About Claremont's Bible Hill

Life Expectancy of Home Components New Hampshire and Vermont, one of the questions, that I'm asked the most by Home Buyers, is about the life expectancy of the different components of the home that my client's are haven Inspected.

Will the life expectancies of the different components of a home, really depends on the quality of the installation that was done, the level of maintenance the item needs, the weather and the climate conditions of the area, and the intensity the item is going to be used.

More times than not appliances of a home are replaced, due to the changing styles and the improvements that have been made of the newer ones that come on the market, and personal preferences. And then theres other ones that just have a short life expectancy due to the intensive use they receive.

Life Expectancy of Home Components New Hampshire and Vermont, An then there are others, that the average life expectancy has increased over the pass 35 years because the introduction of new technologie. A gas range has the longest life expectancy, out of all the major appliaces in a home, which is about 15 years. Refrigerators and dryers usual last about 13 years. Microwave ovens and dishwashers last about 9 years.

Kitchens over the years have become larger, and have became what is called a great room of a home. A great room is not only a place to cook, but also an area where folks gather to read, eat, and a place for the kids to do their homework, to use the family computer, to look around the web, and pay their bills.

Medicine cabinets usual last 20 + years, and closet shelves are usual expected to last for a lifetime.

Life Expectancy of Home Components New Hampshire and Vermont, masonry is one of the most durable components of a home. Fireplaces, chimneys, and brick veneers can last a lifetime, and rock or brick wall usual have an average life expectancy of 100 years or so.

Because decks are subject to a wide range of weather conditions in different climates, the life expectancy of a wooden deck can vary significantly. Under the ideal conditions, they have a life expectancy of about 20 years. Vinyl and screen doors usual have a life expectancy of 20 too 40 years, french doors usual have an average life of 30 to 50 years.

The average life of a bathroom shower enclosures is usual about 50 years. Shower doors will last about 20 years. A toilet has an unlimited lifespan, but the working components inside the toilet tank do require maintenance. A whirlpool tub will usual function property for 20 to 50 years, it does depend on use of it.

Life Expectancy of Home Components New Hampshire and Vermont, natural wood floorings have a life expectancy of 100 years or so. You can also expecte Granite, Marble, and Slate to last in the area of 100 years, but they can end up lasting less due to a lack of maintenance. Vinyl floors last up to 50 years, linoleum for about 25 years, carpeting between 8 to 10 years. With appropriate maintenance and normal foot traffic.

The key to the life expectancy of any home compont, is appropriate maintenance being done, by the home owner.

Home Sellers its a good Idea to have a Pre-Listing Inspection, it sure is a good idea to pay for your own inspection, when your going to have a Real Estate Agent putten your home on the open market. By haven a pre-listing inspection done, sure will help your whole sale process go easier. You'll beable to find out about any hidden problems, and be able to have them corrected, or present them in the disclosure as "as is" before any buyer's even start looking at your home.

Almost all home sales contracts inclue a contingency, that the buyers can insist on a professional home inspection be performed by an inspector that they hire. Any problems that are uncovered by the buyer's inspector can very will cause delays in the closing of your home. You could very will need to pay for repairs at the very last minute, or you may even end up, taken a lower price for your home.

Home Sellers its a good Idea to have a Pre-Listing Inspection, can give you the benefit of haven the inspection done early, and if there are any problems found that need to be repaired, then you can have the repairs done on your terms, and on your own schedule. And it sure could save you thousands of dollars, just by being able to look around and competitive bids from contractors. Instead of you being forced into pay-en for that last minute rush job. You'll have the benefit of saven money, by haven the flexibllty of choosing the materials that are used for the repairs.

Remember when you have your home inspected before your home goes on the open market your going to be aware of the condition of your home before the first offer is made on it. Theres not going to be any surprises and the selle is far less likely to fall apart.

Home Selers its a good Idea to have a Pre-Listing Inspection, it takes a lot of effort to get a sales agreement on the table and signed in the first place. If the buyer's inspection turns up any problems, then they are going to want to negotiate a whole new deal, and the second sales agreement, can end up being even harder to get done than the first one was. Wouldn't you like to be assured that the first offer that you accept will move quickly and smoothly to a closing without any delays or any costly surprises.

Please take the time to think about haven a Pre-Listing Home Inspection!

The buyer's that have made an offer on your home, may still want to have their own inspection. But they may very will also pass on haven an inspection done of their own

Post 584 - 20 Sept. 2009

Coal Firing Furnaces-New Hampshire and Vermont Series Part 1, a little about the past, present, and the future of coal, and the Coal Fuenace's Stoker: Although coal has always been an important and plentiful fuel source, many folks, just may not realize how long it has been used or how much it is used today.

The Past
Coal has been used for nearly as long as mankind has thrived. In fact, coal was used to provide heat in caveman times!

In the 1300s in what is now the United States, the Hopi Native Americans, living in whats now Arizona, used coal to bake their pottery made from clay. By the mid-1700s, the first U.S. coal mining operations opened in Virginia. In 1762 coal was used to manufacture, shot, shell, and other war material during the Revolutionary War.

Wood charcoal had long been used to provide fuel in England, but in the 18th century it was discovered that coal burned cleaner and hotter. Soon after, coal use skyrocketed during the Industrial Revolution, when demands for energy sources increased.

Coal was used to fuel the boilers on steam-powered trains, which became a popular mode of transportation in 19th-century America. At the same time, coal was being used in the production of weapons during the American Civil War, and coke (a coal residue) took charcoal's place as the primary fuel for making steel.

About one hundred years ago in the United States, coal's abundance led to its widespread use for heating homes, generating electricity, providing cooking heat, powering railroads and boats, and fueling factories.

In the 1940's, the cyclone furnace was developed. That new technology allowed the combustion of poorer grades of coal to be used that had less ash production and greater overall efficiency.

The Present
Although coal may not be as visible today as it was around 1900, it is even more prevalent as a source of fuel. Coal production has increased by more than 70 percent since 1970.

If you use electricity, chances are that you are a coal consumer. Nine out of every 10 tons of coal mined in the United States today is used to generate electricity. About 56 percent of the electricity used in this country is coal-generated electricity.

Electricity generation is just one use of coal in the United States. In addition, manufacturing plants and industries use coal to make chemicals, cement, paper, ceramics, and metal products, to name a few. Methanol and ethylene, which can be made from coal gas, are used to make products such as plastics, medicines, fertilizers, and tar.

Certain industries consume large amounts of coal. For example, concrete and paper companies burn coal, and the steel industry uses coke and coal by-products to make steel for bridges, buildings, and automobiles.

About 9 percent of U.S.-mined coal is exported to some 40 countries, including Canada, Japan, and western European nations.

The Future
The United States has a 300-year supply of coal, if it continues to use it at the same rate as today. This is promising because, in addition to the many existing ways to use coal, the future holds new methods and potential for growth. Products from coal may soon be part of communications and transportation systems, computer networks, and even space expeditions.

Coal will likely continue to be an important source of electricity generation because it is more abundant and cost-effective than oil and natural gas. Compare these energy costs per million British thermal units.

• Coal—$1.20
• Oil—$4.45
• Natural gas—$4.30
• 
  

Although coal is widely used for electricity generation in the United States and in countries throughout Europe, there will likely be a significant increase in the use of coal for electricity generation in countries such as China and India.

In addition to these new and increased uses of coal, new technologies will continue to enhance our ability to identify the shape and composition of untapped coal reserves. Core samples and information about the layers of overburden (the topsoil, subsoil, and other layers of earth and rock covering the coal bed) can be analyzed before the expensive process of coal removal begins. New technologies will also continue to improve the effects of the production and use of coal on the environment.

The U.S. Environmental Protection Agency's Coalbed Methane Outreach Program seeks to work with coal companies to reduce methane gas emissions associated with coal mining. Since 1990, methane recovered and used productively at coal mines has increased from 13.8 Billion cubic feet to 37.2 Billion cubic feet.


Coal Firing Furnaces-New Hampshire and Vermont Series Part 1, about the stoker of a coal furnace: Its a mechanical device that was designed and constructed to automatically feed fuel to the coal furnace. Stokers are used in commercial, industrial, and home heating systems. By using a stoker, the result is a more efficient combustion owing to constant instead of intermittent firing. According to the ASHRAE's 1960 guide, coal stokers can be divided into four classes, by their coal burning capacity.

• Class 1 stokers (10 to 100 lbs per hour)
• Class 2 stokers (100 to 300 lbs per hour)
• Class 3 stokers (300 to 1200 lbs per hour)
• Class 4 stokers (over 1200 lbs per hour)

The class 1 stoker is used mostly in home heating installations. The other three classes of stokers are used in commercial and industrial heating systems.
Class 1 stokers are usually the underfeed kind and are designed to burn anthracite, bituminous, semibituminous, and lignite coal, and coke. Ash can be removed automatically or manually, with the latter method being the most popular.

Coal Firing Furnaces-New Hampshire and Vermont Series Part 1, stokers are also classified by whether the coal is stored in a hopper or bin. The disadvantage of the hopper design is that it will need to be refilled at least one every day. But the bin stoker design eliminates haven to handle the coal. Your coal is delivered to your home, by the supplier and placed right into the bin.

A underfeed stoker is usual used for home heating furnaces and boilers. This kind of stoker is one in which the fuel is fed upwards from underneath the home's furnace or boiler. The action of a screw or worm carries the fuel back through a retort from which it passes upwards as the coal above is being consumed. The ash is generally deposited on dead plates on either side of the retort, from which it can be removed.

Coal Firing Furnaces-New Hampshire and Vermont Series Part 1, a underfeed stoker can be designed to use either anthracite or bituminous coal, but the individual pieces of coal should be unifoem in size, and no larger than one inch in diameter. The coal should be treated with oil in order to eliminate dust. The worm feed mechanism can be regulated to feed coal at variable rates.

Fun Coal Facts

1. The U.S. produces about 1.1 billon tons, of the world's coal supply, second only to China
2. Coal generales about half of the electricity used in the U.S.
3. More than 2 million acres of mined land has been reclaimed over the past 25 years, now thats an area larger than the State of Delawre.
   
4. The U.S. has in the area of a 245 year supply of coal, that is if we continue to use coal at the same rate at which we use coal today.
5. Montana is the State with the most coal reserves, 119 billion tons. But Wyoming is the top coal producing State, it produced about 400 million tons in 2004.
   
6. Texas is the top coal consuming State. Folks use about 100 million tons evey year.
7. The average coal miner is 50 years old and has 20 years of experience.
8. Coal ash, is used as filler for tennis rackets, golf balls, and linoleum.
9. U.S. coal deposits contain more energy than that of all the world's oil reserves.
   
10. Each person in the U.S. uses 3.8 tons of coal each year.

Post 583 - 17 Sept. 2009

Link to Coal Firing Furnaces-New Hampshire and Vermont Series Part 2

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Coal Firing Furnaces-New Hampshire and Vermont Series Part 2, Lets talk a bit about the coal itself, and start-en the fire. Bituminous coal, is low in ash, its six percent or less, and with a ash fusion temperature of 2200F to 2600F and a 1 1/4 inch to 3/8 inch maximum sure is ideal for your coal furnace's stoker operation.

This is a peace of Bituminous Coal

And its highly recommended to use a oil treated coal. By do-en so it will eliminate the coal dust and will help to give your furnace's stoker a longer life. In most areas of our Country, a high quality coal is generally satisfactory and most economical to use. The annual coal tonnade for a U.S. stoker is usually low. Convenience and satisfaction are the primary factors consideted when folks are maken the decision to install a coal furnace so therefore, its recommended to always use a good coal. Be sure to consult with your local coal dealer or the manufacturer of the stoker for recommendations.

Coal Firing Furnaces-New Hampshire and Vermont Series Part 2, the procedure thats involved with start-en a fire in a stoker equipped heating unit, includes the follow-en steps.

1. Set the room thermostat above the room temperature.
2. Set the coal feed and the air setting to the proper rate.
3. Throw the line switch to the on position so that the stoker starts.
4. Open the hopper lid, and watch the feed screw for a bit, to make sure that its turning. Sometimes in shipping or when the hopper is being installed the stoker, the feed screw could very will slip off the shaft thats on the gear case. Always be sure that the feed screw is engaged before you put any coal into the hopper.
5. Fill the hopper with some coal.
6. Set the overfire air door on the furnace 1/4 to 1/2 open, and be sure to lock it in position.
7. Let the stoker run until the retort, inside the furnace or boiler, is filled with coal.
8. Place a quantity of paper, kindling wood, and a small amount of coal on top of the retort and ignite it.

Now you and your family will be toasty warm, on a cooled winters night.

Post 582 - 16 Sept. 2009

Link to Coal Firing Furnaces-New Hampshire and Vermont Series Part 3

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Coal Firing Furnaces-New Hampshire and Vermont Series Part 3, this post is going to cove protection and servicing of a coal firing furnace.

Protection from a overload of the motor, the motor has a built-in device for protection against excessive motor temperatures. If the motor should become overheated, the protection device on the motor will prevent damage by breaking the electrical circuit. Most motor overloads are caused by lack of bearing lubrication, low voltage, or from excessive belt tension. To reset it, youll need to push the motor's reset button, but do this only after the motor has had enough time to cool off sufficiently.

Now for the protection of the transmission from an overload, the transmission of the furnace also has a overload protection device that will automatically break the electrical circuit to the motor, in the event a obstruction does become lodged into the conveying mechanism of the furnace. After you have removed the obstruction, push the reset on the side of the transmission. Always be sure to read a follow manufacturer's instructionsfor removen an obstructions from the conveying mechanism of the transmission.

Coal Firing Furnaces-New Hampshire and Vermont Series Part 3, its usual recommended that you prepare your furnace, to service and get your furnace ready for next winter, just after you are done using it in the spring. You should do the following.

1. Remove all coal from the hopper.
2. Grease or paint the inside of the hopper.
3. Open the hopper lid so the air can circulation in and out of it.
4. Be sure to remove any siftings from the retort base, and remove any ash or clinker from the burner.
5. Always clean and oil the motor with a good grade of medium engine oil, you should also lubricate it twice during the heating season. Also adjust the belts.
6. Oil the stoker worm or screw. Which ever one your furnace may have.
7. Check to see if you need to replace the oil in the transmission.
8. Also run a heavily oiled coal or you can also run sawdust through the stoker, and leave the feed screw and the coal tube full, during the summer month's. By doing so, it will help prevent corrosion and rusting.

Post 581 - 15 Sept. 2009

Link to Part 4 -Coal Firing Furnaces-New Hampshire and Vermont Series Part 4