installation price:  Installation location (attic, basement, garage, outdoors, relocation, etc.), Venting pieces (direct vent, vertical, horizontal, etc.), Gas line upgrade (3/4″ gas line from gas meter), and Accessories (service valves, ScaleShield, etc).

:}

Electric Heat Pump Water Heater? Kind of a weird use of technology. I won’t say over kill but it is like a car that can turn into a boat. I f you are going to go geothermal why not go all the way..?

http://www.toolbase.org/Technology-Inventory/Plumbing/heat-pump-water-heaters

Summary

Heat pump water heater.Heat pumps have traditionally been used for space conditioning, but are now also being used for electric water heating. They are usually three times more efficient than electric resistance water heaters–meaning that they can produce the same amount of hot water for one-third the amount of electricity. Stand-alone heat pump water heaters (HPWH), which are described here, are different from heating and cooling heat pump systems that have integrated water-heating capability.

There are four basic types of stand-alone HPWH. The heat pump can be integrated with or separate from the hot water storage tank, and cool exhaust air can be exhausted to the room or to the outdoors (see Figures). Because HPWH take heat from the surrounding room air, they cool and dehumidify a space. This is a benefit during the cooling season and a drawback during the heating season.

An add-on HPWH can be used to convert an electric resistance water heater into a heat pump water heater. The optimum locations would be in a utility room, garage or basement; the unit requires air circulation to work effectively.

A typical residential HPWH can heat 15 gallons of water per hour by 80°F, with a final storage temperature between 120°F and 140°F. At the same time, a HPWH provides some room cooling. During the heating season, this incidental cooling increases space heating needs.

A typical residential HPWH draws less than one-third the power of a standard electric resistance heater. Some HPWH models only require 110v electricity, making them ideal for the “do-it-yourself” home owner.

:}

More tomorrow if I don’t kill myself first

http://www.youtube.com/watch?v=wMD7Ezp3gWc

:}

Federal Energy Tax Credits For Residential Housing – What’s in your Stimulus Package

Posted on by
1

What’s up with the Feds for the new green economy?

http://www.energystar.gov/index.cfm?c=products.pr_tax_credits

 

Federal Tax Credits for Energy Efficiency

 

Frequently Asked Questions:

How has the new Stimulus bill affected the tax credits for energy efficient home improvements?

What tax credits are available in 2008 for energy efficiency home improvements?

Are installation costs covered by the tax credit?

All Tax Credit FAQs

UPDATED May 14, 2009

Quick link to this page: energystar.gov/taxcredits

Federal Tax Credits for Energy Efficiency includes:

**Please note, not all ENERGY STAR qualified homes and products qualify for a tax credit. These tax credits are available for a number of products at the highest efficiency levels, which typically cost much more than standard products. If, for whatever reason, you decide not to purchase a product covered by the tax credit, you may still consider purchasing an ENERGY STAR product. ENERGY STAR distinguishes energy efficient products which, although they may cost more to purchase than standard models, will pay you back in lower energy bills within a reasonable amount of time, without a tax credit.

Tax Credits for Consumers:

Home Improvements

Tax credits are now available for home improvements:

  • must be “placed in service” from January 1, 2009 through December 31, 2010
  • must be for taxpayer’s principal residence, EXCEPT for geothermal heat pumps, solar water heaters, solar panels, and small wind energy systems (where second homes and rentals qualify)
  • $1,500 is the maximum total amount that can be claimed for all products placed in service in 2009 & 2010 for most home improvements, EXCEPT for geothermal heat pumps, solar water heaters, solar panels, fuel cells, and small wind energy systems which are not subject to this cap, and are in effect through 2016
  • must have a Manufacturer Certification Statement3 to qualify
  • for record keeping, save your receipts and the Manufacturer Certification Statement3
  • improvements made in 2009 will be claimed on your 2009 taxes (filed by April 15, 2010) — use IRS Tax Form 5695 (2009 version) — it will be available late 2009 or early 2010
  • If you are building a new home, you can qualify for the tax credit for geothermal heat pumps, photovoltaics, solar water heaters, small wind energy systems and fuel cells, but not the tax credits for windows, doors, insulation, roofs, HVAC, or non-solar water heaters. More.

:}

Or you can go here:

http://www.energy.gov/taxbreaks.htm

Consumer Energy Tax Incentives
What the American Recovery and Reinvestment Act Means to You

The American Recovery and Reinvestment Act of 2009 extended many consumer tax incentives originally introduced in the Energy Policy Act of 2005 (EPACT) and amended in the Emergency Economic Stabilization Act of 2008 (P.L. 110-343). Businesses, utilities, and governments are also eligible for tax credits.

See the summary of the energy tax incentives included in the Emergency Economic Stabilization Act of 2008.

About Tax Credits
A tax credit is generally more valuable than an equivalent tax deduction because a tax credit reduces tax dollar-for-dollar, while a deduction only removes a percentage of the tax that is owed. Consumers can itemize purchases on their federal income tax form, which will lower the total amount of tax they owe the government.

Fuel-efficient vehicles and energy-efficient appliances and products provide many benefits such as better gas mileage –meaning lower gasoline costs, fewer emissions, lower energy bills, increased indoor comfort, and reduced air pollution.

In addition to federal tax incentives, some consumers will also be eligible for utility or state rebates, as well as state tax incentives for energy-efficient homes, vehicles and equipment. Each state’s energy office web site may have more information on specific state tax information.

Below is a summary of many of the tax credits available to consumers. Please see the ENERGY STAR® page on Federal Tax Credits for Energy Efficiency for complete details.

Home Energy Efficiency Improvement Tax Credits
Consumers who purchase and install specific products, such as energy-efficient windows, insulation, doors, roofs, and heating and cooling equipment in existing homes can receive a tax credit for 30% of the cost, up to $1,500, for improvements “placed in service” starting January 1, 2009, through December 31, 2010. See EnergyStar.gov for a complete summary of energy efficiency tax credits available to consumers.

Residential Renewable Energy Tax Credits
Consumers who install solar energy systems (including solar water heating and solar electric systems), small wind systems, geothermal heat pumps, and residential fuel cell and microturbine systems can receive a 30% tax credit for systems placed in service before December 31, 2016; the previous tax credit cap no longer applies.

Automobile Tax Credits
Hybrid Gas-Electric and Alternative Fuel Vehicles
Individuals and businesses who buy or lease a new hybrid gas-electric car or truck are eligible for an income tax credit for vehicles “placed in service” starting January 1, 2006, and purchased on or before December 31, 2010. The amount of the credit depends on the fuel economy, the weight of the vehicle, and whether the tax credit has been or is being phased out. Hybrid vehicles that use less gasoline than the average vehicle of similar weight and that meet an emissions standard qualify for the credit.

This tax credit will be phased out for each manufacturer once that company has sold 60,000 eligible vehicles. At that point, the tax credit for each company’s vehicles will be gradually reduced over the course fifteen months. See the IRS’s Summary of the Credit for Qualified Hybrid Vehicles for information on the status of specific vehicle eligibility.

Alternative-fuel vehicles, diesel vehicles with advanced lean-burn technologies, and fuel-cell vehicles are also eligible for tax credits. See the IRS summary of credits available for Alternative Motor Vehicles.

Plug-In Electric Vehicles
Plug-in electric vehicles also qualify for a tax credit starting January 1, 2010. The credit for passenger vehicles and light trucks ranges from $2,500 to $7,500, depending on batter capacity. The first 200,000 vehicles sold by each manufacturer are eligible for the full tax credit; the credit will then phase out over a year.

Plug-In Hybrid Conversion Kits
Hybrid vehicle owners who purchase a qualified plug-in hybrid conversion kit are eligible for a 10% credit, capped at $4,000, through 2011.

* Sources: ENERGYSTAR.gov and IRS.gov
** The IRS will determine final tax credit amounts. As more information becomes available, it will be posted on our website.

:}

I am getting tired now. So you can go here:

http://www.moneymaestros.com/federal-tax-credits-for-energy-efficiency-now-extended-in-2009/

 

Federal Tax Credits For Energy Efficiency Now Extended In 2009

by James K. on January 14, 2009

Good news for consumers who are energy conscious and using energy efficient appliances. Last October, Federal tax credits for energy efficient home improvements have been extended into 2009.

The recently-signed “Emergency Economic Stabilization Act of 2008? includes an extension of the residential tax credits for energy efficient improvements. The previous tax credits expired at the end of 2007.

It’s important to note that the new tax credits for installing energy efficient improvements are only good for 2009 installations. There are no tax credits for improvements installed during 2008.

The tax credits are available for insulation, replacement windows, water heaters, and certain high efficiency heating and cooling equipment. However, be aware that not all Energy Star rated improvements are eligible for the tax credit. Be sure to check EnergyStar.gov for rules and more details.

Here are some examples of the federal tax credits that are available to homeowners:

– Windows: 10% of cost, up to $200, for qualified ENERGY STAR windows, skylights and storm windows
– Doors (exterior): 10% of cost, up to $500, for qualifying doors (most ENERGY STAR doors will qualify)
– Roofs (metal): 10% of cost, up to $500, for qualifying ENERGY STAR metal roofs
– Insulation: 10% of cost, up to $500, for qualifying insulation (not vapor retarders or siding)
– Air Conditioning (split or package systems): $300 for qualifying systems, not all ENERGY STAR systems qualify
– Water Heaters (tankless only): $300 for qualifying systems
– Cars: Credits are available for certain cars, and is limited by 60,000 per manufacturer before a phase-out period begins
– Solar Water Heating: 30% of cost, up to $2,000, not available for water heaters used for pools or spas
– Solar Power (Photovoltaic): 30% of cost, up to $2,000, must provide electricity for the home
– Fuel Cells: 30% of cost, up to $1,000 per kW of power that can be produced

:}

Tomorrow – Paint your roof white

Local 193 of the International Brotherhood of Electricians Announces a new Green Union Hall

Posted on by
2

I could have picked any number of Google “friendly” topics today like:

Gasoline prices rise Oil prices don’t – because I have long argued that the refiners will restrict production to raise prices because of the Speculator Driven Oil Shock of 2008.

Obama to announce new mileage standards – because I argued during the campaign that if Obama wanted a real energy policy change he would ban the sale of gasoline in anything other than 1 gallon containers. Gas driven cars would disappear overnight.

There is a local story however that needs to be covered. Local 193 of the IBEW is breaking ground for a new union hall later this month and it is going to be a doozy. Geothermal, Solar and Wind, the whole enchilada. God I have always wanted to say that.

While there is nothing up on their websites yet (hint hint)

http://www.unions.org/home/v-28641-13-IBEW-.htm

http://www.ibew193.com/

Nor do they list the Building Committee on there web site. Here is what one of their better writers, Tim Landis,  had to say in the State Journal Register. First in brief:

http://www.sj-r.com/business/x1393569371/Tim-Landis-Changes-to-Lincoln-Home-site-considered

The INTERNATIONAL BROTHERHOOD OF ELECTRICAL WORKERS 193 plans to break ground Friday for a union hall and training center at 3150 Wide Track Drive, just off Dirksen Parkway in Springfield.

According to the union, the “green building” will include solar panels that cover the roof, geothermal heating and cooling, and green space. Long-term plans are to add a wind-turbine. The training center will offer instruction in wind and solar technology.
The site is adjacent to the existing hall, which also will be upgraded once the new building is finished.

:}

Then in a longer piece that talks about the Greening of Central Illinois:

The International Brotherhood of Electrical Workers Local 193 has begun construction of a new administrative office and training center at 3150 Wide Track Drive, just off Dirksen Parkway, in response to “green” trends in energy and job training, said business manager David Burns. The local represents about 800 workers in nine area counties.

“We just think that the green concept is more than right around the corner. It’s here,” Burns said.

In addition to use of geothermal heating and cooling, the solar panels on the roof are expected to provide most of the building’s electrical needs. Long-term plans are to add a wind turbine. Once the new hall is completed, the existing hall will be demolished to make way for green space, including landscaping and a retention pond.

But it’s the 12,500-square-foot training center that is the centerpiece of the green strategy for the labor union.

Plans are to offer hands-on training to apprentices in solar and wind technology. A “green jobs training curriculum” will include 70 lessons.

Burns said members already work on solar and wind projects, large and small, but that the training required will become more sophisticated along with the technology.

“We believe the demand is going to continue to grow,” Burns said. “As the technology gets better and better, we’re going to have to train people.”

:}

He listed these jobs that could enlist Electricians:

Jobs of the future?
A state list of “green jobs” outlines the top jobs that should be available in coming years or that will require retraining as alternative energy use increases. Additional information is available at http://www.ilworkinfo.com.

Among the categories:
* Building retrofitting. Electricians, heating and air conditioning, carpenters, construction equipment operators, roofers, insulation workers, carpenter helpers, industrial truck drivers, building inspectors and construction managers.

* Smart grids. Computer software engineers, electrical engineers, electrical equipment assemblers, electrical technicians, machinists, construction laborers, operating engineers, electrical power line installers and repair technicians.
* Wind power. Environmental engineers, iron and steel workers, millwrights, sheet metal workers, machinists, electrical equipment assemblers, construction equipment operators, industrial truck drivers, industrial production managers and production supervisors.
* Solar power. Electrical engineers, electricians, industrial machinery mechanics, welders, welders, metal fabricators, electrical equipment assemblers, construction equipment operators, installation helpers, laborers and construction managers.

:}

Way to go 193!

:}

Solar Power Is Ramping UP – Projects announced in New York, Australia and San Francisco in the last couple of weeks

Posted on by
1

What has the Oil and Coal Industries freaking out? All the money they are missing out on by not sitting at the cool kid’s table. But then like Enron, and the AIG criminal frauds….they are not the smartest guys and gals in the room.

http://www.environmentalleader.com/2009/05/18/new-york-plans-100-mw-solar-project/

May 18, 2009

New York Plans 100 MW Solar Project

solar5-09

New York Governor David Paterson has announced a 100 MW solar photovoltaic project in New York. The initiative follows on the heels of a recently announced 50 MW solar photovoltaic project. Together, these projects totaling 150 MW would position New York as the state with the second highest installed PV capacity.

The new installations will help New York reach its aggressive renewable energy goals – by 2015, the tate wants to receive 45 percent of its electricity through energy efficiency and clean renewable energy.

The New York Power Authority will issue a Request for Expressions of Interest for the purpose of exploring a public-private partnership for the installation of up to 100 megawatts of solar photovoltaic systems, including roof-mounted and ground-mounted PV arrays at municipal facilities, public and private schools, businesses and state agencies throughout New York. The deadline for receipt of RFEI proposals is July 7, 2009.

Specifically, NYPA is seeking proposals that would promote “potential regional economic development opportunities for local component manufacturing and assembly.”

If the RFP is issued, it would likely result in a 2010 project start date.

In an attempt to be more environmentally friend, New York City Mayor Michael Bloomberg proposed that wind turbines be installed on top of the city’s skyscrapers and bridges.

The city has also issued an RFP last year for private solar developers to purchase, install, own and maintain solar panels on city-owned buildings in all five boroughs as part of PlaNYC.

:}

http://www.abc.net.au/news/stories/2009/05/17/2572847.htm?section=business

Rudd plans ‘world’s largest’ solar project

Posted Sun May 17, 2009 1:22pm AEST
Updated Sun May 17, 2009 4:33pm AEST

Map: Liddell 2333

The Federal Government says it wants to create the largest solar energy project in the world.

It says the project will be as close as possible to the existing energy grid.

Visiting Liddell Power station in the Hunter Valley, Prime Minister Kevin Rudd said the Government would spend almost $1.4 billion creating the project.

The funding is part of the Government’s commitment to spend $4.5 billion on reducing carbon pollution.

The project will include up to four individual solar plants generating on average the same amount of energy as a coal-fired power station.

Prime Minister Kevin Rudd says the most appropriate sites will be chosen through a tender process to be completed by next year.

“The location will be determined in terms of maximum access to sunlight, maximum proximity to the electricity grid to minimise costs of transmission systems, as well as a number of other technical and design factors as well,” he said.

Mr Rudd has also announced that Australia will become a full member of the International Renewable Energy Agency (IREA), which will hold its first meeting in June.

Currently the largest operating plant is in California in the United States.

The Government’s Solar Flagships program hopes to create three times as much energy as that project.

:}

http://greeninc.blogs.nytimes.com/2009/05/08/san-francisco-approves-major-solar-project/

May 8, 2009, 12:00 pm

San Francisco Approves Major Solar Project

By Nick Chambers

INSERT DESCRIPTION

Recurrent Energy San Francisco, in a deal with Recurrent Energy, plans to place a 25,000-panel photovoltaic solar array atop the city’s largest reservoir.

San Francisco’s Board of Supervisors has approved a plan to build what would be one of the largest solar photovoltaic arrays in California. With five megawatts of capability spread over 25,000 panels, it will, if completed, also be among the largest municipal solar projects in the United States.

(Larger nonmunicipal arrays exist, including a 14-megawatt, 70,000-panel array at Nellis Air Force Base in Nevada.)

San Francisco’s proposed system — which would produce roughly the amount of energy used by 1,000 households, the developers said — would bring the city’s total solar capacity to seven megawatts. It will be used to power municipal properties like schools and government offices.

“Earlier this week, San Francisco took another major step towards achieving our commitments to reduce greenhouse gases and grow our green economy,” said San Francisco’s mayor, Gavin Newsom, in an e-mail message. “With this single project, we will more than triple San Francisco’s solar energy production, build California’s largest photovoltaic system and help lead the state towards a future of clean, renewable energy.”

Under the deal, Recurrent Energy, a local solar company, will assume the initial financial responsibility for the panels, as well as pay for continuing operating and maintenance costs. In return, the city incurs no upfront expenses, but is obliged to purchase energy directly from Recurrent Energy at a cost of 23.5 cents per kilowatt-hour, plus 3 percent per year.

In years 7, 15 or 25 of operation, the city has the option to purchase the array outright at fair market value or $33 million — whichever is higher.

:}

Windows That Generate Electricity – Integrated Photovoltaics and your house

Posted on by
Reply

I said yesterday, how would your world change if everything on the outside of your house generated electricity? I skipped windows because they are a topic in and of themselves.

http://www.buildingsolar.com/design.asp#anchor138832Vision Glass

Photovoltaic (PV) vision glass substitutes a thin-film, semi-transparent photovoltaic panel for the exterior glass panel in an otherwise traditional double-pane glass window or skylight. Electric wires extend from the sides of each glass unit and are connected to wires from other windows, building up the entire system. The technology, while available in Europe, is currently being developed as part of a United States Department of Energy PV-BONUS project.

On the University of Wisconsin-Green Bay campus, the system, rated at about 11 kW, substitutes Building Integrated Photovoltaic vision glass for traditional windows in the Wintergarden of Mary Ann Cofrin Hall.

This system spans 2,000 square feet and generates about 12,500 kWh annually. The “PV Glass” unit was manufactured by Viracon, Inc. using BP Solar MST-43LV 43-watt, thin-film photovoltaic modules and was installed in a standard Kawneer Company 1600 PowerWall (TM). In this application, BP Solar laser-etched their photovoltaic modules to create a desired transmittance for the Wintergarden.   Sunspace
Artist’s rendering of Wintergarden.

A total of 252 modules were installed. Each vision glass surface has 13 layers of thin film, altogether thinner than one piece of paper, sandwiched between two protective layers of glass.

:}

What if it was a SMART Window? One that opened when the house got too cold or too hot?

http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V2V-4MH8BDR-1&_user=10&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=4b8850a2c79f9f29640dca3f42ce3fde

Performance evaluation of a PV ventilated window applying to office building of Hong Kong

T.T. ChowCorresponding Author Contact Information, a, E-mail The Corresponding Author, K.F. Fonga, W. Hea, Z. Lina and A.L.S. Chana

Received 29 June 2006; 

revised 23 September 2006;

accepted 26 September 2006.

Available online 6 December 2006.


Abstract

PV ventilated glazing technology for application in warm climate provides energy saving opportunities through the reduction in air-conditioning load, the daylight utilization, and the green electric power generation. In a working environment, the use of semi-transparent a-Si glazing is deemed better than the one with non-transparent c-Si solar cells. This paper reports an evaluation of its integrated performance using a small office room in Hong Kong as an example. An energy model of a PV ventilated window system is first introduced. Based on this together with the TMY weather data of Hong Kong and the daylight simulation capability of the EnergyPlus program, the overall performance analysis have been executed for different window orientations. It was found that a solar cell transmittance in the range of 0.45–0.55 could achieve the best electricity saving.

:}

It’s getting to be big business:

http://www.optoiq.com/articles/display/361842/s-articles/s-laser-focus-world/s-industry-news/s-konarka-partners-with-window-company-on-bipv-integrating-photovoltaics-with-glass.html

Konarka partners with window company on BIPV; integrating photovoltaics with glass

May 12, 2009–Konarka Technologies (Lowell, MA), a developer of Konarka Power Plastic, a material that converts light to energy, entered into an advanced product development agreement with Florida-based Arch Aluminum & Glass Co. Together, they plan to collaborate on building integrated photovoltaics (BIPV), with a memorandum of understanding to integrate Konarka’s patent-protected thin-film solar material into glass for various commercial BIPV applications (see “ Thin-film and organic photovoltaic manufacturing to reach 29 GWp” and “THIN-FILM PHOTOVOLTAICS: The key to success is higher efficiency“).

“Konarka is making great strides with our aggressive plans to expand into various markets, including building and construction,” said Rick Hess, president and CEO at Konarka. “Because our solar material is flexible, lightweight and semi-transparent, it integrates easier and is more aesthetically appealing than other solar products, making it ideally suited for BIPV applications. We expect that our collaborative work with Arch Aluminum & Glass will advance the delivery of Konarka Power Plastic on a large scale basis into this market segment.”

Arch Aluminum specializes in a wide range of artistic and architectural glass products to keep pace with the demands of today’s architects, designers and building developers. The company offers in-house laminating, heat-treating and fabrication technology as well as selective, engineered, off-the-shelf aluminum and glass products.

“Until today, aesthetic and performance concerns limited the ability of architects to use BIPV technology in their designs,” said Arch CEO Leon Silverstein. “This product development investigation is about the creation of a new product category, one that had been unavailable until today. It is energy-efficient and transparent with superior vertical performance and a subtle red, blue or green aesthetic. With these features, BIPV will no longer need to be confined to spandrel or overhead applications. An entire building can be put to use, producing its own power, and looking good doing so.”

In October 2008, Konarka opened the largest roll-to-roll flexible thin film solar manufacturing facility in the world, preparing for the commercialization and mass production of its solar material for various market segments including sensors, consumer products, tent and fabric structures, greenhouses, marine and boating, building construction, as well as fashion and accessories, among others.

:}

This would be Barack Obama’s GREEN Economy or as I like to say Greenomy.

:}

Flexible Solar Photovoltaics – They could change your view of electrical power forever

Posted on by
2

What would the world look like if every surface of your house generated electricity. This is a very practical issue. During the illegal rate hikes of 2007 my brother Mike who owns an all electric house figured that for him to got off the grid it would take a 10 kilowatt system. At the time using only solid solar panels he figured there was not enough space on his roof to put the power generation there. But what if every surface of his house except the windows generated power. I am sure that he has enough sun facing surfaces to generate that much power. (more on the windows later. and yes I did recommend a personal windmill but…)

First there is the flex version of a stand panel which is light enough to hang on exterior walls:

http://store.altestore.com/Solar-Panels/Flexible-Rollable-Solar-Panels/c679/

Flexible Solar Panels, Flexible Portable Solar Panels, Solar Energy Panels from

Flexible solar panels are the perfect low wattage, environmentally friendly and space efficient energy solution. If you have an appliance or gadget that requires between 5 and 20 watts of power, these versatile flexible portable solar panels will be just the right fit. Just use these solar energy panels to charge up the battery you want to use to run your basic necessities. You can roll them up to move them or store them or install them semi-permanently. These are a great solution for camping or marine excursions where you may not have sufficient room for a traditional solar panel. These flexible solar panels come in multiple sizes and can offer multiple wattage power and they all weigh less than 2 pounds.

:}

It can even bend around corners:

http://www.siliconsolar.com/flexible-solar-panels.html

Flexible Solar Panels: The lightest thin film flexible solar panels on today’s market are available from Silicon Solar.

Solar technology has reached its most convenient, lightweight form: the newly-engineered flexible solar panel. Silicon Solar is the proud carrier of over 50 modules of flexible solar panels, offered in a variety of sizes.

Through recent developments, Silicon Solar has provided ways of listing thin, light weight, flexible solar panels allowing for multiple applications to now be solar accessible that never were before.

Thin Film solar cells and panels now allow for several types of application to be introduced into the market including solar backpacks, solar thin film clothing and athletic apparel. We at Silicon Solar have taken these methods to the extreme and receive requests from customers who give us incentive and constructive feedback on developing new ways of utilizing this technology not only for them, but for you as well. Each flexible solar panel can be rolled up to 2 inches in diameter, making the paper thin solar cell one of the most durable and long lasting solar modules on the market.

:}

What about a tent that generates all the electricity you need on a camping trip? I can’t show you much of the website because it is too heavey into video but:

http://www.powerfilmsolar.com/

What’s New

Earth Care Products Using PowerFilm Technology
A stick-on solar panel to use to charge golf cart batteries while out on the course is voted the year’s best new product by the PGA.
http://www.solarenergygolfcarts.com/

PowerFilm’s USB + AA Solar Charger took second place in the Mobile CE – Fashion & Lifestyle Products competition at CTIA Wireless 2009.

Nearly 300 products were submitted for consideration for the various catagories and PowerFilm was among the few to be recognized.

Temporarily Unavailable
The RA-5 Accessory (12-Volt Deluxe Universal Battery Charger/Analyzer/Conditioner) is temporarily out of stock. Sorry for any inconvenience. Please check back soon!

:}

Finally what if your drapes in your windows or the couch in the bay window could be generators? Now imagine everyhouse in the United States outfitted this way.

http://www.sciencedaily.com/releases/2008/06/080617114723.htm

Getting Wrapped Up In Solar Textiles

ScienceDaily (June 21, 2008) — Sheila Kennedy, an expert in the integration of solar cell technology in architecture who is now at MIT, creates designs for flexible photovoltaic materials that may change the way buildings receive and distribute energy.

These new materials, known as solar textiles, work like the now-familiar photovoltaic cells in solar panels. Made of semiconductor materials, they absorb sunlight and convert it into electricity.

Kennedy uses 3-D modeling software to design with solar textiles, generating membrane-like surfaces that can become energy-efficient cladding for roofs or walls. Solar textiles may also be draped like curtains.

“Surfaces that define space can also be producers of energy,” says Kennedy, a visiting lecturer in architecture. “The boundaries between traditional walls and utilities are shifting.”

Principal architect in the Boston firm, Kennedy & Violich Architecture, Ltd., and design director of its materials research group, KVA Matx, Kennedy came to MIT this year. She was inspired, she says, by President Susan Hockfield’s plan to make MIT the “energy university” and by MIT’s interdisciplinary energy curriculum that integrates research and practice.

:}

http://web.mit.edu/newsoffice/2008/solar-textiles-0609.html

MIT lecturer focuses on flexible photovoltaic materials

Sarah H. Wright, News Office
June 9, 2008

This spring, Kennedy taught a new MIT architecture course, Soft Space: Sustainable Strategies for Textile Construction. She challenged the students to design architectural proposals for a new fast train station and public market in Porto, Portugal.

For Mary Hale, graduate student in architecture, Kennedy’s Soft Space course was an inspiration to pursue photovoltaic technology in her master’s thesis.

“I have always been interested in photovoltaics, but before this studio, I am not sure that I would have felt empowered to integrate them into a personal, self-propelled, project,” she says.

Kennedy, for her part, will pursue her research in pushing the envelope of energy-efficiency and architecture. A recent project, “Soft House,” exhibited at the Vitra Design Museum in Essen, Germany, illustrates what Kennedy means when she says the boundaries between walls and utilities are changing.

For Soft House, Kennedy transformed household curtains into mobile, flexible energy-harvesting surfaces with integrated solid-state lighting. Soft House curtains move to follow the sun and can generate up to 16,000 watt-hours of electricity–more than half the daily power needs of an average American household.

:}

What Does Spain Know That The US Doesn’t – Not only do they lead the world in solar

Posted on by
3

They lead in the US as well.

http://ecoworldly.com/2009/04/07/spain-leads-the-world-in-new-solar-energy-development/

Spain Leads the World in New Solar Energy Development

 

Written by Bryan Nelson

Published on April 7th, 2009

2 Comments

Posted in About Energy, In Europe

According to a newly released draft of a report by the Renewable Energy Policy Network for the 21st Century (REN21), Spain now leads the world in added photovoltaic capacity.

Solar Energy Panels

Although Germany is still the leading nation in total grid-connected solar photovoltaic capacity, this news now means Spain has surged into second place there. The report comes as an embarrassment for a floundering Japan, who used to lead the world, but now has fallen to third place in total capacity and forth place in added capacity.

Spain added 1.7 million kilowatts of capacity in 2008, followed by Germany at 1.5 million kilowatts. The United States lagged behind in a distant third place at 300,000 kilowatts, followed by Japan with only 240,000 kilowatts. The news is disappointing for Japan, but it should be equally as distressing for the United States, which continues to show only slow improvements year.

:}

This is why. They give awards for being sustainable!

http://www.managenergy.net/products/R1574.htm

Good Practice Case Study: Sustainable Energy Solutions in Barcelona – Spain

Case Study (45 KB PDF)

Imma Mayol i Beltran receives the ManagEnergy Local Energy Action Award 2007 from Alfonso González Finat In 2007, Barcelona won the ManagEnergy Local Energy Action Award for their committment to Sustainable Energy Solutions in Barcelona.The Award was presented to Imma Mayol i Beltran, Vice-Mayor of Barcelona and President of Agència d’Energia de Barcelona, Spain during the plenary session of the ManagEnergy Annual Conference Award by Alfonso González Finat, Conference Chair [left].
Link to website for Directorate-General for Energy and Transport

link to presentation

ManagEnergy Local Energy Action Award 2007

Feb 2007   ( 14min 0sec )    
Link to website for Directorate-General for Energy and Transport

link to presentation of Imma Mayol

Barcelona – sustainable energy city

Feb 2007   ( 9min 0sec )    

Imma Mayol
Deputy Mayor and Chairman of Sustainability, Barcelona

Summary

The goals of Barcelona City Council’s Plan for Energy Improvement in Barcelona (2002-2010) are to increase the use of renewable energy (especially solar energy), reduce the use of non-renewable energy sources and lower the emissions produced by energy consumption in order to meet Barcelona City Council’s international protection commitments. This integrated plan includes a quantification of the energy used and emissions produced in the city and provide scope for municipal action to promote an environmentally sustainable city, reducing air pollution and the consumption of fossil fuels in the process. As part of its plan a Solar Thermal Ordinance has been introduced. The aim of the ordinance is to regulate, through local legislation, the implementation of low-temperature systems for collecting and using active solar energy for the production of hot water for buildings. New buildings and buildings undergoing major refurbishment are required to use solar energy to supply 60% of their running hot water requirements. Since its enforcement licenses for the installation of a total of 14,028 square meters of solar panels have been requested with annual savings of 11,222 Megawatt hours and a corresponding reduction in eCO2 emissions of 1,973 tonnes per year.

Results

The strategies named promotion policies and demonstration projects have been present in the city for several years, with different examples such as the installation of solar systems in schools, sports centres (solar thermal installation in the Olympics Swimming Pool ) or in some other public buildings (solar photovoltaic installation in the Town Hall building).

Concerning legal instruments, Barcelona is the first European city to have a Solar thermal ordinance. According to this bylaw all new buildings and buildings undergoing major refurbishment are obligated to use solar energy to supply 60% of their running hot water requirements. This solar ordinance was approved by the Barcelona City Council in July 1999 and entered into force in August 2000. This new policy has brought Barcelona to multiply per more than 10 the surface of solar thermal square metres (licenses requested), moving from 1,1 sqm /1.000 inhabitants (in 2000) to 13 sqm/1.000 inhabitants [as of march 2004, the licenses requested for the installation of solar panels made up a total of: 19.543 sqm of solar panels (before: 1650 sqm)]. We are happy to see these results and specially to see that more than 20 Spanish cities are now “replicating” this initiative taking Barcelona as a model.

The Barcelona Energy Improvement Plan (PMEB), a 10 year plan adopted in 2002, and the Barcelona Energy Agency, are two major management instruments that ensure the commitment of the City to further promote these energy measures in a planned and structured manner. The Barcelona Energy Improvement Plan proposes a series of measures and 55 projects for local action up to the year 2010, these being centred on energy savings and in the use of renewable energies.

The municipal action promoting a sustainable energy city also works towards the integration of sustainable energy measures in urban developments, an example of this integration are thesustainable energy measures in the Forum Barcelona 2004 area. The major Sustainable Energy measures in the Forum 2004 area are the following:

  • Urban solar FV power station (10.700 sqm, 1,3 MWpic)
  • District heating & cooling system, and
  • Energy efficient buildings.

Keywords

To find similar reports, click on a keyword below:
Buildings : Cooling : District Heating : Energy Efficiency : Heat/Heating : Local Government : ManagEnergy : New Buildings : Planning issues : Refurbishment of Buildings : Regional Government : Regulatory framework : Renewable Energy Sources & Systems : Schools & Colleges : Solar Thermal : Sustainable Communities : Sustainable Energy

:}

http://www.technologyreview.com/microsites/spain/solar/index.aspx

Solar Energy in Spain

Spain forges ahead with plans to build concentrating solar power plants, establishing the country and Spanish companies as world leaders in the emerging field. At the same time, the number of installed photovoltaic systems is growing exponentially, and researchers continue to explore new ways to promote and improve solar power. This is the seventh in an eight-part series highlighting new technologies in Spain and is produced by Technology Review, Inc.’s custom-publishing division in partnership with the Trade Commission of Spain.

From the road to the Solúcar solar plant outside Seville, drivers can see what appear to be glowing white rays emanating from a tower, piercing the dry air, and alighting upon the upturned faces of the tilted mirror panels below. Appearances, though, are deceiving: those upturned mirrors are actually tracking the sun and radiating its power onto a blindingly white square at the top of the tower, creating the equivalent of the power of 600 suns, which is used to vaporize water into steam to power a turbine.

This tower plant uses concentrated solar technology – otherwise known as solar thermal power – with a central receiver. It’s the first commercial central receiver system in the world.

Spanish companies and research centers are taking the lead in the recent revival of concentrated solar power, as expanses of mirrors are being assembled around the country for concentrated solar plants. At the same time, Spanish companies are also investing in huge photovoltaic fields, as companies dramatically increase production of PV panels and investigate the next generation of PV. Spain is already fourth in the world in its use of solar power, and second in Europe behind Germany, with more than 120 MW in about 8300 installations of PV. Within only the past ten years, the number of companies working in solar energy has leapt from a couple dozen to a few hundred.

Power from the Sun’s Heat
Southern Spain, a region known the world over for its abundant sun and scarce rain, provides an ideal landscape for solar thermal power. The tower outside Seville, built and operated by Solúcar, an Abengoa company, is the first of a number of solar thermal plants and will provide about 10 MW of power. The company SENER is completing Andasol 1, the first parabolic trough plant in Europe, a 50 MW system outside Granada that will begin operation in the summer of 2008.

Solar thermal power, also known as concentrating solar, works by utilizing the heat of the sun (unlike PV panels, which work on the principle of the movement of electrons between layers when the sun strikes the materials).

:}

At one level this is great. At a personal level it sucks.