Cash For Caulkers Bill – Houston Neal explains it all

OK I am burned out on the Gulf Oil Spill. Houston Neal offered to let me post his piece on the Cash For Caulkers Bill. Normally such offers are from scammer links and such. Houston is involved with a software company so it is clear that he has advertising intents BUT it is such a damn fine article that I will post part of it so you can see for yourself and then you can go there and read it for yourself.

http://www.softwareadvice.com/articles/construction/cash-for-caulkers-the-definitive-guide-to-the-home-star-bill-1061110/

Houston Neal close Houston info gravatar Houston Neal

Director of Marketing at Software Advice
(512) 364-0117 LinkedIn
houston@softwareadvice.com v-card

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Cash for Caulkers – The Definitive Guide To The Home Star Energy Retrofit Act of 2010

Posted on June 11, 2010 at 11:41 am

“Cash for Caulkers” is nearly here. Last month the House of Representatives passed H.R. 5019 – also known as the Home Star Energy Retrofit Act of 2010 or “Cash for Caulkers” – to kick-start construction, create jobs and cut back carbon emissions. While the bill still needs to clear the Senate, supporters predict it will pass this summer.

This is great news for homeowners and contractors alike. The bill provisions $6 billion for energy-efficient or “green” retrofits. It is expected to fund renovations for 3 million families, create 168,000 new jobs and save consumers $9.2 billion on energy bills over the next 10 years.

But in order to cash in on upcoming rebates, homeowners and contractors will need to do their homework. There are 13 types of retrofits eligible for funding. Each retrofit has unique eligibility requirements and set rebate amounts. You can read the full text here.

We made it really easy to wade through the legalese. Below is a table that breaks down the 13 retrofits of the bill, along with the requirements and rebate amount for each. In addition to the requirements we listed, each retrofit must comply with Building Performance Institute (BPI) standards or other procedures to be approved by the Secretary of Energy.

Retrofit Requirements Rebate Amount
Air sealing Rebate covers both interior and exterior sealing and includes use of the following products: sealants, caulks, insulating foams, gaskets, weather-stripping, mastics, and other building materials. $1,500
Attic insulation Must meet the attic portions of the Department of Energy (DOE) or Environmental Protection Agency (EPA) thermal bypass checklist. You must add at least R–19 insulation to existing insulation, and it must result in at least R–38 insulation in DOE climate zones 1 through 4 and at least R–49 insulation in DOE climate zones 5 through 8. Finally, it must cover at least 100 percent of an accessible attic or 75 percent of the total conditioned footprint of the house. $1,000
Duct replacement and sealing Sealing must be installed in accordance with BPI standards or other procedures approved by the Secretary of Energy. For duct replacement, you must replace and seal at least 50 percent of a distribution system of the home. $1,000
Wall insulation Insulation must be installed to full-stud thickness or add at least R–10 of continuous insulation. It must covers at least 75 percent of the total external wall area of the home. $1,500
Crawl space or basement insulation Insulation must cover at least 500 square feet of crawl space or basement wall and add at least R–19 of cavity insulation or R–15 of continuous insulation to existing crawl space insulation; or R–13 of cavity insulation or R–10 of continuous insulation to basement walls. For rim joist insulation, you must fully cover the rim joist with at least R–10 of new continuous or R–13 of cavity insulation. $250 for rim joist insulation
Window replacement Must replace at least 8 exterior windows, or 75 percent of the exterior windows in a home, whichever is less, with windows that are certified by the National Fenestration Rating Council. Must comply with criteria applicable to windows under section 25(c) of the Internal Revenue Code of 1986 or, in areas above 5,000 feet elevation, have a U-factor of at least 0.35 when replacing windows that are single-glazed or double-glazed with an internal air space of 1/4 inch or less. $1,000
Door or skylight replacement Must replace at least 1 exterior door or skylight with doors or skylights that comply with the 2010 Energy Star specification for doors or skylights. $125 per door or skylight with a limit of 2 doors and 2 skylights
Heating system replacement See second table below $1,000
Air-source air conditioner or heat pump installation Must be installed in accordance with ANSI/ACCA Standard 5 QI–2007. The air-source air conditioner must meet or exceed SEER 16 and EER 13; or SEER 18 and EER 15. The air-source heat pump must meet or exceed SEER 15, EER 12.5, and HSPF 8.5. $1,500
Geothermal heat pump installation Must be an Energy Star qualified geothermal heat pump that meets Tier 2 efficiency requirements and that is installed in accordance with ANSI/ACCA Standard 5 QI–2007. $1,000
Water heater replacement See third table below $1,000
Storm windows or doors installation Must be installed on at least 5 existing doors or existing single-glazed windows. Must comply with any procedures that the Secretary of Energy may set for storm windows or doors and their installation. $50 for each window or door with a minimum of 5 windows or doors and a maximum of 12
Window film installation Window film that is installed on at least 8 exterior windows, doors, or skylights, or 75 percent of the total exterior square footage of glass in a home, whichever is more, with window films that are certified by the National Fenestration Rating Council. Must have a solar heat gain coefficient of 0.43 or less with a visible light-to-solar heat gain coefficient of at least 1.1 for installations in 2009 International Energy Conservation Code climate zones 1–3; or a solar heat gain coefficient of 0.43 or less with a visible light light-to-solar heat gain coefficient of at least 1.1 and a U-factor of 0.40 or less as installed in 2009 International Energy Conservation Code climate zones 4–8. $500

We also decided to combine these retrofits into three packages that will help homeowners get the best bang for their buck. But first, let’s review the program details.

Who is Eligible and How to Qualify?
The Home Star bill offers two rebate programs, the “Silver Star” program and “Gold Star” program. Here are details for each:

  • Silver Star – Unless another amount is specified in the “Rebate Amount” column above, homeowners will receive a $1,000 rebate for each retrofit listed in our table. The maximum amount of rebates paid out will be $3,000 or 50% of the total cost, whichever is lower. For example, if a homeowner spends a total of $4,000 on eligible retrofits, they will get $2,000 or 50% back as a rebate. If they spend $8,000 on eligible retrofits, they would only receive $3,000 in rebates instead of $4,000 (which would be 50% of the cost).
  • Gold Star – To qualify for the Gold Star program, homeowners must reduce their total home energy consumption by 20%. A $3,000 rebate will be rewarded for this reduction. Homeowners can receive an additional $1,000 for each additional 5% reduction, up to a total rebate of $8,000 or 50% of the total retrofit cost. Rebates may be provided for any of the retrofits listed under the Silver Star program, or for any other energy-saving measure, including: home energy management systems, high-efficiency appliances, highly reflective roofing, awnings, canopies, and similar external fenestration (window) attachments, automatic boiler water temperature controllers, energy-efficient wood products, insulated vinyl siding, and mechanical air circulation and heat exchangers in a passiv

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Please go to this article and read the rest of it….Conservation is in the air.

More tomorrow.

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City Water Light And Power – Energy Efficiency in Springfield Illinois

I forget to give them the credit they deserve. We have a local utility that has invested in wind power and early Energy Conservation Programs. And it was created by a socialist.

http://www.cwlp.com/

Welcome to the home page of City Water, Light & Power (CWLP), the municipal electric and water utility for Springfield, Illinois. CWLP also owns and manages Lake Springfield, the primary source of drinking water for Springfield and one of Central Illinois’ premier recreational resources.

City Water, Light & Power’s general offices are located on the fourth floor of Municipal Center East, 800 East Monroe, Springfield, IL 62757. Contact information for the General Office and other utility offices can be found on the Contact Information page in the About CWLP section.

For more information about the utility or its various divisions, select one of the main topics or subtopics in the left-hand column of this page.

Top l CWLP Home l CWLP Contact Info l Search l City of Springfield

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These guys are the best.

http://www.cwlp.com/energy_services/energy_services.htm

The CWLP Energy Services Office offers a variety of services designed to help our residential and commercial customers increase personal comfort and convenience while reducing energy and water costs. The office is staffed by a team of  Energy Experts who work diligently to keep abreast of the latest developments in energy-related technologies. They share their knowledge with CWLP’s residential and business customers via several avenues, including advertising; free publications produced specifically with our customers’ needs in mind; bill inserts; informational videos; home energy audits; and Low-Cost/No-Cost Efficiency Workshops and other community involvement programs. The Energy Services Office also administers CWLP’s efficiency rebate programs.

The  Energy Services Office is in downtown Springfield on the northwest corner of Monroe and S. 6th Streets. We invite customers to stop in and visit us, view our energy-efficient lighting displays and water conservation exhibit, pick up free efficiency literature, or talk with the Energy Experts. We also welcome questions or requests for information that come through the mail, by phone or FAX, or via email.

Reach us at: 2nd Floor
231 S. 6th St.
Springfield, IL 62701
Phone: (217) 789-2070
FAX: (217) 789-2210
email: nrgxprts@cwlp.com

For more information about CWLP’s Energy Services Office or about how you can make your home or business more energy efficient, select any of the topics or subtopics listed in the left-hand column of this page.

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See you at jam band friday…

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Energy Concerns And Healthcare

The medical and healthcare industries use energy like there was no tomorrow. I estimate that the US could save at least 20% on its healthcare bills. For those of you in small towns…how much do you waste on driving to your doctor? Why don’t the hospitals put a telecommunications computer in your city or town hall? That way you can call in, get an appointment, walk down to City Hall and talk to your doctor. Even show him where you hurt. To say the medical community is stodgy is wrong…it is too smart for its own britches.

http://www.matmanmag.com/matmanmag_app/jsp/articledisplay.jsp?dcrpath=MATMANMAG/Article/data/11NOV2008/0811MMH_FEA_Purchasing&domain=MATMANMAG

The bright side of energy conservation
Using renewable sources saves money, reduces emissions

By Gina Pugliese and Nick DeDominicis

QUICK TAKE>>>
Hospitals are behind other industries in employing energy conservation initiatives, including the use of renewable energy sources. But times are changing as they realize that wasted energy drains their bottom lines and that they have a responsibility to reduce their carbon footprint for the health of the environment and surrounding communities. Energy-saving initiatives require multidepartmental collaboration within a hospital; and materials managers need to ensure they are a part of that because their expertise can make a difference.

According to the Environmental Protection Agency (EPA), every dollar a not-for-profit health care organization saves on energy is equivalent to generating $20 in new revenue for hospitals or $10 for medical offices. So why aren’t all hospitals jumping into energy conservation with both feet? There are many reasons. But this is certain: Most hospitals recognize that energy conservation is a priority and are gradually realizing the benefits, both to their bottom line and the environment.

On impact

Energy issues have an impact on virtually every aspect of health care. Demands for energy and the costs for providing it, are escalating rapidly. And those costs are not confined to higher utility, transportation and supply bills, but also the gradual destruction of the environment. Our nation’s dependence on fossil fuels has led to a documented rise in global warming caused by greenhouse gas emissions, as well as potentially negative health consequences for patients and workers.

Demand for energy is soaring across all sectors of the American economy. In fact, a recent Department of Energy survey of 20 major companies concluded that global demand for energy resources will rise dramatically—nearly 60 percent—throughout the next 25 years.

Senior executives from 20 major companies attending a 2007 workshop hosted by the EPA and Global Business Network estimated that  electricity demand in the United States alone will grow by at least 40 percent throughout the next 25 years, requiring at least 300 power plants to be built over that time. Such demands have led to an unprecedented rise in energy costs, which have surged dramatically and put a significant financial strain on hospitals. In some areas of the United States, energy costs have grown by more than 60 percent in the past few years.

The Energy Information Administration’s data show that the health care industry spends an estimated $7.4 billion on energy ($5.3 billion for inpatient and $2.1 billion for outpatient facilities). More than 90 percent of hospitals surveyed recently by Healthcare Financial Management magazine reported higher energy costs over the previous year, and more than half cited double-digit increases.

Greenhouse gas (GHG) emissions result from our nation’s reliance on nonrenewable sources of energy—fossil fuels, coal, oil and natural gas—that accelerate global warming and climate change; and there is much debate about how to curb such trends. GHG emissions, which include carbon dioxide, methane and nitrous oxide, also are increasingly linked to a host of serious public health consequences such as depletion of our planet’s fresh water supply and respiratory ailments.

Conservation now

Health care is a veritable energy hog. Whether from heating and cooling air and water, lighting spaces or transporting goods and services, the industry is heavily reliant on energy from mostly conventional nonrenewable sources.

According to the EPA, inpatient health care is the second most energy intensive industry in the United States (second only to the food service industry), gobbling up more than twice as much energy per square foot as nonhealth care office buildings. Buildings alone are responsible for almost half of the energy consumed in the United States and 48 percent of all GHG emissions. Hospitals alone use 836 trillion British thermal units (BTUs) of energy annually, have more than 2.5 times the energy intensity and CO2 emissions of commercial office buildings and are consistently within the top 10 water users in their communities.

Second, the calls for change are based on economic survival. Energy costs are soaring in the health care industry. A recent Department of Energy report found that rising energy prices and hospitals’ increasing energy demands have escalated costs so much that hospitals’ energy bills consume up to 3 percent of their total operating budgets, and up to at least 15 percent of their annual profits. Such phenomena are exacerbated by the added cost of running outdated and energy inefficient building systems.

Third, calls for energy conservation in health care are becoming louder because of hospitals’ ethical duty to protect public health. Many observers believe that the health care industry contributes disproportionately to the detrimental public health consequences of climate change. To keep true to its mandate—first, do no harm—hospitals today increasingly are turning their attention to change practices that can potentially jeopardize patient and worker safety. Increasing public concerns about climate change and its potential health, economic and security consequences are helping to shape the industry’s attitude toward climate change.

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dot dot dot…as they say…the headlines say it all:

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Behind the times

Although hospitals lag behind other industries in implementing energy-efficient strategies, there are numerous national initiatives focusing on health care, including a two-year-old initiative called E2C (Energy Efficient Challenge) that was launched by the American Society for Healthcare Engineering (ASHE) to support the goals of EPA’s Energy Star Challenge Program, says Dale Woodin, ASHE executive director. Woodin explains that this lag is often due to the lack of available capital, expertise and resources, and a need for greater awareness and support from senior health care leaders.

Health care companies in general also spend a smaller portion of their total expenses on energy, meaning fewer dollars are available to make far-reaching improvements. Rising energy costs are squeezing operating margins and diverting money needed for critical health care quality and safety improvements.

In essence, the primary driver is saving money. According to the American College of Healthcare Executives, 67 percent of health care CEOs list financial challenges as their No. 1 concern. However, operating costs and competition for investment and capital improvement funds often restrict available funding for energy improvements.

In addition, alternative energy sources have traditionally been scarce and expensive. For example, only 7 percent of the entire U.S. energy consumption is from renewable energy sources, including biofuels such as ethanol, solar, hydroelectric and wind power.

The health care industry is less open than other industries to the use of renewable energy sources, and few health care organizations have publicly stated carbon reduction goals.

A recent Johnson Controls survey of various industries found that only 38 percent of health care organizations had either invested in or were exploring renewable technologies, compared with 68 percent across other industries.

Catching up

Recently, the health care sector has begun to transform its core practices in response to the scientific confirmation of the link between climate change and health. Health care organizations are placing a growing importance on initiatives such as energy management, and while they are less likely than other industries to achieve green certification, they are more likely to implement green features without pursuing formal certification.

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Physician heal thyself.

What A Year For Energy And Related Fields – Cash for Clunkers, Caulk for Clunkers

Everywhere you look there are things a poppin.

http://www.technologyreview.com/energy/24280/page1/

The Year in Energy

Liquid batteries, giant lasers, and vast new reserves of natural gas highlight the fundamental energy advances of the past 12 months.

By Kevin Bullis

Monday, December 28, 2009

With many renewable energy companies facing hard financial times (“Weeding Out Solar Companies“), a lot of the big energy news this year was coming out of Washington, DC, with massive federal stimulus funding for batteries and renewable energy and programs such as Energy Frontier Research Centers and Advanced Research Projects Agency-Energy (“A Year of Stimulus for High Tech“).

Credit: Roy Ritchie

But there was still plenty of action outside the beltway, both in the United States and around the world. One of the most dramatic developments (“Natural Gas Changes the Energy Map“) was the rush to exploit a vast new resource; new drilling technologies have made it possible to economically recover natural gas from shale deposits scattered throughout the country, including in Texas and parts of New York, Pennsylvania, and Ohio. Advances in drilling technology have increased available natural gas by 39 percent, according to an estimate released in June. The relatively clean-burning fuel could cut greenhouse gas emissions by becoming a substitute for coal. Natural gas might even provide an alternative to petroleum in transportation, especially for buses and taxis–if only policymakers could take advantage of the new opportunity.

Meanwhile a number of technologies promise to cut down on emissions from coal plants. Feeding heat from the sun into coal plants could at once increase the amount of power that can be generated from a given amount of coal and reduce the cost of solar power (“Mixing Solar with Coal to Cut Costs“). And technology for capturing carbon dioxide (“Scrubbing CO2 Cheaply“) and storing it (“An Ocean Trap for Carbon Dioxide“) is finally emerging from the lab and small-scale projects into larger demonstrations at power plants, even while researchers explore potentially cheaper carbon-capture techniques (“Using Rust to Capture CO2 from Coal Plants“).

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I hate to Post The Whole Thing, but it’s so good.

This year was also the year of the smart grid, as numerous test projects for improving the reliability of the grid and enabling the use of large amounts of renewable energy got underway (“Technology Overview: Intelligent Electricity“). The smart grid will be enabled by key advances, such as superconductors for high-energy transmission lines (“Superconductors to Wire a Smarter Grid“) and smart networks being developed by companies such as GE (“Q&A: Mark Little, Head of GE Global Research“).

Cellulosic ethanol–made from biomass such as grass rather than corn grain–moved closer to commercialization, with announcements of demonstration plant openings (“Commercializing Garbage to Ethanol“) and scientific breakthroughs that could make the process cheaper (“Cellulosic Ethanol on the Cheap“). But at the same time, a number of companies are moving beyond cellulosic ethanol to the production of gasoline, diesel, and jet fuel from biomass–fuels that can be used much more readily in existing infrastructure and in existing vehicles. Exxon-Mobil announced substantial investments in algae-based fuels (“Big Oil Turns to Algae“). Remarkably, one startup declared its process–based on synthetic genomics and algae–could allow biofuels to replace all of transportation fuels without overwhelming farmland (“A Biofuel Process to Replace All Fossil Fuels“).

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So? It’s the end of the year – sue me…

Still, most people think biofuels will only supply a fraction of our transportation needs (“Briefing: Transportation“). To eliminate carbon emissions and drastically curtail petroleum consumption will require plug-in hybrids (“Driving the Volt“) and other electricity-powered vehicles (“Nissan’s Leaf: Charged with Information“). Advances that could double (or more) the energy capacity of batteries and lower their costs could one day make such vehicles affordable to the masses. These include new formulations such as lithium-sulfur batteries (“Revisiting Lithium-Sulfur Batteries“), metal-air batteries (“High-Energy Batteries Coming to Market“) such as lithium-air batteries (“IBM Invests in Battery Research“), and batteries that rely on nanowires and silicon (“More Energy in Batteries“). A novel concept for super-fast charge stations at bus stops could make electric buses practical (“Next Stop: Ultracapacitor Buses“).

Getting the electricity to charge these vehicles–without releasing vast amounts of carbon dioxide–could be made easier by a number of advances this year. A new liquid battery could cheaply store energy from wind turbines and solar panels for use when the sun isn’t shining and the wind isn’t blowing (“TR10: Liquid Battery“), making it practical to rely on large amounts of renewable electricity. Vast arrays of mirrors (“Solar Thermal Heats Up“) are being assembled in the desert to convert solar heat into electricity, and photovoltaic solar farms for converting light directly into electricity (“Chasing the Sun“) are getting a boost from the federal stimulus money. And researchers are finding ways to increase the efficiency of solar cells (“More Efficient, and Cheaper, Solar Cells“) and are discovering new photovoltaic materials to make solar power cheaper (“Mining Fool’s Gold for Solar“). And although progress on nuclear power is moving slowly, some advances on the horizon could help this low-carbon source replace fossil fuels (“TR10: Traveling-Wave Reactor“). Researchers even fired up the world’s largest laser system–one that’s the size of a football stadium–for experiments that could lead to a new form of fusion (“Igniting Fusion“).

Last, and almost certainly least, researchers have decided to look beyond the conventional sources of renewable energy–solar, wind, and waves–to hamsters. Researchers at Georgia Tech fitted the rodents with zinc-oxide nanowire jackets (“Harnessing Hamster Power with a Nanogenerator“), and watched as they generated an electrical current while scratching themselves and running on a wheel. See a video of the powerful hamsters here.

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Kevin Bullis is a journalistic GOD

http://www.shinygun.com/story.php?id=128

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AltaRock’s Project Blows Up In Their Faces – Hot Rocks Goes Bust

Ever since June, I have struggled with how to write this headline. This concept, Deep Hot Geothermal, has so much potential. It promises limitlessness pollution free energy BUT its execution requires great care. It also probably means more cost in drilling and a closed loop system rather then the current use of open loop rock fracture like for hot swimming pools or basements. The real issue was should I do a fun title like the above or a more serious title? But first I must say:

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Community Energy Systems is a nonprofit 501c3 organization chartered in Illinois in Sangamon County. As such we are dependent on public donations for our continued existence. We also use Adsense as a fundraiser. Please click on the ads that you see on this page, on our main page and on our Bulletin Board (Refrigerator Magnets) and you will be raising money for CES. We say a heartfelt THANK YOU to all who do.

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First there was the shut down of the Swiss project, (I mean really, deep well drilling in a historic district?), because of alleged earthquakes. Then there were Earthquakes off Jamaica caused by another smaller project. Finally there were the Earthquakes attributed to a deep well injection and rock fragmentation project in Texas. So it was only a matter of time. Tick Tick Tick. You know that drilling anywhere in earthquake prone California was going to be fraught with nightmares.  Courtney Roby tackled the headline issue like this:

http://www.greenmomentum.com/wb3/wb/gm/gm_content?id_content=2930

AltaRock’s Little Earthquakes

Maybe, possibly, engineered geothermal systems like those being demo-ed by AltaRock bring an increased risk of small earthquakes. It’s not a reason to abandon their promise as an energy resource.

By Courtney Roby | June 25, 2009

AltaRock Energy, a California-based company specializing in engineered geothermal systems (EGS), was the subject of a story in today’s New York Times which was certainly alarmist, if not genuinely alarming. AltaRock is currently preparing to put into action a design for a demo geothermal project in California’s NCPA Geysers Geothermal Field area. This area, which has been producing geothermal energy from steam wells since 1983, is located in the seismically shaky San Francisco Bay Area. The same geological factors that make the area a good place for geothermal energy extraction make it a high-risk area for earthquakes, and it is on these fears that the Times article centers.

The article does not have much to say about the particular risks involved with AltaRock’s project. Instead, it recounts the story of a 2006 project run by the Swiss company Geothermal Explorers, which aimed to extract geothermal energy from the bedrock near Basel. Geothermal Explorers used a technique that involved shooting a jet of water into drilled holes, which then produced fractures (a technique known, to the delight of Battlestar Galactical fans everywhere, as “fracking”) in the hot bedrock below, where the water was heated, rose back to the surface, and upon expansion emerged as steam, which powered turbines to produce usable energy. The result was an always-on source of non-polluting, waste-free energy, which seemed like a good bargain until reports of small earthquakes started coming in. In response to these reports, the project was immediately shut down.

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Then in September this:

http://news.cnet.com/8301-11128_3-10344441-54.html

September 3, 2009 6:59 AM PDT

Geothermal start-up AltaRock suspends drilling

by Martin LaMonic A new company pursuing an advanced geothermal energy technology has had to suspend its first attempt to drill a deep well in Northern California.

AltaRock Energy on Wednesday said it ran into problems during drilling for a demonstration project, “resulting from geologic anomalies particular to the formation” at the Geysers Geothermal field.

The project, said to be budgeted at $17 million, was partially funded by a Department of Energy grant given to several companies to explore the viability of enhanced geothermal systems. Sausalito, Calif.-based AltaRock was funded by Google and venture capital company Kleiner Perkins Caufield & Byers.

dot dot dot

(Credit: AltaRock Energy)

Although technical difficulties are normal in drilling projects, the progress of AltaRock is significant because it is one of few companies pursuing enhanced, or engineered, geothermal systems. It’s a technology that holds great promise but that has raised safety concerns.

Traditional geothermal power draws on naturally occurring underground hot-water reservoirs to make electricity. With enhanced geothermal systems, wells are dug a few miles underground, and rock formations are fractured. Then water is injected into the wells, heated by the rock, and pulled back up. That hot water is converted to steam to turn an electricity turbine.

A Massachusetts Institute of Technology study two years ago found that using this enhanced method of geothermal power generation could supply 10 percent of the electricity in the United States. It could also be done in a wide variety of locations, rather than just the limited number of locations that have traditional geothermal resources.

In its statement, AltaRock didn’t offer many details on why it suspended drilling but said it is evaluating other locations to build a demonstration facility, including other spots at the site where it had been working.

Martin LaMonica is a senior writer for CNET’s Green Tech blog. He started at CNET News in 2002, covering IT and Web development. Before that, he was executive editor at IT publication InfoWorld. E-mail Martin.

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Then this 2 days ago:

http://www.theoildrum.com/

Drumbeat: December 13, 2009

Geothermal Project in California Is Shut Down

The company in charge of a California project to extract vast amounts of renewable energy from deep, hot bedrock has removed its drill rig and informed federal officials that the government project will be abandoned.The project by the company, AltaRock Energy, was the Obama administration’s first major test of geothermal energy as a significant alternative to fossil fuels and the project was being financed with federal Department of Energy money at a site about 100 miles north of San Francisco called the Geysers.

But on Friday, the Energy Department said that AltaRock had given notice this week that “it will not be continuing work at the Geysers” as part of the agency’s geothermal development program.

The project’s apparent collapse comes a day after Swiss government officials permanently shut down a similar project in Basel, because of the damaging earthquakes it produced in 2006 and 2007. Taken together, the two setbacks could change the direction of the Obama administration’s geothermal program, which had raised hopes that the earth’s bedrock could be quickly tapped as a clean and almost limitless energy source.

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Too bad too because it has such promise…Still I like the title, AltaRock Energy Drills Dry Hole for all kinda reasons. For condolences please go to:

http://www.altarockenergy.com/

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I Am Buying A Stairway To Heaven – Low Heat Geothermal Extraction

Could give us pollution free energy! And you thought I was going to use that on jam band Friday well nooooo.

But then what does the phrase mean? Some take it in its Christian or religious context. The idea is that people try to buy their way into heaven. Some people take it to mean that the lady was on the way to buy drugs and the stairway is the high feeling. A young friend of mine reports that Jimmy Paige wrote the song under the influence of a scottish demon..in a castle they had just bought…I do not know myself but for a lively discussion please add a comment to:

http://www.captaincynic.com/thread/40522/what-does-buying-the-stairway-to-heaven-mean.htm

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Maybe it’s true that heaven can wait, but this development is pretty cool:

http://www.pnl.gov/news/release.asp?id=383

Release date: July 15, 2009

Contact: Geoffrey Harvey, (509) 372-6083

New geothermal heat extraction process to deliver clean power generation

PNNL’s advanced heat recovery method makes most of low-temp ‘hot rock’ resources

PNNL’s introduction of a metal-organic heat carrier, or MOHC, in the biphasic fluid may help improve thermodynamic efficiency of the heat recovery process. This image represents the molecular makeup of one of several MOHCs.
(Original high-resolution image.)

RICHLAND, Wash. – A new method for capturing significantly more heat from low-temperature geothermal resources holds promise for generating virtually pollution-free electrical energy. Scientists at the Department of Energy’s Pacific Northwest National Laboratory will determine if their innovative approach can safely and economically extract and convert heat from vast untapped geothermal resources.

The goal is to enable power generation from low-temperature geothermal resources at an economical cost. In addition to being a clean energy source without any greenhouse gas emissions, geothermal is also a steady and dependable source of power.

“By the end of the calendar year, we plan to have a functioning bench-top prototype generating electricity,” predicts PNNL Laboratory Fellow Pete McGrail. “If successful, enhanced geothermal systems like this could become an important energy source.” A technical and economic analysis conducted by the Massachusetts Institute of Technology estimates that enhanced geothermal systems could provide 10 percent of the nation’s overall electrical generating capacity by 2050.

Click to watch PNNL’s Pete McGrail describe the process.

PNNL’s conversion system will take advantage of the rapid expansion and contraction capabilities of a new liquid developed by PNNL researchers called biphasic fluid. When exposed to heat brought to the surface from water circulating in moderately hot, underground rock, the thermal-cycling of the biphasic fluid will power a turbine to generate electricity.

To aid in efficiency, scientists have added nanostructured metal-organic heat carriers, or MOHCs, which boost the power generation capacity to near that of a conventional steam cycle. McGrail cited PNNL’s nanotechnology and molecular engineering expertise as an important factor in the development, noting that the advancement was an outgrowth of research already underway at the lab.

EMSL, The Environmental Molecular Sciences Laboratory

Pacific Northwest National Laboratory

Follow PNNL on Facebook(Offsite link), Linked In(Offsite link) and Twitter(Offsite link).

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For another take on it:

http://www.realclimate.org/index.php/archives/2006/05/buying-a-stairway-to-heaven/

29 May 2006

Buying a stairway to heaven?

Filed under:

— david @ 8:33 am

Just in the last year or so, a new type of scheme for reducing personal carbon emissions has appeared, the remarkably painless purchasing of “carbon offsets”. Carbonfund.org claims to neutralize a person’s CO2 footprint on the Earth for the low, low price of $99 per year, plus if you act now they will throw in an extra 5 tons for free! And you get a pen! Prices listed here range from $5-30 per ton of CO2 from a variety of similar organizations around the world. The average U.S. citizen is responsible for about 20 tons of CO2 release per year.

Compliance with Kyoto, a mere 5% reduction in carbon emissions, was forecast by Nordhaus [2001] to cost a few percent of GDP globally. The cost to stop emission completely and immediately may not even be calculable. Carbonfund.org promises zero net emissions, for a fraction of 1% of the average U.S. income. Can this possibly be real, or are we talking indulgences and snake oil?

The idea behind carbon offsets is built upon the foundation of carbon emissions trading established by the Kyoto Protocol, a scheme called cap and trade. Carbon emissions for industries are capped at some level by regulatory permits to emit CO2. If a company is able to cut its emissions below that level, it can sell its emission permits to another company. The cuts in emissions are thereby steered, by the invisible hand of the market, to the cheapest and most efficient means. Cap-and-trade has worked well for reduction of sulfur emissions in the U.S., that are responsible for acid rain. CO2 emission is intrinsically even better suited for cap-and-trade, because it is a truly global pollutant, so it matters not where the CO2 is emitted.

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You know I couldn’t resist it:

 http://www.youtube.com/watch?v=HjXN3OLgoqs

or this:

http://www.youtube.com/watch?v=0p3Ue3ncH3g&feature=related

be a rock and let it roll

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Deep Geothermal Energy – From the winds of the Jetstream to the Bowels of the earth

I haven’t updated this particular topic area for awhile. I think this may hold the future for us all. Deep drilling for geothermal heat rates 3 pages in the New York Times Online. My. Maybe the rich and powerful are starting to get it.

http://www.nytimes.com/2009/06/24/business/energy-environment/24geotherm.html?pagewanted=1&%2359&_r=2&%2359;em&%2359;amp

Deep in Bedrock, Clean Energy and Quake Fears

Published: June 23, 2009

BASEL, Switzerland — Markus O. Häring, a former oilman, was a hero in this city of medieval cathedrals and intense environmental passion three years ago, all because he had drilled a hole three miles deep near the corner of Neuhaus Street and Shafer Lane.

 

 

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The Danger of Digging DeeperInteractive Graphic

The Danger of Digging Deeper

 

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Christian Flieri for The New York Times

An earthquake halted Markus O. Häring’s geothermal project in Basel, Switzerland.

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He was prospecting for a vast source of clean, renewable energy that seemed straight out of a Jules Verne novel: the heat simmering within the earth’s bedrock.

All seemed to be going well — until Dec. 8, 2006, when the project set off an earthquake, shaking and damaging buildings and terrifying many in a city that, as every schoolchild here learns, had been devastated exactly 650 years before by a quake that sent two steeples of the Münster Cathedral tumbling into the Rhine.

Hastily shut down, Mr. Häring’s project was soon forgotten by nearly everyone outside Switzerland. As early as this week, though, an American start-up company, AltaRock Energy, will begin using nearly the same method to drill deep into ground laced with fault lines in an area two hours’ drive north of San Francisco.

Residents of the region, which straddles Lake and Sonoma Counties, have already been protesting swarms of smaller earthquakes set off by a less geologically invasive set of energy projects there. AltaRock officials said that they chose the spot in part because the history of mostly small quakes reassured them that the risks were limited.

Like the effort in Basel, the new project will tap geothermal energy by fracturing hard rock more than two miles deep to extract its heat. AltaRock, founded by Susan Petty, a veteran geothermal researcher, has secured more than $36 million from the Energy Department, several large venture-capital firms, including Kleiner Perkins Caufield & Byers, and Google. AltaRock maintains that it will steer clear of large faults and that it can operate safely.

But in a report on seismic impact that AltaRock was required to file, the company failed to mention that the Basel program was shut down because of the earthquake it caused. AltaRock claimed it was uncertain that the project had caused the quake, even though Swiss government seismologists and officials on the Basel project agreed that it did. Nor did AltaRock mention the thousands of smaller earthquakes induced by the Basel project that continued for months after it shut down.

The California project is the first of dozens that could be operating in the United States in the next several years, driven by a push to cut emissions of heat-trapping gases and the Obama administration’s support for renewable energy.

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IN Australia where it holds huge potential, as it does on the whole ring of fire.

http://thinkgeoenergy.com/archives/1832

Australia opens round 2 of the Geothermal Drilling Program


Enlarge ImageAustralia opens the second round of the Geothermal Drilling Program and Australia’s Minister for Resources and Energy, Martin Ferguson AM MP invites geothermal companies to submit applications for funding under this round of the A$50 million (US$39.8 million) program.

Written by: lxrichter
Picture: Habanero, Drilling Rig, Geodynamics (source: Geodynamics)
Reported today, Australia opens the second round of the Geothermal Drilling Program with “The Minister for Resources and Energy, Martin Ferguson AM MP inviting geothermal companies to submit applications for funding under Round 2 of the A$50 million (US$39.8 million) Geothermal Drilling Program, which opened today.

Round 2 funding will provide grants of up to A$7 million (US$5.6 million) on a matching-funding basis to support the drilling of deep geothermal wells and help finance geothermal proof-of-concept projects.
Geothermal energy producers pump water below ground (sometimes as deep as 5 kilometers (3.1 miles)), where it is heated by ‘hot rocks’. The heat energy is then used to generate electricity.

Ferguson said: “Geoscience Australia estimates that if just one per cent of Australia’s geothermal energy was extracted it would equate to 26,000 times Australia’s total annual energy consumption. “Geothermal energy is a renewable energy source with enormous potential in Australia; however, the Government recognizes technical development costs are high.

“The Australian Government is pleased to be able to support drilling at the first stage of development as part of its A$4.5 billion (US$3.5 billion) Clean Energy Initiative.

“Geothermal energy is important because it has the capacity to produce baseload power, diversify Australia’s energy supply and increase our energy security.

“The Australian Government has set a target for 20 per cent of Australia’s electricity generation to come from renewable sources by 2020; a policy which will likely require an additional 45,000 gigawatt-hours of electricity generation from renewable sources.

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HOT Rocks Rock

Fed Tax Credits For Geothermal Heatpumps – Finally done with the boring stuff

Now we get to fill out form 5695. Not only that but the credits are good until 2016 when Obama retires. But first the Tax Credits.

Not there silly here:

http://www.energystar.gov/index.cfm?c=products.pr_tax_credits#c6

Geo-Thermal Heat Pump Geo-Thermal Heat Pump Same criteria as ENERGY STAR:Closed Loop:
EER >= 14.1
COP >= 3.3Open Loop:
EER >= 16.2
COP >= 3.6Direct Expansion:
EER >= 15
COP >= 3.5
30% of the cost All ENERGY STAR geo-thermal heat pumps qualify for the tax credit.Use IRS Form 5695 PDF Exit ENERGY STARMust be “placed into service” before December 31, 2016.

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In this day and age everybody should know what a geothermal heat pump is, but if not:

http://en.wikipedia.org/wiki/Geothermal_heat_pump

A geothermal heat pump (GHP) system is a central heating and/or air conditioning system that actively pumps heat to or from the shallow ground. It uses the earth as either a source of heat in the winter, or as a coolant in the summer. This design takes advantage of moderate temperatures in the shallow ground to boost efficiency and reduce operational costs. It may be combined with solar heating to form a geosolar system with even greater efficiency.

Geothermal heat pumps are also known by a variety of other names, including geoexchange, earth-coupled, earth energy, ground-source or water-source heat pump. The engineering and scientific community tend to prefer the terms “geoexchange” or “ground-source heat pumps” because very little of the heat originates from true geological sources.[1] Instead, these pumps draw energy from shallow ground heated by the sun in the summer. Genuine geothermal energy from the core of Earth is available only in places where volcanic activity comes close to the surface, and can usually be extracted without the help of a heat pump.

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Anyway the first one on the list is my favorite becaused the closed loop is the most flexible. You can run the piping horizontal to the ground if there are mining issues. Or you can go straight down like a well.

http://www.residential.carrier.com/products/geothermalheatpumps/gt-px.shtml

GT-PX Geothermal Heat Pump

Compare Products

 

Ultra-High-Efficient Geothermal Unit for Total Home Comfort

Carrier’s popular GT-PX series is our highest rated geothermal unit, featuring Puron® refrigerant; a two-stage compressor for efficiency; variable speed blower for comfort; E-coated coil; microprocessor control; and a robust, insulated cabinet for quiet operation. Available in vertical top flow, vertical bottom flow and horizontal flow, all with optional hot-water generator. In sizes from 2 through 6 tons.

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I used to be fascinated by Open  Loop systems because they seem so natural. Essentially if you are near a lake or a deep pond you vent your waste heat there. But now I see them as potential environmental disruptors but again this about tax credits. They don’t really care about the environment.

 http://www.bryant.com/products/geoheatpumps/index.shtml

Compare

 

GT-PX Geothermal

GT-PX Geothermal

  • Up to 4.6 COP (closed loop)
  • Up to 27.0 EER (closed loop)
  • Up to 5.1 COP (open loop)
  • Up to 31.5 EER (open loop)
  • Two-stage unloading scroll compressor
  • Variable speed blower motor
  • Puron® refrigerant
  • 10-year limited warranty on all compressor & major refrigeration components. 5-year limited warranty on other parts

 

GT-PG Geothermal

GT-PG Geothermal

  • Up to 4.2 COP (closed loop)
  • Up to 20.2 EER (closed loop)
  • Up to 5.1 COP (open loop)
  • Up to 28.1 EER (open loop)
  • Single stage scroll compressor
  • PSC blower (optional variable speed blower motor)
  • Puron refrigerant
  • 10-year limited warranty on all compressor & major refrigeration components. 5-year limited warranty on other parts

GT-G Geothermal

GT-G Geothermal

  • Up to 3.8 COP (closed loop)
  • Up to 18.5 EER (closed loop)
  • Up to 4.1 COP (open loop)
  • Up to 23.9 EER (open loop)
  • Single stage scroll compressor
  • PSC blower (optional variable speed blower motor)
  • 10-year limited warranty on all compressor & major refrigeration components. 5-year limited warranty on other parts

GT-G Geotherm
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As you can see they all have open loop options because a heat exchanger doesn’t care where it puts it’s heat.

The final version is pretty exotic. I guess they are appropriate if you are in an extreme environment:

http://www.renovation-headquarters.com/heating-geothermal.htm

Direct Expansion (DX): A geothermal heat pump system in which the refrigerant is circulated in pipes buried in the ground, rather than using a heat transfer fluid, such as water or antifreeze solution in a separate closed loop, and fluid to refrigerant heat exchanger. A DX system includes all of the equipment both inside and outside the house. DX systems may be single or multi-speed.

http://www.mrslim.com/Products/subCategory.asp?ProductCategoryID=24&ProductSubCategoryID=140or

or

 http://www.alibaba.com/product/earthenergysolutions-11290116-10854411/Geothermal_Heat_Pump_Waterless_Direct_Expansion.html

or

http://www.geothermix.com/english/product/direct1.html

Direct Expansion “DX” Units

A direct earth coupled heat pump or “DX” heat pump is one that has its refrigerant evaporator / condenser in direct thermal contact with the earth from which heat is either extracted from during the heating mode or introduced to during the cooling mode of operation.

The general refrigeration cycle of our DX machine is similar in nature to a conventional water-to-air or water-to-water heat pump in that there exist a compressor, expansion device, reversing valve, and refrigerant-to-air heat exchanger. Conventional technology concerned with heat pumps relies upon the transfer of heat from the ground by means of a secondary heat exchanger system and working fluid, e.g., water, which is pumped to the geothermal unit located in the heated structure. The conventional heat pump has it’s own internal primary heat exchanger which extracts heat (heating mode) or rejects heat (cooling mode) from this water, which is then pumped back to the earth to be reheated.

DX systems similarily use a ground coil system, however, the working fluid is a refrigerant and the copper groundloop is the primary heat exchanger. Such geothermal heat exchange is an efficient and effective way of achieving heat exchange in heating and air conditioning systems, and especially heat pump type systems. Since the ground temperature is relatively constant at 48 °F at a depth below the frost line, the available heat is constant.

DX Heat Cycle (Gif 11K)

The elimination of the secondary earth heat exchanger (typically plastic in nature) and its associated working fluid reduces the temperature difference required between the ground and the evaporating refrigerant yielding a higher suction pressure than a conventional system under similar circumstances and thus a higher efficiency.

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I like the closed loop the best:

If you are in Las Vegas and you need one installed try:

http://www.plumber-las-vegas.com

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

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.

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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

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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).

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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.

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More tomorrow if I don’t kill myself first

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

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Hungarian Vulcan Association Combined – Thats right HVAC Fed Tax Credits

(and its Jam Band Friday – http://www.youtube.com/watch?v=xwGL5LDb4u8  )

If you think that I am going to cover all the Energy Efficient HVAC options covered by these credits you would be out of your mind…It would take for ever. Even though it is Jam Band Friday and I could just sit around and listen to Eric Clapton all day. But first the Tax credits:

 http://www.energystar.gov/index.cfm?c=products.pr_tax_credits#c3

HVAC Central A/C Split Systems:
EER >=13
SEER >= 16Package systems:
EER >= 12
SEER >= 14
30% of cost, up to $1,5002 For a list of qualified products, read this FAQ.Note — not all ENERGY STAR products will qualify for the tax credit. View ENERGY STAR criteria.
Air Source Heat Pumps Split Systems:
HSPF >= 8.5
EER >= 12.5
SEER >= 15Package systems:
HSPF >= 8
EER >= 12
SEER >= 14
30% of cost, up to $1,5002
Natural Gas or Propane Furnace AFUE >= 95 30% of cost, up to $1,5002 For a partial list of qualifying products go to: Air-Conditioning, Heating, Refrigeration Institute (AHRI) PDF Exit ENERGY STARNot all ENERGY STAR products will qualify for the tax credit. View ENERGY STAR criteria for furnaces, boilers.
Oil Furnace AFUE >= 90 30% of cost, up to $1,5002
Gas, Propane, or Oil Hot Water Boiler AFUE >= 90 30% of cost, up to $1,5002
Advanced Main Air Circulating Fan No more than 2% of furnace total energy use. Read this FAQ if the fan qualifies, but the furnace does not. 30% of cost, up to $1,5002

(http://www.youtube.com/watch?v=hnz-wd9uMrY )

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I can not believe that they are still offering tax credits for home heating oil furnaces. That is so late 1800s. The idea that they would be still supporting boilers for gods sake is so 1940s. Proof  That some things never go away. While I much prefer ground based heat pumps Open Air heat pumps are just OK.

( http://www.youtube.com/watch?v=98XqT4kBWT4 )

Air Source Heat Pumps Split Systems:
HSPF >= 8.5
EER >= 12.5

SEER >= 15

http://www.qualitysmith.com/heat_pump/?src=got0058515ch001pGoogleAdWordsSearch&refcd=GO550t1257028S_air_source_heat_pumps&tsacr=GO2982392887

Find the Perfect Home Heating System

QualitySmith contractors will help you make the best heating system decision for your home and budget. Our partner contractors will walk you through the benefits and features associated with different system types. Just fill in our simple form to find 3 prescreened, reputable heating system contractors to help you make sure you’re ready for cold weather.

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For a much broader discussion of this plus everything else under the sun:

http://www.century-ac.com/consumer_tax_incentives.htm

What are the efficiency requirements to qualify for the credits?

Manufacturers and retailers should be able to help you tell whether a specific product qualifies.

The qualification specifications are:

  • Furnaces and Boilers: Natural gas & propane furnaces must meet an Annual Fuel Use Efficiency (AFUE) 95 or higher, oil furnaces and gas, oil and propane boilers must meet an AFUE of 90 or better.
  • Central Air Conditioning Units:
    • Central air conditioning units and air-source heat pumps must meet the highest tier standards set by the Consortium for Energy Efficiency (CEE) as of February 17, 2009, which in most cases requires a Seasonal Energy Efficiency Ratio (SEER) of 16. SEER measures performance throughout the cooling season. More information on the CEE specification.
  • Biomass Stoves: Stoves must have a thermal efficiency of 75% as measured using a lower heating value, and be used to heat a dwelling unit or heat water for use in the same. The law defines biomass fuel as anything from agricultural crops, trees, wood wastes & residues to pellets, plants, grasses and fibers.
  • Fans for heating and cooling systems: fan uses no more than 2% of total heating system energy use, as defined by DOE test procedure. For more information, see the Gas Appliance Manufacturers Association web site. It is still unclear how the 2009 Stimulus legislation has impacted this incentive – it seems reasonable to assume that the cost basis will be the reasonable cost of the fan, not the entire furnace. IRS has yet to issue specific guidance on this issue.
  • Water Heaters:
    • Gas or propane water heaters—Energy Factor of at least 0.82, or a thermal efficiency of at least 90%.
    • Heat pump water heaters—Energy Factor of at least 2.0

Where must the equipment be used?

Under guidance issued by the IRS, equipment is eligible if installed in a home occupied by a taxpayer as their principal residence at the time the equipment is installed. This implies that equipment in new homes is generally not eligible since in new homes equipment is generally installed prior to occupancy. However, efficient equipment in new homes can help that home qualify for the new home tax credit.

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(There was so much more then Layla from Derek and the Dominos –http://www.youtube.com/watch?v=gxAKPBrjvqI )

If you are interested in the State Tax Incentives for Energy Efficient HVAC equipment here is an excellent site.

http://energytaxincentives.org/general/incentives.php

State and Utility Incentives

In addition to the federal tax incentives, complementary incentives may be available from your state or local utility. For information on many of these programs, see these links:

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When in doubt you can always shop at SEARS

http://www.searshomeimprovements.com/ProductOffer1.aspx?OVMTC=Broad&site=&creative=2768202091&OVKEY=heat+pumps&gclid=CNHe7pK-85oCFQ3yDAodtlirdw&o=2&t=102&primary=true

Your choice in a home improvement company is a big decision. Choose a company you can trust for reliable products, service, installation and peace of mind on one of your biggest investments – your home. Choose Sears!

Reduce Energy Costs and get up to a $1500 Tax Credit from the 2009 Stimulus Package with a new Heating & Cooling System


As your heating & cooling system ages, it can lose its ability to heat or cool your home. Enjoy comfort year round with a new Heating & Cooling System for Sears.
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Gosh just like mom and pops

(http://www.youtube.com/watch?v=AscPOozwYA8 )

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