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Showing posts with label Green Roofing. Show all posts
Showing posts with label Green Roofing. Show all posts

11.26.2010

RE:How to Save Money on Your Winter Heating Bills



            • Did the first Snow of the Year catch you unprepared for winter?
            • Is there enough insulation in your attic, walls, or floor?
            • Do you feel cold air drafts around your windows and doors?
            • Are your Heating bills higher this year than past years?
            • Have you chosen to become an active participant to Reduce the Earth's Climate Change?
If you answered YES to any of the above questions its not too late to make your Building more Energy Efficient
      • Insulation Levels [R-Value] For the St Louis Region (suggestions by the US Dept of Energy)
  1. Attic Insulation Level Should be a Minimum Level R-49
  2. Wall Insulation Level Minimum Level R-13
  3. Flooring Insulation Minimum Level R-30
  4. Basement Interior Wall Minimum Level R-11
Stop Cold Air Drafts in the Exterior Walls of Your Building by
  1. Installing Weather Stripping around your Doors and Windows
  2. Seal all Exterior Wall Electrical Boxes with Electrical Box Sealer
  3. Seal Exterior Obtrusion's in Exterior Walls with Caulk or Spray Foam
Additional Insulation Information can be found:Insulating Roofs, Walls, and Floors , Attic Insulation and Attic Energy Solutions , Roof and Attic Ventilation , Fall Home Check Up Guide with Photos

Scotts Contracting is available to assist you in Lowering your Buildings Energy Needs- Click here to email: scottscontracting@gmail.com for any additional questions or to request a Free Green Site Evaluation.
NOTE: For Every $1-Dollar Spent on Weatherization will Return a $2 Savings on your Energy Bills

Scotts Contracting Guarantees that with proper insulation levels and
stopping the Cold Air Drafts in your Building you will save money on your Heating Bills.Scotty

Email scottscontracting@gmail.com and Scotty will provide a Free Estimate to Fix any of the Above Issues on your Home. I can also provide a Cost Saving Analysis using: eQUEST® Building Performance Software, that will provide a ROI on your Investment.

(NOTE: I use the eQUEST® Building Performance Software for determining Cost Effective Solutions for: a detailed comparative analysis of building designs and technologies by applying sophisticated building energy use simulation techniques ...accomplished by combining schematic and design development building creation wizards, an energy efficiency measure (EEM) wizard and a graphical results display module with a complete up-to-date DOE-2 (version 2.2) building energy use simulation program.  You can read the eQUEST Overview to get a more complete summary of the features and capabilities of this excellent program.) 

Weatherization doesn't cost it Saves! - Rule of Thumb: For Every $1 Spent on Weatherization- You will Save $2 on your Home's Energy Bills
  • Example: By adding ___ Inches of Insulation you will save $__ amount on the Energy needed to heat your Home= Lower Heating Bills and Greater Comfort Levels
Additional Green Blog Posts:Energy Star Home Improvement Tips ,Insulation and Thermal Performance ,Which Kind Of Insulation Is Best? ,Radiant Barriers for your Attic,Insulating Roofs, Walls, and Floors, Roof and Attic Ventilation

Email scottscontracting@gmail.com and Scotty will provide a Free Estimate to Fix any of the Above Issues on your Home.

--
Scott's Contracting
scottscontracting@gmail.com

11.16.2010

New Solar Roofing Option is Win-Win

On Tue, Nov 16, 2010 at 9:13 AM, Scott's Contracting <scottscontracting@gmail.com> wrote:

A Roof that: Generates Electricity is a Win-Win for Generating Clean Electricity and Protecting your Home-Scotty

Does your Shingle Roof need Replaced? Consider a Roofing Shingle that also creates Electricity.  The new DOW POWERHOUSE™ Solar Shingle Received UL Certification as a Roofing Material that creates Clean Green Energy via the Integrated Solar Photovoltaic Electricity Producing System. 

The DOW™ POWERHOUSE™ solar shingle has chosen thin-film CIGS (Copper Indium Gallium deSelenide) as the PV material in the Solar Shingle to convert the Suns Rays into use-able Electricity for your Home and Business.

DOW™ POWERHOUSE™ solar shingle will become available to the US public mid 2011.  Till then Scotts Contracting will be researching the Electrical Out-Put, Efficiency, and Other variables that are needed to determine if the Solar Shingle is a cost-effective option for your Integrated Roofing and Solar Photovoltaic Project. 


Prior Articles Here:
Oct 19, 2010-$1 billion investment Dow Chemical announced last February it is making to build a manufacturing plant in Michigan for its shingle-integrated solar PV technology.


DOW POWERHOUSE™ Solar Shingles Receive UL Certification


© Business Wire 2010
2010-11-02 13:12:32 -

Today, The Dow Chemical Company (NYSE: DOW) and Underwriters Laboratories (UL) announced that the DOW™ POWERHOUSE™ Solar Shingle is the first residential solar roofing shingle with an integrated connection system to receive Underwriters Laboratories (UL) safety certification.

The DOW™ POWERHOUSE™ Solar Shingle is a ground-breaking photovoltaic solar panel in the form of a solar roofing shingle that can be integrated into rooftops with standard asphalt shingle materials. It reduces installation time and complexity using a revolutionary system design that eliminates on-roof wiring, minimizes through-roof penetrations, and allows the product to be installed in the same manner as a standard roofing shingle.


"The receipt of UL safety certification represents the successful completion of a rigorous and comprehensive multi-test process for the DOW™ POWERHOUSE™ Solar Shingles," said Dow Solar Vice President, Jane Palmieri.

"This is another important milestone towards the planned 2011 commercialization of Dow's solar shingles, and represents a
crucial third-party validation of the safety of this product.


We are dedicated to making solar easy for homeowners, builders, and roofing contractors who already trust the performance and safety of building products bearing the Dow brand."

Given the new and unique nature of the DOW™ POWERHOUSE™ Solar Shingle, Dow Solar worked closely with UL - a trusted global resource for product safety certification and compliance solutions - to indentify a series of rigorous tests to assess the safety of the unique design and of all the elements of the combined solar and roofing product. The final listing awarded to the DOW™ POWERHOUSE™ Solar Shingles represents compliance to a diverse sequence of UL's safety and building standards, specifically, UL 746, 1703, 1897, 790, 486 and 514. Over 50 individual tests were conducted to assess the safety of the DOW™ POWERHOUSE™ Solar Shingles against building code standards, including wind and fire resistance, and electrical code requirements, such as proper wiring and photovoltaic (PV) connections.

"UL has been leading the development of PV equipment testing methodologies and standards since the 1980s, and has contributed to the safe operation of PV equipment by providing safety testing and certification services for PV equipment manufacturers worldwide," said Jeff Smidt, Vice President and General Manager for UL's Global Energy business. "In the case of Dow's solar shingles, we had to take a unique approach in order to test the product as both a roofing shingle and a PV system. We are proud to provide the UL mark to this first-of-its-kind solar shingle from Dow."

In addition to the vitally important design and material safety tests performed by UL, Dow will continue with its own reliability and durability testing in support of commercialization. Dow is currently performing tests on installed systems of DOW™ POWERHOUSE™ Solar Shingles in addition to individual shingles in order to assess the durability of the product, utilizing Design for Reliability and Physics of Failure methodologies to measure performance against weather, extreme temperatures and more.

Dow has chosen thin-film CIGS (Copper Indium Gallium deSelenide) as the PV material in the DOW™ POWERHOUSE™ solar shingle, and Global Solar Energy (Tucson, AZ) was selected as the preferred supplier in support of the product launch. CIGS technology offers the best balance of low cost and highest sunlight conversion efficiency of the commercialized thin film technologies available today, and the flexible foil substrate of the Global Solar Energy CIGS cells provides the necessary level of flexural durability to allow the DOW™ POWERHOUSE™ Solar Shingle to perform reliably in a demanding application environment.

Breaking the traditional barriers to residential solar adoption – complexity, affordability and aesthetics – this technology offers the missing link needed by the energy industry to drive solar adoption across the U.S., and will bring the possibility of safe and reliable solar power to American households. The DOW™ POWERHOUSE™ Solar Shingle is expected to be commercially available in select U.S. markets by mid 2011.



About DOW™ POWERHOUSE™

In 2007, Dow received a $20 million grant from the U.S. Department of Energy as part of its Solar America Initiative to develop "building integrated" solar arrays for the residential and commercial markets. In October 2009, Dow Solar unveiled the DOW™ POWERHOUSE™ Solar Shingle as the first in a portfolio of building related solar energy generating products.

Since its introduction, the Solar Shingle has been hailed as revolutionary, including being named one of the "50 Best Inventions of 2009" by TIME magazine.


The innovative product design provides an unprecedented integrated roof appearance and simplified installation. It combines a roofing shingle with a solar cell, enabling the DOW™ POWERHOUSE™ Solar Shingle to be installed by a roofer along with standard asphalt roofing materials.

This makes the DOW™ POWERHOUSE™ Solar Shingle an easy choice for homeowners looking for a residential solar solution that is easy to install and aesthetically pleasing. Building Integrated Photovoltaic (BIPV) products from Dow Solar are evidence that Dow is focused on developing energy alternatives and expanding Dow's commitment to use chemistry to solve the world's energy challenges. More information about Dow Solar can be found at www.dowsolar.com : .


About Dow

Dow combines the power of science and technology with the "Human Element" to passionately innovate what is essential to human progress.

The Company connects chemistry and innovation with the principles of sustainability to help address many of the world's most challenging problems such as the need for clean water, renewable energy generation and conservation, and increasing agricultural productivity. Dow's diversified industry-leading portfolio of specialty chemical, advanced materials, agrosciences and plastics businesses delivers a broad range of technology-based products and solutions to customers in approximately 160 countries and in high growth sectors such as electronics, water, energy, coatings and agriculture. In 2009, Dow had annual sales of $45 billion and employed approximately 52,000 people worldwide. The Company's more than 5,000 products are manufactured at 214 sites in 37 countries across the globe. References to "Dow" or the "Company" mean The Dow Chemical Company and its consolidated subsidiaries unless otherwise expressly noted. More information about Dow can be found at www.dow.com : .



®TM Trademark of The Dow Chemical Company ("Dow") or an affiliated company of Dow





For editorial information:Greg BaldwinThe Dow

Chemical Company+1 989 638-0745 gbaldwin@dow.com : mailto:gbaldwin@dow.com orChris
GramsGolinHarris+1 312 729-4364 cgrams@golinharris.com : mailto:cgrams@golinharris.com orKate
NigroDow Solar+1 989 638 9629 knigro@dow.com : mailto:knigro@dow.com




--
Scott's Contracting
scottscontracting@gmail.com
http://www.stlouisrenewableenergy.blogspot.com
http://www.stlouisrenewableenergy.com
scotty@stlouisrenewableenergy.com

9.21.2010

Pros and Cons: Asphalt Roofing vs. Metal

Product Pros and Cons: Asphalt Roofing vs. Metal

Asphalt shingles, such as these from CertainTeed, dominate new home construction and even the reroofing market because they are economical, easy to install, and last about 20 years. 
Asphalt shingles, such as these from CertainTeed, dominate new home construction and even the reroofing market because they are economical, easy to install, and last about 20 years. 
If you were to ask a sampling of production builders what is the best roofing material on the market, they're likely to tell you asphalt. The average residential architect, on the other hand, would probably say metal is the real deal. Heaven only knows what a home buyer or custom home client will choose—slate, clay, concrete—or if they'll even care.

The roof is arguably the most important surface in a home, perhaps even more essential than the exterior walls. As the most exposed plane, the roof has a mammoth task. It's under constant assault from the sun and rain, and, if leaky, could result in thousands of dollars worth of direct repair as well as ancillary damage. Still, a roof is one of those things that many consumers don't think about until there is a blizzard, hail storm, or rainstorm.

So what accounts for the discrepancy in material tastes? That builders, architects, and home buyers have opposing views of roofing material is telling, but their preferences speak to individual agendas as much as it speaks to the materials.

Most home buyers, for example, care mostly about price and don't care as much about material as long as the roof functions properly and for the foreseeable future. Production builders care about looks and function, too, but affordability is top of mind. And architects want a roof to function well, but they are concerned that it be aesthetically pleasing.

Naturally, the asphalt industry says its product is the best roofing you can buy. "Asphalt roofing is easy to find, easy to install, and easy to maintain," the Washington, D.C.-based Asphalt Roofing Manufacturers Association says. "It's also incredibly easy on the eye. And let's not forget, it's easy on the wallet, too!"

Indeed, asphalt is easy to install and produces a decent-looking roof, but most architects and builders say the product is popular mainly because it's economical.

Depending on the product line, shingles come with warranties lasting anywhere from 20 to 30 years, though builders in the field say the numbers are often shorter depending on the location of the country and maintenance.
The asphalt roofing industry makes a good case for its product being No. 1 because its product is No. 1. Industry estimates claim four out of five roofs are covered with asphalt, though if you drive around most subdivisions—new or established—that number seems woefully low.

Asphalt's market share notwithstanding, the metal people say their product is much better. According to the Metal Roofing Alliance in Belfair, Wash., "Longevity is one of the top reasons consumers report choosing metal roofing for their homes." The group says "metal roofing can last as long as 50 years or more, requiring very little maintenance and looking beautiful all the while."

When HUD's Partnership for Advancing Technology in Housing launched the Concept Home program some years ago, the group's mission was to use the best available materials, products, and technology for the homes it builds. The group settled on metal roofing for its subsequent homes in Omaha, Neb., and Charleston, S.C., because of the looks and the longevity—benefits that architects often cite as their reason for choosing the material. They are mesmerized by the crisp, contemporary look; that it lasts forever is gravy.
But longevity and good looks come with a very high price, one that turns off even ardent admirers of metal. "I use asphalt on all my projects," says Texas-based builder Robert Aiken. "Metal is a better roof, but it costs three times as much."

So where does that leave you? The tradeoffs are not so simple. Both materials are versatile, offering a variety of looks. But is it enough to specify an asphalt roof that should last 20 years or more? Or is it worth it to pay three times as much for metal that could outlive the homeowner and the house? Considering how long the average home buyer stays in a house, the answer may be simple.
Here's a handy guide that outlines the pros and cons of asphalt versus metal roofing. Use it to evaluate the options for your customers, and let us know what you use and why.

Asphalt comes in basic three-tab products, but higher-end, laminate shingles are also available.
Asphalt comes in basic three-tab products, but higher-end, laminate shingles are also available.

Pros for Asphalt Shingles:

An accepted and proven material that builders know and trust. There's a reason so many builders use the product, and it comes down to 100 years of service in the home building industry. Plus, home buyers are comfortable with it, which is extremely important.

Economical. The low cost of asphalt is probably its biggest selling point. A basic three-tab shingle roof might set you back about $100 to $200 per square (or a 10-foot-by-10-foot area), making it ideally suited to production housing or to entry-level housing.

Easy to work with and handle. Perhaps no other roofing product is as easy to install. In some cases, a house can be done in one day by professional contractors. Even serious DIYers have been known to tackle roofing projects, though it's highly recommended that they don't because of warranty issues.

Easy to repair. As easy as asphalt is to install, it's equally easy to repair if it gets damaged.

Style options. Asphalt comes in basic offerings for the cost-conscious, but it can be ordered in fancy styles that mimic wood shakes or slate. Basic three-tab shingles dominate the category, but thicker, high-end laminates are available in many colors and with deep shadow lines.

Good performance record. Depending on the product line, asphalt shingles come with a 20- to 30-year warranty. Many are fire-rated (as high as Class A), and require minimal maintenance. Some manufacturers offer products that meet Energy Star requirements and qualify as a cool roof under federal standards, making them eligible for tax credits.

Cons for Asphalt Shingles:


Can be boring. Though snappy colors and styles are available, builders tend to select basic single-color products that have a tendency to look dull.

Susceptible to severe weather. In general, asphalt provides good uplift protection, but the product does not hold up well to severe weather such as hail. The NAHB Research Center says wind- and impact-resistant shingles are available, but they cost about 50 percent more than conventional products. Moreover, asphalt roofs that do not get adequate sunlight can be vulnerable to moss, mildew, and algae, which can shorten lifespan.

Longevity questions. Warranties on asphalt roofs are relatively high, but performance is closely tied to a well-ventilated roof deck and homeowner maintenance.

Can be heavy. While basic shingles weigh about 200 pounds per square, some laminated, textured, and higher-end architectural shingles can clock in at close to 500 pounds per square.

Nascent recycling. According to the Northeast Recycling Council, the U.S. manufactures and disposes of about 11 million tons of asphalt shingles per year. Most—about 10 million tons—is from installation scraps and tear-offs from re-roofing. Moreover, the group cites EPA studies that shingle waste makes up 8% of the total building-related waste stream. The asphalt recycling industry is still young, however, though manufacturers are developing ways to find uses for the material including pavement, new roofing, and road and ground cover, says the California Department of Resources Recycling and Recovery.

Pros for Metal Roofing:

Lightweight. Metal is about the lightest material you can install on your roof. Though weight varies based on type, contractors and manufacturers say aluminum varies from about 50 pounds per square, while steel can be anywhere from 100 pounds to 250 pounds per square, says MetalRoofingSource.com.

Longevity. Metal offers good weather resistance and can last a long time. There are rumors of copper and zinc metal roofs in Europe lasting well over 100 years. Though this might be possible with care and maintenance, you can reasonably expect a metal roof to last about 60 years, give or take.

Long warranty. Many metal manufacturers offer limited warranties that last up to 50 years.

Stellar extreme-weather performance. Contractors say metal is excellent at preventing leaks, offers good wind resistance, and is fireproof. In fact, says the Metal Roofing Alliance, some insurance companies offer home buyers up to 30% reduction in premiums for weather-resistant metal roofs .

Environmentally friendly. One of the most energy-efficient roofing materials, metal reflects heat and helps keep houses cooler in the summer. Plus, the product often contains high, recycled content and is itself recyclable.

Cons for Metal Roofing:


Very expensive. Metal's biggest drawback is the cost. Though manufacturers say prices have come down, metal, on average, costs three times as much as asphalt. Pricier metals such as stainless steel, copper, and zinc can cost way more.

Can have a harsh appearance. Metal has a long history on barns and agricultural buildings, but for those who aren't familiar with this look, it can be harsh in a residential subdivision.
    Scotty, Scotts Contracting-- I have to chime in here: I don't agree with the Authors choice of words 'Harsh' "Metal Roofs come in every type of Designers Choice and Style and can mimic the "Look" of: Slate, Tile, Asphalt, etc.  They also come in every color in the Color Wheel and in some applications Custom Colors can be Ordered, with most manufacturers Guarantying the Color for 20 years.  The new metal roofing products when installed correctly can mimic any type of Asphalt Roofing materials; therefore, "A Home with a Metal Roof can blend in any Neighborhood".] 


    CLICK HERE to Email Scotty, with Scotts Contracting for any additional Comments, Questions, or for a Green Proposal for your next Roofing Project.

    Extreme expansion and contraction. Critics contend that some metal roofs expand and contract quite a bit, which compromises their long-term performance and their ability to remain water tight. This is often a function of the installation.

    Past failures and perception issues. Architects say there was a time when basic corrugated metal roofs corroded in 10 years or less. In some seaside applications, rust on some roofs is visible. Most products today, however, are made with alloys and specialized resin paints that can handle salt spray, extreme heat, and heavy precipitation without issue, the industry says.

    Product selection is important for good performance. Though high-performing materials such as stainless steel, copper, and zinc are available, low-end steel products are still available. Architects advise against low-grade metals that are thinner and less durable, especially near seaside locations.Article by: Nigel F. Maynard is a senior editor for Builder magazine.

    CLICK HERE to Email Scotty, with Scotts Contracting for any additional Comments, Questions, or for a Green Proposal for your next Roofing Project.scottscontracting@gmail.com

    • I have a local recycling source for Asphalt Shingles. 
    • Tamko- Roofing Supply Manufacturer I consider a Local Company (within 300 miles)
    --
    Scott's Contracting
    scottscontracting@gmail.com

    7.20.2010

    Green Roof Facts

    Green roofs and living walls offer many benefits, including cooling buildings, reducing storm-water runoff, providing wildlife habitat, growing food and creating jobs.

    What Is a Green Roof?
    A green roof is an extension of a new or existing roof that involves a high-quality water proofing and root re-pellant system, a drainage system, filter cloth, a lightweight growing medium and plants. Green roof systems may be modular, with drainage layers, filter cloth, growing media and plants already prepared in movable, interlocking grids, or, each component may be installed separately. Green roof development involves the creation of "contained" green space on top of a human-made structure. This green space could be below, at or above grade, but in all cases the plants are not planted in the "ground."

    One Size Does Not Fit All
    There is no single type of green roof that works for all buildings, climates and client needs. Green roofs can be categorized as "intensive" or "extensive," depending on the depth of growing medium. Six inches or less growing medium depth is an extensive roof, also characterized by its lower weight, lower plant diversity, cost and maintenance. Intensive green roofs have more than six inches of growing media and tend to have higher plant diversity, higher weight, cost and maintenance.


    Green Roofs Moderate Building Temperatures
    One benefit green roofs provide is increased savings on heating and cooling energy costs. Results vary according to size of the building, climate and type of green roof, but when Environment Canada ran a simulation, they found that a typical one-story building with a grass roof and 3.9 inches (10 cm) of growing medium would result in a 25% reduction in summer cooling needs. Field experiments by Karen Liu in Ottawa found that a 6-inch extensive green roof reduced heat gains by 95% and heat losses by 26% compared to a conventional reference roof.

    Reducing Urban Heat Island Effect and Pollution
    Green roofs decrease the cost of meeting greenhouse gas reductions and adapting to climate change by reducing the "urban heat island effect" -- the phenomenon of metropolitan areas being significantly warmer than surrounding rural areas, due to the heat-reflecting nature of concrete and other man-made materials and the release of heat from air-conditioning systems and machinery. The reintroduction of vegetation into cities promotes natural cooling by absorbing, instead of reflecting, the sun's rays, and through evapotranspiration. Traditional black roofs can reach temperatures of 158°F/70°C, and as a result have an enormous effect on building and ground level temperatures. One study concluded that 25% green roof coverage can reduce the urban heat island effect by up to 1.8°F/1°C. Green roofs can also mitigate air pollution levels by trapping particulates and capturing harmful gases.By Damon van der Linde and Steven Peck


    Serving the Greater St Louis Region.


    Part 8: 1st Floor Weatherization

    Part 9: See the Difference a Little White Paint Makes

    Part 10: Interior Framing-Plumbing-Laundry Room

    Part 11: Kitchen Framing Tip #36-Benton Rehab Project

    Part 12: Water Main Repair- Benton Rehab

    Part 13: Benton Rehab Project Drywall Installation and Tip: Number 1172

    Scott's Contracting

    6.23.2010

    Cool Roofs-Materials, Options, Insulation, Photos

    Cool Roofs for Hot Climates

    Lighten the loads on home air conditioners with reflective roofing, radiant barriers, or better insulation and ventilation



    Steven Spencer, FSEC

    Even in hot, sunny climates, it's common to see dark shingle roofs. That heat-absorbing choice carries a significant energy penalty: In sunny climates, heat gain through the roof makes up a major share of a house's cooling load.

    People try different strategies to limit heat gain through the roof. Extra ceiling insulation, extra ventilation, under-roof radiant barriers, and sealed attics with insulated roof decks can all help in certain circumstances. But research shows that the single most effective way to cut the cooling loads from a hot-climate roof is to make the roof reflective. There's a reason all those quaint little cottages in Bermuda have white roofs -- they work.

    Reflective roofs work because they stop the rooftop heat before it ever gets going. The sun's rays hit the roof at the speed of light, and at the speed of light they bounce back into space. White or light-colored materials work best, but some new dark pigments reflect enough invisible infrared radiation to reject a lot of solar energy. And whether you're applying tile, metal, membranes, or even asphalt shingles, choosing a more reflective version seldom adds cost.

    Let's look first at reflective roofs, then consider some of the other options for cutting heat gain through the roof.


    Reflective Roofing
    It's well established that reflective roofing materials can lighten the load on home air conditioners. When researchers at the Florida Solar Energy Center (FSEC), where I am a principal scientist, whitened the roofs of nine occupied homes in the summer of 1994, air-conditioning savings averaged 19%. We got even better information by comparing seven otherwise identical new homes with various roof types in a study sponsored by Florida Power & Light (FPL) during the summer of 2000 (see Figure 1). All these homes had R-19 ceiling insulation, but each had a different roof covering. Clearly, reflective roofing made a huge difference.


    Reflective Roof Savings
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    Figure 1. Florida Solar Energy Center researchers compared the air-conditioning power use of seven identically built houses with different roof coverings. Reflective roofing dramatically reduced total power use (bottom chart) and had an even greater effect on peak A/C power demand (middle chart). Insulating the roof deck and sealing the attic, without using a reflective roof, cut total energy use somewhat but did not reduce peak cooling loads noticeably.

    One house of the seven had an insulated roof deck, to keep the ductwork within the sealed, conditioned attic. That modification did save energy on average, but not as much as the reflective roofs -- and it had little effect on peak loads.

    Cool colors. Until recently, a roof had to be white to have high solar reflectance -- something not every customer wants. But we now have tile and metal roofing systems made with "spectrally selective" paints, which absorb some colors of light in the visible range but reflect rays in the infrared and ultraviolet spectra that account for much of the sun's heat. These colors give designers more choices, while still saving considerable energy (Figure 2).

    0503PA2Musjls 0503PA2Darkjlc 0503PA2Tilejlc 0503PA2Fairjlc
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    Figure 2. Kynar roof coatings using spectrally selective pigments from Ferro Corporation allow Classic Roofs to produce aluminum and steel shingles in several dark colors that meet Energy Star minimums with solar reflectances better than white asphalt shingles. Tests indicate that the colors will sharply reduce solar heat gain through the roof.

    BASF Corporation's ULTRA-Cool metal-roof coatings (800/669-2273, www.basf.com), which use spectrally selective pigments from Ferro Corporation (216/641-8580, www.ferro.com), have a 38% reflectivity in colors that achieve only 25% reflectivity when made with standard pigments. And at least two companies, Classic Products (800/543-8938, www.classicroof.com) and MCA Tile (800/736-6221, www.mca-tile.com) now supply metal or clay tile in a range of colors with solar reflectance around 30%. Classic's "Musket Brown," for instance, reflects 31% -- quite a bit better than a white shingle -- while the same color in traditional paint would reflect only 8%.

    Bare metal roofs. Unfinished galvanized or "tin" roofs are still fairly common in the hot Southeast. Galvanized steel is highly reflective when new, but its reflectivity soon drops as the zinc oxidizes; and the material also has low infrared emittance. The high absorptance and low emittance can combine to keep the roof blazing hot.

    When FSEC researchers put a white coating on the ten-year-old galvanized steel roof of a retail strip mall, the roof's reflectance went from 30% to 77%. The average air-conditioning reduction in seven monitored shops was more than 24% (Figure 3).

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    Figure 3. Unfinished galvanized steel roofs may look shiny when new, but they age quickly to become very nonreflective. The infrared thermal scan (top) shows the drop ceiling (middle) at a radiant temperature of almost 90°F under the metal roof of a strip mall building, despite insulation below the roofing. When FSEC researchers applied a reflective coating (bottom), the building's air-conditioning power use dropped 16%, and tenants reported improved comfort. One tenant even called to thank the landlord for fixing the air conditioner. (He hadn't.)

    If you want unfinished metal roofing, Galvalume (an alloy of aluminum and zinc) is a much better cool-roof choice than galvanized steel, especially in mixed heating and cooling climates. Galvalume maintains its reflectance as it ages, and its low emissivity means it holds heat well in winter even though it reflects well in summer.

    Tile Roofing
    It's conventional wisdom that tile roofs are cooler than shingle roofs. To a small extent, that's true: S-tiles permit cooling airflow between the tile and the roof deck, and their thermal mass stores energy during the day and re-radiates it at night, instead of passing it all through to the attic.

    But the color of the tile matters. For instance, we painted some dark gray tiles bright white at midsummer in central Florida in 1996, and we measured an 18% drop in space-cooling energy.

    Shape appears to be far less important than color. In the seven-home side-by-side study for Florida Power & Light, one of the homes had flat white tile, and another had white S-tile. We didn't see much difference -- both roofs did about 20% better than the asphalt shingle roof. An S-shaped red tile roof in the same study was only 3% better than dark asphalt shingles.

    In general, light-colored metal roofs will outperform tile in a hot climate like Florida's. At night, they actually radiate attic heat upward into the night sky, cooling the attic to below the ambient air temperature. The thermal mass of tile will not let attic heat escape so readily.

    Radiant Barrier Systems
    When a house has a dark, sun-absorbing roof, radiant barriers in the attic can cut heat gain and save energy. But they don't necessarily work in every case, and they're not always the best solution.

    The basic radiant barrier is a layer of aluminum foil placed with its shiny side facing a clear air space. Placed under the rafters, aluminum's low emissivity prevents heat from radiating off the shiny surface onto the insulation below (Figure 4). If the surface gets dirty, it won't work as well; that's why radiant barriers placed shiny side down, so dust can't collect, work better than radiant reflective material placed facing up.

    0503PA4Ajlc
    FI-Foil Corp.
    Solec, Inc.
    Figure 4. Radiant barrier foil under the rafters stops heat from radiating into the attic, because the foil will not emit heat radiation even when it's hot (top and middle, before and after). Lo/Mit low-emissivity silicone coating spray-applied to the roof underside (bottom) is a cost-effective alternative method.

    There's now a range of material choices for attic radiant barriers, including radiant-barrier sheathing, spray-applied low-emissivity coatings, and a wide variety of foil products. Homes with complex attic geometry and poor access to the space are not great candidates for a foil application, but a radiant barrier sheathing is easy to apply to any new house, and a spray-applied low-e coating such as Lo/Mit from Solec, Inc. (www.solec.org) makes a practical retrofit.

    Energy savings. Radiant barriers are effective. Our research indicates that under-roof foil barriers reduce heat flow through the ceiling by 30% to 50% and can bring annual cooling electricity savings of 7% to 10% in the Southeast climate.

    Radiant barriers also have a strong effect on peak loads for the air conditioner. A nine-home retrofit study we conducted for Florida Power Corporation found that radiant barriers reduced air-conditioning power use by 9% and cut afternoon air-conditioning peak loads by 16%. In a six-ton system, that's a ton of cooling. Attic temperature peaks dropped by about 8°F. Perhaps most important, indoor temperatures fell by an average 2°F -- a boost for homeowner comfort.

    But that was in the South. In colder climates, radiant barriers may create a risk of wintertime condensation, because some foil products also act as vapor barriers. For cool-climate homes, it's wise to search out a product that has high permeability as well as low emissivity (manufacturers can supply data sheets with perm ratings, emissivity ratings, and other useful information).

    And be aware that if you have a reflective roof to begin with, a radiant barrier is overkill -- and may even be counterproductive. Since the underside of a reflective roof does not get hot, a radiant barrier under the roof adds little benefit. On the other hand, by reflecting heat inward, the radiant barrier will impede the ability of the attic to radiate excess heat to the night sky.

    Another word of caution: We installed our test radiant barriers in midsummer, so we could immediately measure the benefit. But the attics we worked in were dangerously hot -- one of our people actually had to stop and get medical attention. It's much safer to install attic radiant barriers in the cool season, or at least during the early morning before the attic is baking hot.

    Boosting Attic Ventilation
    If the attic is too hot, is more ventilation a good idea? Maybe, but maybe not. Increasing the roof's passive air vents can reduce the cooling load, but it is usually one of the least effective options. The incoming ventilation air is hottest just when you need the cooling.

    In retrofit work, we have seen increased ventilation bring a 5% reduction in building cooling loads. But in humid or coastal locations, it can also create problems: At night, the vents bring in moist outside air that may condense on duct systems.

    Since passive vents work inconsistently, some people recommend powered ventilation fans. But the electric power used to operate the fan usually outweighs the air-conditioning savings. And there's another drawback: Power attic ventilation can depressurize the house and cause gas water heaters to backdraft. It may also draw conditioned air out of the house into the attic, creating a further energy penalty.

    We've conducted tests of photovoltaic solar-powered attic fans in Florida. They run whenever the sun is shining, and we found savings of about 6% on electric bills. But at around $600 for the solar panels plus the fan, the savings don't really justify the cost in simple financial terms.

    Added Insulation
    Added insulation is another option for cutting heat gain through the roof. It certainly works: One of our studies for a Florida utility showed that boosting ceiling insulation from R-19 to R-30 cut space cooling by about 9% in summer.

    But your mileage may vary. Duct systems in many homes run through the hot attic and may be insulated to only R-4 or R-6. So the air conditioner is sending 55°F air into the duct in a space that can reach 130°F on a hot day. That's a temperature difference of 75°F, across just an R-6 insulated duct wall -- much greater than the 20°F difference you might see from indoors to outdoors across an R-11 or R-19 building wall. And duct surface area is much greater than you might think -- often as much as 25% of the house floor area. During the hottest hours, as much as 30% of the cooling system's capacity can be lost to heat gains in the duct system. Besides the wasted energy, this means it takes longer to cool down the house when the air conditioner kicks in.

    Unlike a reflective roof or attic radiant barrier, ceiling insulation does little to address duct system losses. So if your design relies on ceiling insulation to limit roof-related cooling loads, try to locate the duct system within the thermal envelope, below the insulated ceiling. Even running the ducts through the crawlspace, though they might be exposed to outdoor air temperatures, will add less to the load than running them through the solar-heated attic.

    Insulated Roof Deck With Sealed Attic
    Sealing the attic and insulating the roof deck is another way to get the duct system into a more friendly environment. Some code officials may not like this roof design, and researchers don't recommend it in colder climates, but it does save energy. It also creates semi-conditioned storage space in the attic, reduces interior moisture loads in hot climates, and avoids the risk of condensation on air handlers and ducts.

    In our seven-home side-by-side comparison, the house with a sealed and insulated attic used 9% less energy than the base case house, even though both had dark shingles. Some of us were expecting a greater savings, but several factors limit the benefit of this method.

    The big advantage is that the ductwork is inside the thermal envelope. However, while a ventilated attic can flush some heat out through the vents, an insulated roof deck fights its whole battle at the roof surface. Also, the air conditioner has to treat the additional air volume of the attic space.

    Beyond that, an insulated roof deck contributes more heat to the house than an insulated attic floor does. Heat transfer is proportional to the temperature difference, and also to the area of the surface. In a ventilated attic on a hot day, the top surface of the ceiling insulation may hit 130°F -- a 55°F difference with the 75°F interior. But the deck of an insulated roof in the direct sun may reach 170°F while the attic reaches 85°F, for a difference of 85°F across the insulation. That wider temperature gap drives faster heat gain. And that faster gain is multiplied by a greater area, since the roof area is anywhere from 5% to 40% greater than the ceiling area, depending on the pitch of the roof (not to mention the gable ends).

    So with an insulated roof deck and a sealed attic, it is very worthwhile to block that solar gain right off the bat: Use a lighter tile, white shingles, or a more reflective metal. In our study, the sealed system with dark shingles did about 9% better than a ventilated attic with dark shingles. With a reflective roof, the sealed attic would likely post savings of 25% or 30%. Even matched with white shingles (with a reflectance of 25%), we estimate that the insulated roof would have scored about a 13% savings compared to the dark shingles and vented attic. Also, it's worth noting that we carefully sealed the ductwork in all the test houses, to avoid confusing the results. If the ducts are leaky, the benefit of a sealed attic is much greater, because those leaks can't communicate with the outdoors.

    Options for Stopping Rooftop Heat Gain
    Field research at the Florida Solar Energy Center (FSEC) has found several effective ways to limit rooftop heat gain in sunny conditions. Using a highly reflective roofing material (top) is the simplest and most effective: It stops the sun's energy before any heat is absorbed, so that even the roof sheathing and framing stay cool. If the existing roof is dark colored or the customer prefers a darker roof, heat can still be blocked by adding a radiant barrier foil just below the roof deck (middle). Savings from this method are roughly comparable to the saving achieved with reflective roofing; however, some conductive heating of the attic space will still take place, and the roof deck and shingles will experience some increased heat stress. A third option is to increase the insulation between the attic and the living space below, and to run the hvac ductwork within the conditioned space rather than in the unconditioned attic. This method has a smaller effect on cooling loads than the reflective or radiant barrier roof systems but is effective at reducing heating loads as well as cooling loads, making it the most cost-effective option in mixed heating and cooling climates.

    0603Pa51

    Smart Choices
    Good roof details can save energy anywhere in the country. But climate and other building details do affect the choices. Here's how to approach the decision:

    Northern climate options. If you build in the North, reflective roofing materials or radiant barriers bring only modest savings. Adding insulation in the attic is a much more cost-effective upgrade. Insulation cuts both heating and cooling costs; and the heating savings in northern winters add up to much more money. (For the full benefit, it's important to run ductwork within the insulated envelope -- winter or summer, ducts in the attic will bypass the ceiling insulation and reduce its effectiveness.)

    Not that cooling doesn't matter up north, however. In summer, attics get hot everywhere. So even in the North, reflective roofing or radiant barriers may be worth installing simply to improve summer comfort and to reduce peak loads on the air conditioner. But if you want a reflective roof in the North, look for a material like Galvalume that is both reflective and low-e: This conserves attic heat during the winter as well as providing a summer cooling benefit.

    Southern choices. Down south, reflective roofs are a no-brainer -- they're money in your pocket. Air conditioning is the big energy cost, and reflective roofs can cut it by a third in the hottest months. Increasing the attic insulation can't hurt, but reflective roofs are more cost effective, particularly if the ductwork runs through the attic.

    If you're stuck with a dark roof, attic radiant barriers can achieve savings comparable to a reflective roof's performance. But if you use radiant barriers under an asphalt shingle roof, you're wise to also choose white shingles, just so the shingles themselves won't get quite so hot.

    Good ductwork location and reflective or radiant-barrier roof construction bring independent benefits, but they also complement each other. If you have a dark roof and a hot attic, bringing the ductwork below the insulated ceiling will help quite a lot. If the ducts are in the attic, switching from a dark roof to a reflective roof can help. But combining the two tactics -- applying reflective roofing and bringing the ducts inside -- provides the greatest total benefit. In a hot climate like Florida's, your summer cooling loads could drop by as much as 40%.



    By Danny Parker ,Danny Parker is a senior research scientist with the Florida Solar Energy Center. Article Supplier: http://www.jlconline.com/cgi-bin/jlconline.storefront/4c224d630329c28327180a32100a05df/UserTemplate/69

    Scotts Contracting is available for all your Remodeling Needs email scottscontracting@gmail.com to schedule a free green site evaluation
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    6.12.2010

    Green & Eco Friendly Roofing Options

    Eco-friendly Roofing OptionsChoose from a variety of durable and environmentally friendly roofing materials.  Let Scott's Contracting supply a FREE Green Roofing Estimate for your next roof. 

    Scotts Contracting offers Roofing Options that carry a "LIFE TIME GUARANTY" with prices that Start at $5 / SQ FT

    Email: scottscontracting@gmail.com
    http://stlouisrenewableenergy.blogspot.com
    roofing
    Most homeowners have to replace their roof shingles at some point. Exposed to sunlight, heat, cold, rain, wind, and sometimes snow, sleet and hail, conventional asphalt shingle roofs last 20 years, if you're lucky.

    Recycled Shingles

    Among the most popular — and perhaps the "greenest" — of all roofing products are shingles made from recycled waste materials, such as plastic, rubber or wood fiber. Some products are made from clean post-consumer waste (waste from homes), others from post-industrial waste (factory waste). Recycled-content shingles are amazingly durable, and they look nice, too. You'd never know they were made from "waste" materials!
    Recycled-content roof shingles help divert waste from landfills and reduce our need to extract and process raw materials, which lowers energy consumption and reduces pollution. Some of these products are recyclable, too, and many come with amazing 50-year warranties. A few even carry fire ratings that could lower your insurance rates.

    Wood Shingles and Shakes

    In many parts of the country, wood shingles and shakes have long been a popular choice among builders and homeowners. Unfortunately, conventional wood shingles are made from old-growth western cedar. Although the amount of energy it takes to produce this product is relatively low, the harvest of old-growth trees is not sustainable in the long run. These shingles are also quite combustible and can no longer be used in areas where there is a risk of brush and forest fires.
    If you would like to install wood roof shingles and local building codes permit them, consider a product made from reclaimed lumber. The Armster Reclaimed Lumber Co. in Connecticut, for example, makes roof shingles using wood reclaimed from mills, bridges, old water and wine tanks, and a number of other sources. This company acquires old wood throughout the country and makes an effort to process it locally — close to where you purchase the product — to reduce costs and transportation energy.
    Another environmentally friendly wood shingle is produced by Maibec Industries in eastern Canada. The company harvests sustainably grown (certified by the Forest Stewardship Council) eastern white cedar trees to produce shakes and shingles. These are most commonly used for siding, but they can be used for roofs, if installed according to the company's recommendations.
    If you'd like a roof that will outlast a conventional asphalt shingle roof and is made from environmentally friendly roofing materials, consider the products outlined here. Many of them are virtually immune to hail. Green roofing products are many and varied, ranging from recycled-plastic shingles to recycled-metal roofs to sustainably harvested or reclaimed wood roofs. The best option for your home depends on the design of your home, local building codes and price considerations.

    Slate and Clay Tiles

    Slate is a natural material and produces an extremely durable roof tile — one that can last hundreds of years. Several companies offer slate tiles, and one company offers a 100- year warranty, a deal that will expire long after most of us.
    Mining slate and transporting it to market is an energy-intensive process, but several slate roof tile manufacturers offer salvaged slate and clay roof tiles. Durable Slate in Ohio sells both. Clay tiles also are a highly durable roofing material, although they won't last as long as slate.

    Metal Roofing

    Many metal roofing products include at least some recycled material, but one advantage of metal roofing is that it can be recycled at the end of its life. Because metal roofs can last up to 50 years, roofing replacement is less frequent, which means less waste in the long run. They offer exceptional durability and fire-resistance, and they're ideal for those who want to collect rainwater from their roofs to water gardens (or for household uses). You don't have to worry about chemicals that might leach from a conventional asphalt roof. Standing-seam metal roofs work nicely as the base for thin-film photovoltaic panels, too.
    Metal roofs are great in snowy climates because they allow snow to slide off, which prevents ice dams from forming. (Ice dams can damage roofs of improperly insulated homes.) To protect walkways from snow sliding off the roof, you'll need to install snow bars or a similar device over walkways, garage doors and entryways.
    Another recycled roof material is reinforced rubber shingles made from old steel-belted radial tires. The material is coated with ground slate for texture and comes in a variety of colors. A big advantage to this material is a long life and a 50-year warranty, including against hail and other extreme weather. Verify with your local building department that rubber roofs are permitted in your area before choosing this option.

    Roofing Tips

    Roofing is not a job for the inexperienced. It involves working at dangerous heights — possibly on steep slopes — and lifting heavy materials. Roofing requires a considerable amount of knowledge and skill, too. So, unless you've done this kind of work before, are skilled in carpentry, and perhaps have guidance from a professional roofer, this is a job best left to the pros. Read up on safety precautions before you consider doing any roof work, and never work alone.
    There's a wide variety of eco-friendly roofing products, so compare your options carefully. Be sure to check the materials' fire ratings, hail ratings and warranties. Call your insurance agent to see whether the product you're considering will qualify you for a discount on your homeowner's insurance.
    To re-roof your home, you'll likely need to obtain a building permit and pass an inspection. Be sure your building department approves the shingle product you've selected before you lay your money down!
    Although the products discussed in this article offer many benefits, they do have some downsides. Some of them are not as widely available as conventional roofing products, so you may have to shop around to find the option you want. Many green building material outlets sell roofing products. Green Building Products: The GreenSpec Guide to Residential Building Materials provides a helpful listing of environmentally friendly products and manufacturers.
    You may also have to shop around to find a roofing contractor who is familiar with the product you're interested in using. Some of these products are relatively new to the market and, although they've been tested, not many roofers have experience with them. When shopping for an environmentally friendly shingle, try to talk to roofers who have installed it, not just to a salesperson. Also ask your roofing contractor whether your old asphalt shingles can be recycled. Some companies grind asphalt shingles to create products for roadway maintenance and repair.

    Additional Notes
    : If you're interested in a slate or clay tile roof, either new or recycled, remember the framing of your roof needs to be strong enough to support the weight of these tiles, which can be substantial. You may need to consult with a structural engineer or with your building department to determine whether your framing is up to the task.

    The Cost of a Metal Roof vs. Other Options
    Eco-friendly roofing products typically cost more than asphalt shingles — sometimes two to four times more — but you most likely get a product that will outlast two or three conventional roofs, saving you substantially over the long term. You may also qualify for lower insurance rates. These benefits add value to your home, whether you stay there or sell it, and you're also helping promote a healthier, more sustainable world.
    Metal roof cost estimate: Installation of standing-seam metal roofing on 2,500-squarefoot, two-story house (area of the roof estimated at 1,500 square feet), does not include cost of removing old shingles:
    Cost for materials only: $6,300
    Contractor's total, including materials, labor and markup: $9,800 (about $6.53 per square foot)
    Other options, per square foot installed:
    Laminated, asphalt, 30-year shingles: $3.15
    Cedar shingles: $6.65
    Clay tile: $9.20
    Costs are national averages and do not include sales tax.

    Cool Roofs That Reduce Air-Conditioning Bills

    Consider a cool roofing material if you live in a hot, sunny climate. Cool roofs reflect heat instead of absorb it, which helps make your home more comfortable and reduce air conditioning costs. Check with your local building department or neighborhood association for possible roof color restrictions.

    Let Scott's Contracting supply a FREE Green Roofing Estimate for your next roof. 
    Scotts Contracting offers Roofing Options that carry a "LIFE TIME GUARANTY" with prices that Start at $5 / SQ FT

    Email: scottscontracting@gmail.com
    http://stlouisrenewableenergy.blogspot.com




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