If you’ve been following the progress of Sunset Green Home, you have already seen images of the house almost completely framed.  So what comes next?  Energy-efficient and durable windows.  We’re about to place the order for IZ3 low-E Integrity® Wood Ultrex windows by Marvin®.  In plain English?  A coastal window with a set of features that is just perfect for Sunset Green Home.

Before I describe why we selected that particular window for Sunset Green Home, it might be useful to present a primer of sorts on window characteristics that affect performance.  And understanding these characteristics is critical.  After all, windows comprise the building system with the greatest potential impact on your home’s energy efficiency and comfort.

How a Window’s Energy Efficiency is Described

A window’s energy efficiency is described by two values: the U-Factor and the Solar Heat Gain Coefficient. 

According to the LEED® for Homes Reference Guide, “the U-Factor is a measure of the thermal resistance to heat flow of the overall window.”  The lower the number, the better the window insulates.

The Solar Heat Gain Coefficient (SHGC) measures how much of the sun’s energy is transmitted in through the window.  The lower the SHGC, the more a window will block the sun’s heat.  In warm climates, homeowners will likely want windows with a low SHGC, while in colder zones, higher SHGC will allow the sun’s rays to warm a room, thereby reducing the load on the home’s heating system.

The National Fenestration Rating Council (NFRC) has developed rating and labeling standards that allow consumers to compare windows across manufacturers, based on their U-Factors and SHGCs. 

Several variables play a part in determining these important window rating values, and may include:

Window Frame Materials

Windows come in a variety of materials – wood, aluminum, vinyl, fiberglass and combinations of these materials.  Wood offers versatility and can be painted or stained.  Vinyl is a durable, lower cost window material.  Fiberglass is extremely strong, is dimensionally stable – particular with large temperature swings – and requires less maintenance than other materials. Aluminum is strong and rigid and can be configured for very large panes.

The frame material and the ratio of glass to framing will impact a window’s energy efficiency.

Number of Glass Panes

The more panes of glass, the more the window will insulate a home and block the sun’s UV rays.  Modern windows typically consist of two panes of glass (the leaky windows in the turn of the 20th century house where I grew up were single pane windows – now thankfully obsolete). Homes in regions with extremely cold winters or in noisy urban areas may elect to install triple pane windows.  Triple pane windows can be significantly more expensive than double pane windows.

Panes of glass are separated at the edges by a spacer bar.  Specially engineered Warm Edge Spacers can improve a window’s energy efficiency by up to 5%.

Gas Filling Between the Panes

The space between the panes can be filled with air or may be injected with a gas (krypton, xenon or argon) that provides better insulation. 

Low Thermal Emissivity (Low-E) Coating

Manufacturers may apply a thin film to one or more of the glass panes to reduce the amount of ultraviolet light (which may cause furnishings to fade) and infrared light (which heats up a room in the summer) that passes through the glass without compromising the visible light that is transmitted to the interior. 

One More Window Option to Consider – Impact Resistant Technology

Although it doesn’t have a significant effect on energy efficiency, choosing an impact resistant window is critical in certain parts of the country – particularly those in a hurricane zone.  Impact resistant windows are engineered to withstand the forces of flying debris at high wind speeds.  Window modifications may include shatter-proof lamination, heavier frames, and special installation assemblies.  They are generally rated for one of several geographic “impact zones.” 

So Many Options…How to Choose?

With so many options, how does one choose a window? 

ENERGY STAR® labeled windows are a good place to start.  ENERGY STAR window labels are region-specific, so they factor in the most important drivers of energy efficiency by climate zone. 

Southern zones will be more concerned with heat gain, as indicated by the SHGC.  Northern zones require better insulation, as described by the U-Factor.  These considerations are reflected in ENERGY STAR's zone-specific qualification criteria.

If you’ve read our House Tours articles, you know we’ve written about several extremely energy efficient homes.  James Whittaker, developer of the LEED Gold home we profiled in Grand Cayman tells me that “we now use SIW exclusively.  We vetted their product quality extensively and we are very happy with the results.  We think it's the best value for money for this hot humid hurricane zone. U-Factor doesn't matter much in this climate.  All the windows and doors we use are impact rated to at least 150mph.”  The windows that Whittaker specifies are double pane, impact windows that are either casement style or fixed.  In the hot environment of the Cayman Islands, opening a window to let in the breeze isn’t a requirement.

By contrast, U-Factor was the most important consideration for the LEED Gold home in ski country that we wrote about last winter.  Frank Navarro used triple pane aluminum windows by JELD-WEN with significant insulating properties that make sense for a colder climate.  The aluminum frames made it possible to incorporate very large windows that maximize the home’s views.

For the Passive House in Queens that we profiled more recently, the owners "seriously researched" five window manufacturers, before selecting Schuco triple pane PVC windows both for their insulating properties and because of their ability to block out street noise.  And, according to the owner, Architect Tom Paino, "the PVC with special UV coating stands up better than any other material (aluminum clad, etc.) considering the air pollution" of New York City.

It’s important to think about how you’re going to use the windows.  Sunset Green Home is in a breezy coastal location, where temperatures are moderate for more than half of the year.  We enjoy opening the windows and letting the breeze into the home.  So we’ve chosen a double hung configuration for many of the windows.  All of Sunset Green Home’s windows will open and close.

If your region is prone to severe weather, check to see if your building code requires impact resistant windows or if your insurance company will lower your premium if you voluntarily elect to install them.  In some cases, homeowner insurance policies may not pay for damage repairs unless precautions have been taken – so arm yourself with information about your policy before you choose your windows. 

Finally, budget will also drive your choice of window. Purchase the best windows you can afford!

Sunset Green Home’s Windows

So why did we choose IZ3 Low-E Integrity Wood Ultrex windows by Marvin for Sunset Green Home?

• IZ3 denotes impact resistant glass for Impact Zone 3, represented by coastal areas in the Atlantic and Gulf Coast states.  Sunset Green Home is on a waterfront lot whose previous home was damaged by two hurricanes, two years in a row.  Flying debris is a real consideration, so the old house that Sunset Green Home replaces was boarded up in preparation for both storms.  Attaching plywood meant drilling holes around the windows – which has the potential to undermine the airtightness and water tightness of the building envelope – not an option for Sunset Green Home, whose LEED certification hinges on having a very tight building envelope.  By choosing an impact resistant window, Sunset Green Home will always be storm-ready
• Sunset Green Home’s principal façade faces south to take advantage of a water view and to provide for a large south-oriented roof to accommodate solar panels.  We selected Integrity’s LowE2 glass – with two layers of silver oxide – that minimizes solar heat gain from the summer sun while allowing light to pass into the house
• Integrity from Marvin’s Ultrex pultruded fiberglass construction has several features that make sense for Sunset Green Home.  Unlike aluminum, which may “chalk,” and wood, which requires considerable maintenance under salt air conditions, Integrity’s patented Ultrex material resists corrosion and is the ideal material for a coastal area.  Ultrex also makes sense in Sunset Green Home’s northeast climate, which experiences hot summers and cold winters.  Because Ultrex expands and contracts at nearly the same rate as glass, the windows are more resistant to leaks and seal failures. 
• ENERGY STAR considers Suffolk County, New York, where Sunset Green Home is located, to be in the “North-Central Climate Zone” (use ENERGY STAR’s Zone Finder to find your zone).  With U-Factors of 0.31 and 0.32, Sunset Green Home’s windows are ENERGY STAR compliant and considered “Exceptional” according to LEED for Homes.

Windows represent an extremely important building system.  They account for the greatest opportunity for heat gain and loss through a building’s envelope.  So, whether you’re renovating or building a new home, it’s important to select windows that meet your project’s specific needs.  There are many windows to choose from, and many window manufacturers that make high quality products.  So, get educated.  And pick the best window for your project and your pocketbook.

I visited the site on Friday with Sunset Green Home's builder, Chris Mensch of Coastal Management LLC .  He gave me a tour of the week's progress, which included the installation and inspection of Sunset Green Home's sanitary system.             

Most of us never think about where our wastewater, laundry water, dishwater, or bathwater goes when it leaves the house.  But if it's not being taken away by a municipal waste system, it has to go somewhere...and that somewhere is just beneath our feet. 

Nearly one-quarter of American households are served by septic systems.  Properly functioning sanitary systems pose little risk to human health.  However, according to the United States Environmental Protection Agency (EPA), "when improperly used or operated, septic systems can be a significant source of ground water contamination."  In fact, failed septic systems may release contaminants such as viruses, bacteria, phosphorous, and nitrogen into drinking water supplies and recreational water bodies.  These contaminants are responsible for making people sick and damaging delicate animal and plant habitats.

At Sunset Green Home, we are particularly concerned about building a robust sanitary system, as the project is located on the shores of the Shinnecock Bay - an important recreational waterway and habitat for eel grasses and shellfish beds.  As we wrote in a previous post, failed septic systems may account for harmful brown tides that our bays have seen in recent years. In fact, according to Christine Santora, Program Coordinator for the Shinnecock Bay Restoration Program, "over 75% of the nitrogen pollution coming into Shinnecock Bay comes from waste water (meaning septic tanks).”

So what is a septic system anyway?

A septic system is a highly localized waste treatment facility with three components: a septic tank, a leaching field, and the soil beneath the leaching field.

The septic tank, a watertight box generally made of cast concrete, receives wastewater as it leaves the home.  Solid waste settles to the bottom of the tank and forms a "sludge" layer, where bacteria set to work breaking it down. Liquids form a middle layer, and are directed out of the tank via piping to the leaching field.  Oils and other substances that are lighter than water form a layer of "scum" that rises above the liquid in the tank.

As new waste enters the septic tank, the liquid effluent already in the tank is displaced out to the leaching field.

Leaching pools control the release of effluent into the leaching field, where the effluent is filtered as it percolates through the soil and where soil-borne bacteria further break down any organic material within it.  Eventually, some of the effluent reaches groundwater. 

Sunset Green Home's leaching field comprises several cast concrete leaching pools, each of which is set atop a layer of pure sand and is kept a minimum of three feet above ground water. 

Sunset Green Home's compact septic system was designed with rectangular leaching pools and located as far away from the Shinnecock Bay as possible.  Because our water table is so high, our septic system had to be elevated above the property's current grade, and then covered with sand and clean fill.  Now that the septic system has been inspected and approved by the Suffolk County Department of Health Services, we can build the retaining walls that will surround the system.

We look forward to canoeing and kayaking with the confidence that our sanitary system is doing its job of keeping harmful contaminants out of the bay!

Are you contemplating a kitchen renovation?  From both a functional and an environmental standpoint it’s time to consider induction cooking as an alternative to both conventional electric and gas cooking.

My mother-in-law died recently after a long battle with Parkinson’s disease.  She was an extraordinary cook, and we often traded recipes and menus.  Here’s what I wrote in my tribute for her Memorial Service:

Four years ago, when we purchased a weekend cottage with an antiquated kitchen that we didn’t plan to renovate, Joan took me to Zabar’s and bought me a set of pots and pans as a housewarming gift.  She also bought me a plug-in induction burner to supplement what the old electric stove could do.  By the time Joan bought this gift for me, she was already showing symptoms of the cognitive impairment that would take a greater toll on her more recently.  But back then it manifest itself in odd ways – and one of those ways was her frequent and dogged questioning of me about that burner.  In truth, I only used it twice.  My kitchen was small and the burner lived in its box inside a cabinet above my fridge.  Most of the time I forgot it was there.  And, frankly, I didn’t really know much about induction cooking. 

Many of you know that our home was made uninhabitable by Hurricane Sandy…and that now we’re getting ready to break ground on our new house.  I only wish Joan were here so I could tell her that two weeks ago, when I finally settled on my kitchen appliances, I decided to forego gas altogether…in favor of induction.  Joan was a pioneer.  And truly a woman before her time.  When I use my induction cooktop for the first time, I’ll think of her.

And it’s true.  I WILL think of her.  And she WAS a woman before her time.  And now that time has come.  Time to think about induction not only as the cutting edge in cooking technology, but as the most energy efficient and environmentally friendly choice as well. 

With an induction cooktop, as much as 90% of the energy used goes directly to heating the pan.  Contrast that to a gas stove, where up to 50% of the heat produced dissipates into the air around the stove.  Even though - regardless of your heat source - cooktop energy consumption is relatively low compared to other home appliance energy hogs like your refrigerator, water heater and clothes dryer, the energy efficiency and greenhouse gas generation of all major appliances should still be considered - particularly if you are undertaking an upgrade or major renovation. 

However, for something as personal and important as the cooktop, energy efficiency can’t be the only decision factor.  I’m convinced that induction makes great functional sense as well.

I attended a cooking demonstration last week at the Bosch showroom in Manhattan.  The in-house chef took the Bosch 36” Benchmark cooktop with Flex-induction (model NITP666UC) through its paces.  I watched a pot of water at a rolling boil instantaneously come to a simmer at the push of a button.  That level of responsiveness just isn’t possible with gas or conventional electric cook tops.

And, when the chef removed the pot from the stove, he placed his hand directly onto the cooktop, which was already cool enough to touch.  For those of us who have children or grandchildren in our homes, it’s wonderful to have the peace of mind that comes from knowing that there won’t be any hot surfaces in the kitchen to burn little fingers.

We entertain A LOT!  It isn’t unusual for us to have 12 or 14 people around our dinner table on the weekends.  Since I generally cook everything myself, I’m often in the kitchen when my guests are socializing.  Which is why we’ve designed our home with an open floor plan – perfect for casual entertaining.  One of the nicest features of an induction cooktop is that it doesn’t heat up the kitchen.  I won’t be “wilting” while standing at my stove after my guests have arrived.  And, since the ambient air in my kitchen will stay cooler if I'm using induction cooking, I'll also save on my air conditioning and ventilation usage and costs. 

Speaking of entertaining…when I cook for a large group, I often need a large cooking surface.  Many induction cooktops have “bridging” features or cooking areas that adapt to a pot’s size and shape.  Thermador’s Freedom™ Induction Cooktop (pictured at the top of this post) is the most flexible induction cooktop I’ve seen, and it provides for up to four pieces of cookware – from as small as 3” to as large as 13” x 21” – to be placed anywhere on its surface.  This is the unit we're planning to install in the Sunset Green Home kitchen.

Lastly, cleanup is easy with an induction cooktop.  The smooth glass surface is easily wiped clean.  And because the surface doesn’t heat up like the grates of a gas cooktop do, there’s less likelihood that spills and spatters become baked on messes.

Induction cooking is only “nearly perfect” – so it wouldn’t be fair to extol its virtues without discussing its flaws.  First, unless you purchase a special induction wok burner, wok cooking is less satisfying than with gas.  If you like to flip and toss, you may be frustrated when the wok cools down as you lift it off the cooking surface.  Although I love to stir fry, I think I can live with this.  And an induction cooktop won’t function during a power outage.  But – I have a gas grill and we will have a generator, so this is another risk I’m willing to live with.  Lastly, induction cooking requires special cookware with magnetic conductivity.  But since my mother-in-law had the foresight to buy me a set of induction ready pans as a housewarming gift those several years ago, I’m good to go.

Happy cooking!

I sat down recently with John Tortorella, a designer and builder of custom gunite pools in Southampton NY, and the CEO and founder of the Tortorella Group, to discuss pool durability and energy efficiency, two qualities that are “top of mind” for the Sunset Green Home project. 

If you’ve been following our story, you know that the old house on the site of the Sunset Green Home project was made uninhabitable by Hurricane Sandy.  The property didn’t have a swimming pool, but the new Sunset Green Home will have one.  So, just as we have been thinking about durability and energy efficiency for the Sunset Green Home itself – which we hope will earn LEED Platinum certification at completion – we are thinking in parallel about the same issues for the swimming pool.

Like many coastal properties, Sunset Green Home will be built on pilings that are approximately 10 feet above current grade.  The pool will be set into a deck at the level of the ground floor of the house.  On the one hand, this means we won’t have to do any excavation.  On the other hand, it also means that the entire pool structure has to be constructed above the ground…which is somewhat complicated.  

Our pool construction, just like that of the house, starts with pilings that are driven deep enough into the ground that they can support the load of the pool structure with no movement.  The pool contractor will then build steel (rebar) and concrete grade beams that span the piles in order to distribute the pool load over the piling system.  

Durability is critical!  Think of it this way: at 70 degrees, one gallon of water weighs 8.3 pounds.  Multiplying by the volume of the pool, we estimate that the Sunset Green Home pool will hold over 143 TONS of water (we used this pool volume calculator).  That’s a lot of weight.  And now imagine a similar storm surge to that of Hurricane Sandy, which would send a velocity flow of water right into the vertical wall of the deep end of Sunset Green Home’s pool. 

So how does one build a pool to withstand these types of forces?  And, if we’re going to be as energy minded about the pool as we are about a home that is seeking LEED Platinum certification, what should we do about energy efficiency?  These are the questions Kathryn Cannon (Sunset Green Home’s sustainability consultant) and I posed to Mr. Tortorella.

The first thing he did was pull out his mobile phone and show us a photo of a pool he had built just prior to Hurricane Sandy, which the homeowner's insurance adjuster believes may very well have saved the owners’ oceanfront home.  The pool had been built on helical piles just up against a dune.  After the storm, when 100 feet of dune had been washed away, what was left was the exposed underside of the pool structure – which was completely undamaged.  THAT, John Tortorella said, is a durable pool.  And, because the pool withstood and deflected the forces of the storm, the house behind it was undamaged.

So what makes a durable gunite (i.e., pressure sprayed concrete) pool?

• The quality of the rebar used for framing of the grade beams and pool walls.  Tortorella uses 1/2”  and 5/8" thick rebar (and thicker rebar in some cases) versus the industry standard 3/8” thick steel on even his standard pools, and his crew takes care to bend – not splice – the pieces where angles are required
• The design of the rebar caging for grade beams and pool structure.  Depending on how high the pool is built above grade, the rebar structure may vary from a single cage of 1/2" rebar at 10" on center, to as much as a double cage of rebar for a pool that one can literally walk beneath.  To avoid cracks, Tortorella reinforces his pool structures with rebar under and around the pool skimmers
• The density of the concrete walls.  It’s not enough to specify a particular thickness of gunite.  Tortorella nozzlemen receive extensive training and are certified for gunite application, which Tortorella says results in a uniform, dense application that contains no “voids” within it.  It’s the uniformity of coverage and proper encapsulation of the steel rebar that gives the gunite its strength
• Sizing the pipes correctly.  The durability of the pool pumps and other equipment depends on smooth flow of water through the system.  Undersizing the pipes or including too many twists and turns will cause the pump to overwork, resulting in  shorter equipment lifetimes and increased - unnecessary - electricity use
• Including pool components that work holistically to deliver a safe and comfortable aquatic environment.  Salt water pools are the state of the art, and their salinity is approximately equal to that of a human tear.  Such pool chemistry, if properly balanced, will feel better on skin and eyes, and provides for more pleasurable swimming.  The salt in the pool is also used to create pure chlorine via a salt generator.  But Tortorella warned that the process of generating chlorine from salt will raise a pool's pH - so using a salt generator alone is not recommended.  He cited a trio of Pentair products – Intellichem (the "brain" that continuously measures and tests chlorine and pH levels), Intellichlor (which produces chlorine from salt) and IntellipH (which balances the pool's pH level) – that work together to adjust and maintain a pool’s chemical balance.  But he warned that using the salt generator alone, which some customers do to control first costs, may be penny wise and pound foolish...doing so may result in rough and unsightly scale buildup on the pool walls and may deteriorate the pool heater's heat exchangers.

And what about energy efficiency?  There are things that pool owners can – and should! – do to reduce a pool’s energy use and environmental impact.  

• Install an ASTM-approved automatic pool safety cover…and then use it!  Not only will this habit result in a safer pool environment, but closing the safety cover when the last swimmer comes out of the pool can save up to 70% in heating costs, and will reduce by as much as 50% a pool’s evaporative water loss and 60% of pool chemical consumption according to the US Department of Energy
• Include an ENERGY STAR certified variable speed pool pump.  According to the US EPA’s ENERGY STAR web site, on average such pumps result in savings of over $300 annually (and potentially even more in warm climates where pools are used throughout the year or when the newest and most efficient models are installed; John cited a savings of as much as $1,800 - $2,000 for local installations using the Pentair model).  In fact, according to the ENERGY STAR web site, “If all pool pumps sold in the United States were ENERGY STAR certified, we would save about $113 million per year and prevent greenhouse gas emissions equivalent to those from 140,000 cars.”
• As above, design the pool’s plumbing system correctly.  An energy efficient pump is no good if it’s trying to push water through a pipe that is too small!  Getting the plumbing right means that the pool pump won’t have to work so hard to move the water through the system.
• Heat the pool water using solar panels (which work best during the warm sunny months of the year) instead of gas heaters (which burn fossil fuels and contribute to global warming).  And install solar PV panels to generate electricity for supplemental pool heat (check for federal, state and local rebates and tax incentives).  Design the pool with “deep heating” – heat rises, so heat the pool from the bottom rather than at the top to avoid losing the pool heat into the air

If you’re building a new swimming pool, make sure to ask your contractor to incorporate these and other best practices into its construction and operation.   

Happy swimming!

In planning for the Sunset Green Home, we have done a lot of thinking about durability.  We lost our previous home to flooding caused by Hurricane Sandy, so we have a lot of respect for Mother Nature.  That's why the new house will be nine feet higher than our old home.

And in choosing to build to LEED® for Homes green building standards, we have used the LEED framework to devise durability strategies for non-toxic termite control, managing moisture inside, outside and between the walls of the house, and to mitigate the effects of natural disasters such as hurricanes.  All of these important durability measures are designed to protect our home and keep us safe from pests, nature and environmental toxins.

Naturally, having lost our home due to flood, we've spent a lot of time thinking about water.  But lately, we've also been thinking about fire safety.  While our house was rendered uninhabitable by Hurricane Sandy’s storm-surge induced flood waters, 135 homes in Breezy Point, NY and several in Greenwich, CT were destroyed by fire in the same storm. 

According to the U.S. Fire Administration (a division of FEMA), "More than 3,400 Americans die each year in fires and approximately 17,500 are injured. An overwhelming number of fires occur in the home. There are time-tested ways to prevent and survive a fire. It's not a question of luck. It's a matter of planning ahead."

Building codes mandate the installation of smoke detectors, and the Sunset Green Home is going the extra step of having them tied into our home security system's central monitoring service.  But, for a two-story single family residence, should we be doing more to plan ahead?  Would it make sense to install a residential fire sprinkler system?  How should we evaluate the choice to do so?

We can think about the decision in terms of the Triple Bottom Line, which goes beyond a traditional economic-only bottom line analysis to include an assessment of the value in terms of environmental impact and impact on people (see my earlier post for more of the vocabulary of sustainability). 

 In terms of economics, Newport Partners’ 2013 Home Fire Sprinkler Cost Assessment report examined 51 homes in 17 communities and found that the average system cost was $1.35 per sprinklered square foot (down from $1.61 in 2008).  At just under 5,000 square feet (considering the main residence and an accessory structure on the site of the project), that's somewhere around $6,750 in total for the system (though we received one bid at $2.75 per square foot, which is more than double the report’s findings).  Our insurance agency tells me that insurers look favorably at residential sprinkler systems, and that we might see a reduction in our homeowner's policy premium if we install one.  What is unclear is how much we might save by doing so.  A 2007 NAHB study titled Fire Sprinklers and Homeowner Insurance suggests that the savings are in fact quite small – the best savings was reported in Florida and was only $95 per year.  If this is the case, the payback period could be very substantial.  And our situation is further complicated by our coastal location, where standard insurance carriers do not write policies.  

Should we experience an actual fire, the economics become compelling.  According to the American Fire Sprinkler Association, “most fires are completely controlled with the activation of only one or two sprinklers. Fire hoses, on average, use more than 8 times the water that sprinklers do to contain a fire.”  U.S. Experience with Sprinklers, a 2013 study by John R. Hall, Jr. studied the cost of damage from fires reported during the period 2007 – 2011.  For homes (including apartments) without sprinklers, the average damage per fire was $20,000, which was reduced to $7,000 when Wet Pipe Sprinkler systems were present.

The environmental impact of having a residential fire sprinkler system can be thought of as a combination of the added impact of the system materials themselves and the opportunity cost of not having the system should the home experience a fire.  There's an upfront environmental cost of the PVC pipes and system controllers.  However, according to a 2010 report by FM Global, the environmental benefits of automatic sprinklers are significant.  The report presents the findings of large-scale fire tests where fires were controlled by two methods: fire service intervention vs. a single residential fire sprinkler.  The study found that in the event of a fire, residential sprinklers could reduce water usage by as much as 91% and greenhouse gas emissions by nearly 98%.

Lastly, the human benefits of adding a residential fire sprinkler system are significant.  In the event of a house fire, a home sprinkler system might provide enough fire suppression to allow the home's occupants to exit the building safely.  By treating the blaze before firefighters can arrive on the scene, the system will reduce the risk to the first responders, who often put their lives in danger when they enter a burning home.  In fact, while “more than 8 in 10 fire deaths occur in homes…the likelihood of someone dying in a home fire is cut in half when sprinklers are present,” said Gary Keith, NFPA’s vice president of field operations, in a 2008 press release.

Municipalities are getting on board.  I spoke with a representative from the New York State Division of Building Codes and Standards, who told me that the International Code Council has already mandated residential sprinkler systems in one- and two-family residences regardless of their height.  New York generally follows the International Codes.  So it may just be a matter of time before all new homes in my state are required to install them.  While Sunset Green Home has a choice regarding a home fire sprinkler system, builders of new homes may not as early as next year. 

We haven't made a final decision about a residential fire sprinkler system; we are waiting for additional proposals from licensed installers so that we can understand the costs in greater detail.  And our decision also involves understanding our personal fire risks.  I do a lot of cooking, and according to the Centers for Disease Control and Prevention (CDC) cooking is the leading cause of house fires.  However, the CDC also notes that smoking is the leading cause of fire-related deaths, and we do not have any smokers in our family.

Stay tuned.  We'll post an update when we make our final decision.