Frequently Asked Questions

FAQ Categories

Questions and Answers

  • Heating Oil vs. Propane Gas

  • Is propane more expensive than heating oil?

    Yes. All fuels are rated based on their heat content. The unit of measure is a British Thermal Unit (BTU), which is the amount of energy needed to raise one pound of water one degree. Heating oil contains 140,000 BTUs per gallon, whereas propane contains only 91,300 BTUs per gallon. Therefore, it takes 1.53 gallons of propane to provide the same amount of heat as one gallon of heating oil.

    In addition, propane consistently sells for 10-50 cents more per gallon than heating oil. When you combine this cost difference with the BTU difference, it generally costs twice as much to heat a home with propane. The accompanying cost comparison chart illustrates this fact (Fig.1).

  • Is propane more efficient than heating oil?

    No! Heating oil is inherently a more efficient fuel than propane or natural gas. The reason for this is that the flame temperature of an oil flame is hotter than a gas flame. Several boiler manufacturers manufacture identical boilers that can be fired with either an oil burner or a power gas burner. In each case, the oil unit is approximately 4% more efficient than the natural gas or propane unit.

  • Which fuel makes more hot water?

    Because of the hotter flame temperature, heating oil is more efficient at generating hot water than natural gas or propane. The average recovery rate (the amount of hot water that can be made in one hour) for an oil fired hot water heater is 120 gallons per hour. On the other hand, the average recovery rate for gas fired hot water heaters is 40 gallons per hour. Therefore, heating oil can make three times as much hot water at half the cost.

  • Which fuel is safer?

    Heating oil is significantly safer than propane. This is the reason why building codes allow heating oil to be stored inside the home, whereas propane must be stored outside. Propane is highly flammable and explosive at room temperature. It is also heavier than air and does not dissipate readily in the event of a leak.

    By contrast, heating oil is combustible, but not flammable. It will not burn until it is heated to 140 degrees. In addition, heating oil is safer than either natural gas or propane when it comes to the risk of carbon monoxide poisoning.

  • Is propane cleaner than heating oil?

    According to the U.S. Environmental Protection Agency, modern oil equipment burns equally as clean as natural gas or propane. The accompanying EPA chart (Fig. 3) demonstrates this.

  • Price Protection Programs

  • What price protection programs does Hart & Iliff offer?

    Hart & Iliff offers a Guaranteed Price Program and a Cap Price Program. The Guaranteed Price Program allows you to prebuy oil at a fixed price for delivery during the winter months.

    With the Cap Price Program, your price fluctuates with market conditions but never exceeds a preset maximum price. To participate, there is an annual enrollment fee. The program provides complete downside protection should the price decline during the winter months.

  • When are these programs offered?

    These programs are offered during the summer months.

  • How can Hart & Iliff afford to offer these programs?

    Heating oil futures and many other commodities, including crude oil, gasoline, natural gas and propane, are traded on the New York Mercantile Exchange and several electronic exchanges. Contracts are sold for each winter month in 42,000 gallon increments. Price protection contracts known as options are sold against these futures contracts. Option contracts offering upside protection are known as “calls” and option contracts offering downside protection are known as “puts.” Futures contracts, calls and puts are the price protection tools that allow us to offer the Guaranteed and Cap Price Programs.

    In recent years these futures markets have become very volatile. This volatility has increased the price of a call or put option from approximately five cents per gallon to as much as 40 cents per gallon.

  • Should I participate in a price protection program?

    The answer depends to a large extent on how you view risk. These programs are not designed to guarantee that you save money but to offer assurance regarding the price that you will pay during the heating season. If you are willing to take some risk, you may want to pay the market rate throughout the winter. If you are risk adverse, or you want to accurately budget your costs, then one of our price protection programs is the way to go.

  • Can the Cap Price Program be combined with an Even Payment Program?

    Yes, the Cap Price Program can be used in conjunction with our Even Payment Plan.

  • Equipment Sizing

  • How important is it to properly size heating and air conditioning equipment?

    In the days when energy was plentiful and inexpensive, no one worried much about sizing heating and air conditioning equipment. However, in today’s world of high energy prices and environmental concerns, it has become important because properly sized equipment uses less energy and generates less pollution.

  • Isn’t it better to oversize equipment so that it doesn’t have to work as hard?

    Larger equipment costs more to install and more to operate. Mechanical equipment operates most efficiently in the middle of its run cycle. Oversized equipment cycles on and off more frequently, which reduces efficiency, can create service problems and reduces the life of the equipment. Taxicab engines in New York City are known to log up to 500,000 miles because they run continuously without starting up and shutting down.

  • How do you properly size heating and air conditioning equipment?

    It is a law of physics that warm air (winter) or cool air (summer) inside a building will seek equilibrium with the outdoor temperature. This process is slowed down, but not stopped, by the insulating value of windows, doors, walls and ceilings. The rate at which heat (wintertime) and cooling (summertime) leaves a building can be measured by what is known as a heat loss calculation (winter) or a heat gain calculation (summer).

    Years ago, these calculations were done by hand, but today we use computer programs. In order to generate an accurate calculation, we need to know the dimensions of each room, the area of all windows and doors and the insulating value of the building materials. The greater the insulating value of the building materials used in constructing your home, the lower the heat loss or heat gain.

  • How accurate are heat loss and heat gain calculations?

    Heat loss and heat gain calculations are reasonably accurate, but not foolproof. While we can make strong educated guesses, it is not possible to look behind the walls of your home to see exactly what insulation was installed, the quality of the installation and whether any of the insulation has settled, leaving gaps.

  • Are there any other methods of performing heat loss and heat gain calculations?

    With regard to heat gain calculations (cooling), there are no other practical methods other than using the building envelope as described above. However, with regard to heat loss calculations (heating), we have found that tracking fuel consumption and comparing it to degree day (outdoor temperature) information is easier, quicker and more accurate. This fuel consumption method, which was developed at Hart & Iliff, calculates exactly how much energy must be introduced into a building to overcome the heat that is escaping to the outdoors through the walls, windows, doors and ceilings of the building. An article we wrote about this method for sizing heating equipment was featured in three major industry publications and has been used by heating professionals all around the country.

  • Oil Delivery

  • As an oil heat customer, what are my delivery choices?

    You can choose to receive deliveries on a will-call or an automatic delivery basis. Will-call customers monitor their own tanks and call when they need a delivery, providing us with a minimum of 48 hours notice. For automatic delivery customers, we use our computerized degree day system to determine when to make deliveries to your home.

  • Do you deliver when the price is the highest?

    No, our profit margin, which is the difference between the wholesale and retail price, remains the same regardless of the price of oil. We deliver only when our system tells us you need a delivery.

  • Is there an extra charge for automatic delivery?

    No, the price for will-call and automatic delivery customers is the same.

  • How does degree day delivery work?

    Degree days are a measure of how cold it is outside, equal to the difference between the average temperature for the day and 65̊F. For example, if the average temperature on a particular day is 30̊F, that would be the equivalent of 35 degree days. We take a degree reading each day and enter it into our computer. Using the tank size and the degree days, our computer develops a burn rate that tells us how much oil is used for each degree day. If your oil fired heating system makes your domestic hot water, our computer takes into account a hot water factor as well. Our system is designed to generate a delivery ticket so that we make a delivery when the reserve in your tank is approximately 30% of the tank size.

  • How accurate is the degree day delivery system?

    It tends to be pretty accurate during the winter months but somewhat less accurate during the fall and spring. The accuracy can also vary from customer to customer.

  • Indoor Air Quality

  • Why indoor air quality?

    According to the U.S. Environmental Protection Agency, there is a growing body of scientific evidence indicating that air within homes and other buildings can be more seriously polluted than outdoor air. This is true even in industrialized areas. Since we spend approximately 90% of our time indoors, health risks due to exposure to indoor air pollution are often greater than outdoor air pollution.

  • What causes indoor air problems?

    A major cause of indoor air quality problems is pollution from sources in the home that release particles or gases into the air. An example might be fibers from a carpet. Often there is insufficient ventilation to add fresh air and expel stale air out of the home. In addition, high humidity levels can increase the concentration of pollutants by creating an environment where mold and mildew can flourish.

  • What are the most effective ways to improve indoor air quality?

    There are three primary methods to improve indoor air quality. The first is to eliminate pollutants from the home. The second is through the use of air cleaners, which can be effective at removing particles from the air. However, air cleaners are generally not designed to remove gaseous pollutants. The third method, which is often the easiest to implement, is by improving ventilation. Ventilation adds fresh air to the home and expels stale, musty air.

  • How does outdoor air enter a home?

    Outdoor air enters and leaves a home by infiltration, natural ventilation and mechanical ventilation. The rate at which outdoor air replaces indoor air in a home is described as the air exchange rate.

  • How can I improve the air exchange rate in my home?

    The simplest way would be to open a window on each side of the home. The disadvantage of this approach is that it will increase your heating and cooling costs. A more practical way of increasing ventilation is through the installation of a mechanical ventilation device. Two effective mechanical ventilating devices are Humidex and an air-to-air heat exchanger.

  • How do Humidex and an air-to-air heat exchanger differ?

    Humidex is a relatively simple device that was developed in Canada but is rapidly gaining acceptance in the U.S. market. Humidex is installed in the basement or lowest level of a home. It expels the polluted air from the basement and replaces it with fresh air from the upper levels of the home. An air-to-air heat exchanger is a sophisticated device that directly exchanges outdoor air with air in the home. It is designed to extract heat from the indoor air before it’s expelled outside of the home and is used primarily in commercial buildings.

  • Solar Energy

  • Is solar energy new to the United States?

    It has been available in the U.S. since approximately 1974 following the Arab oil embargo. To date, it has been used primarily in warm, sunny climates like California, Arizona and Florida.

  • Does it make economic sense in this part of the country?

    Up to this point, in most cases, the payback on solar equipment in New Jersey has not been enough to make it economically viable. However, this situation is beginning to change. Higher energy costs and recent tax law changes (see related article) have increased the rate of return on an investment in solar energy equipment.

  • Where are solar collectors mounted?

    They are normally strategically mounted on the roof of a home. However, they can also be mounted on the ground in specially designed solar panel holders.

  • How are solar panels used?

    Solar panels can be used to generate electricity (photovoltaic system). They can also be used to generate domestic hot water, heat a swimming pool or in a hot water radiant heating system. Generating electricity and heating domestic hot water are the most economically viable since they can used 12 months a year.

  • How do photovoltaic systems work?

    Photovoltaic systems convert energy from the sun into electricity. Electricity produced by solar panels is tied into the electrical system in a home or building to supplement the electricity supplied by the local power company. On a sunny day, when electric consumption is low, the excess electricity produced by the solar panels goes back into the electric power grid and is credited to your electric bill.

  • How do solar hot water making systems work?

    A solar hot water generating system consists of four main components: storage tank, solar panels, circulator and a control. The storage tank generally contains two coils, which are used to transfer heat to the domestic hot water. The first coil is attached to the solar panels and the second to a supplemental heat source, such as a boiler. The circulator moves a water/antifreeze mixture from one internal coil in the storage tank to the solar panels on the roof. The solar panels heat the water/antifreeze mixture and return it to a coil in the storage tank to heat the domestic hot water.

    At night or on cloudy days, a secondary coil tied into an supplemental energy source might be necessary to produce sufficient domestic hot water. Generally, the solar system can produce 60% of the annual energy demand for domestic hot water.

  • Service Plans

  • What is a service plan?

    It is a plan that covers the cost of an annual tune up, plus repairs to many of the parts of your heating system.

  • Why should I get a service plan?

    When you pay for service as you go, you never know when a expensive bill will come. Customers who need only a tune-up one year can have three service calls the next. Having a service plan eliminates these ups and downs and allows you to rest easy knowing things are taken care of. It also increases the likelihood you’ll have small problems taken care of before they become big problems.

  • What about the cost?

    Every system should be tuned up once a year; it saves you up to 10% or more on your oil bills and prevents other problems form developing. The average cost of a tune-up is approximately $185. Now consider what happens if your system needs repair and you don’t have a service plan.

    The cost to replace any major component of you heating system could easily exceed $250 or more. And if any repairs are done after normal business hours, they would cost even more.

    Our service plans cover all of this and much more. For less than the price of one cup of coffee a day, you can eliminate worrying about virtually anything that can go wrong with your heating system.

  • Which service plan is best for me?

    It depends on the type of heating system you have and the level of protection with which you’re comfortable.

    Our Comfort Plan covers the most common repairs that oil customers face and includes a professional tune-up. If you have a hot water system, our Presidential Plan goes one step further and also handles repairs to water related parts such as circulators and zone valves. If you have a new system under warranty or are prepared to pay for service as needed, you might not need a service plan at all.

  • Is all the service done by your own people?

    Yes. We maintain a full-time staff of highly trained and certified technicians who continually attend courses to stay up-todate with the latest technology.

  • Will I be charged for service not covered by the service plan?

    Yes. (Although there’s almost nothing the Presidential Plan doesn’t cover.)

  • Will I be charged extra for after-hour calls?

    With both plans, there is a small flat rate charge for calls after 8:00 pm Monday through Friday and for all calls on weekends or holidays. In addition, non-emergency service, outside of normal working hours, is chargeable at after-hour rates.

  • What constitutes emergency service?

    No heat during cold weather, serious fuel leaks, visible smoke or dangerous situations.

  • Ultrablend Heating Oil

  • What is Ultrablend?

    Ultrablend is first quality heating oil that is blended with a series of additives to improve its quality and performance. We buy the additives in 200-gallon containers called port-a-feeds. At our bulk plant, we have a chemical feed pump that automatically blends every gallon of heating oil with our exclusive Ultrablend additive package.

  • What additives does Ultrablend contain?

    Ultrablend contains detergents, stabilizers, dispersants, inhibitors and a microbiocide that is approved by the United States Environmental Protection Agency (EPA).

  • Why is it helpful to treat heating oil with these additives?

    Crude oil is refined by heating it to 700̊ F. At this temperature, the various products, including gasoline, kerosene/jet fuel and heating oil/diesel fuel, naturally separate from the crude oil. During the normal refining process, called “straight run,” a certain amount of each product naturally flows from the crude oil.

    Today, after the straight run process, virtually every refinery uses a secondary refining process known as “catalytic cracking.” This process applies additional heat and pressure in order to force a higher percentage of gasoline from the crude oil. Catalytic cracking is very effective in increasing the gasoline yield from every barrel, but the harshness of the process makes the gasoline and other petroleum products unstable.

    If you had two bottles containing samples of heating oil, one from a straight run process and the other from a catalytic cracking process, the samples would initially look the same. However, after a few weeks, some of the parafins in the catalytically cracked product would start to separate, causing the oil to begin to break down and change color, thus creating a visible difference.

    Because it contains stabilizers and dispersants, Ultrablend does not break down over time, thereby retaining the characteristics of heating oil produced in a straight run process. In addition, Ultrablend contains detergents to keep your fuel system clean and an inhibitor to prevent wear and tear on the metal components of your fuel system.

  • What is a microbiocide and how does it work?

    There is a type of algae that can grow in heating oil. This algae will cause sludge formation in the oil tank. In order for the algae to grow, there must be some water present in the bottom of the tank. As a result of condensation, and the fact that water is heavier than oil, virtually every oil tank contains some small amounts of water in the bottom. Ultrablend contains a microbiocide that inhibits the growth of algae and prevents sludge formation in the tank. This microbiocide is approved by the United States Environmental Protection Agency (Registration No. 1706-101).

  • Specifically, how does Ultrablend benefit me?

    Ultrablend doesn’t degrade over time, retaining its pristine straight run characteristics. It cleans and protects your fuel system, inhibits the growth of algae and prevents sludge formation. Cleaner oil means your system runs cleaner and more efficiently. Since the introduction of Ultrablend, our customers have experienced a 75% reduction in fuel-related service calls.

  • Up Front No-Risk Pricing System

  • What is Hart & Iliff's “Up Front No-Risk Pricing System”?

    Suppose you go to a restaurant and there are no prices printed on the menu. You ask for the price of a particular meal and are told that the price depends on how long it takes the chef to cook it. What would you do in this situation? Probably get up and walk out of the restaurant! Over the years, like most other contractors, we priced our heating and air conditioning work on a time and material basis, which is similar to the pricing in this hypothetical restaurant.

    With time and material pricing, the charge for a service call consists of a material charge and a labor charge. The labor charge is determined by multiplying the time spent on the job (including travel time) by an hourly rate. The price for the job depends on how long it takes the technician to do the work. With a very experienced technician, the repair could easily cost less (take less time) than with a less experienced technician.

    Every business must consider labor and material costs in setting their price. However, we believe that time and material pricing is unfair because the cost of the repair may vary depending on the technician and you, the homeowner, have no idea how much a repair will cost until after the repair is completed. Our new “Up Front No- Risk Pricing System” eliminates inequities and allows us to quote you a firm price before we do the work.

  • How does “Up Front No-Risk Pricing” work?

    There are two components to each job. The first component is a diagnostic or trip charge. This covers the cost of getting our technician to the job and analyzing the problem. The second component is the actual repair charge. This charge is based on all the costs we incur in having the technician perform that particular repair.

  • What makes the “Up Front No-Risk Pricing System” better for me?

    The advantages to you are as follows:

    You don’t have to concern yourself with the experience level of the technician. The charge will be the same whether you get our most experienced or least experienced technician.

    With “Up Front No-Risk Pricing” there are never any surprises. We can quote you a firm price before we do the work.

    You don’t have to concern yourself with how much time the technician spends on the job. Even if the technician encounters problems and the repair takes longer than expected, it won’t affect the price.

    Since the repair is not based on the actual time spent on the job, if the technician takes some extra time to explain the operation of your unit, it does not affect the price.

    I have a service contract. How does the “Up Front No-Risk Pricing System” affect my service contract?

    If the particular repair is covered by the service contract, the terms of the service contract prevail. If, on the other hand, the repair is not covered by the service contract, then the repair would be priced using our “Up Front No-Risk Pricing System.” There is no guess work and we can quote you a price before you approve the repair.

  • Freedom of Choice

  • What is Freedom of Choice?

    Freedom of Choice is a program from Hart & Iliff that offers two different price plans to purchase our exclusive Ultrablend Heating Oil. One plan is our Traditional Plan. The other is a new plan we call “The Easy Pay Program.”

  • Why two different price plans?

    Customers occasionally ask why full service oil companies like Hart & Iliff sometimes charge higher prices for heating oil than companies that do not offer full service. The reason is because of higher operating costs in two main areas:

    By offering credit terms we end up carrying large receivable balances and incur significant bad debt charge-offs each year. So-called cash companies receive payment at the time of delivery so they do not incur these costs.

    To maintain a high quality service department that is trained, staffed and equipped to provide you with the excellent service you expect and deserve, is very expensive. The prices we charge for service calls and service contracts are discounted and do not cover our costs. For example, we charge less for service than car dealers even though our traveling service shop makes our costs significantly higher. We make up for service losses by charging a little extra for oil and subsidizing our service department. Since cash oil companies generally do not have service departments and do not offer service contracts, they can charge less for oil.

    Our new Easy Pay Plan is designed to eliminate our credit and service losses so that we can charge you a lot less for heating oil. How much less? About 15¢ per gallon.

  • What are the differences between the two programs?

    With our Traditional Plan you get credit terms, a discounted rate for service and you are eligible for one of our outstanding service contracts.

    With the Easy Pay Plan we receive payment at time of delivery through one of several available payment methods, the most convenient of which is Electronic Funds Transfer. Easy Pay Plan customers are not eligible for a service contract and pay a higher rate for service, but in return they get a significantly lower price for heating oil.

    With either plan you get our exclusive Ultrablend Heating Oil, which burns cleaner than conventional heating oil. See the accompanying chart for a summary of the key provisions of the two programs.

  • I’m on the Even Payment Plan. Can I choose Easy Pay?

    Yes, provided that your monthly payments and all service invoices are paid via Electronic Funds Transfer.

  • Which program is right for me?

    The answer to this question depends, to a large extent, on your attitude about service repairs. Studies show that the average heating system starts and stops about 10,000 times each year. Particularly during the winter, they are called upon to work 24 hours a day, 7 days a week. You never know when your unit could break down, leading to an expensive repair. With the Traditional Plan you get a discounted rate for service work and are eligible for one of our service contracts. A service contract can eliminate unexpected repair bills and lets you rest easy knowing that things are taken care of. It also increases the likelihood that small problems will be taken care of before they become big problems.

    If, on the other hand, you are most interested in getting the best price for oil, then the Easy Pay Plan is for you.

  • Hot Water

  • How much hot water do I need for my family?

    Statistics show that the average family of four uses approximately 2,000 gallons of hot water per month, or 24,000 gallons per year. Of course, this number will vary if your family is larger or smaller.

  • What are my options when it comes to making hot water?

    Most homeowners make their hot water using electric, natural gas/propane or oil fired water heaters. As a variant of these options, many homeowners who have an oil fired boiler make their hot water with a coil inside their boiler or with an indirect water heater attached to their boiler.

  • Which fuel makes more hot water?

    The ability of various fuels to make hot water is rated based on recovery rate. Recovery rate tells us how much hot water can be made in one hour. For example, if a hot water heater can raise the temperature of 10 gallons of water from 50̊ F to 140̊ F in one hour, the recovery rate is 10 gallons per hour. Because of higher flame temperatures, oil fired hot water making systems have the highest recovery rate of any fuel. The average recovery rates of the various fuels are as follows:

    • Electric – 20 gallons per hour
    • Natural gas or propane – 40 gallons per hour
    • Oil – 120 gallons per hour

    Therefore, oil makes six times as much hot water as electric and three times as much hot water as natural gas or propane. The accompanying chart summarizes these recovery rate

  • How can I get more hot water?

    There are two things that control the available supply of hot water: the recovery rate and the size of the storage tank. For example, a 30gallon tank with a 120-gallon recovery rate provides 150 gallons of available hot water per hour. An 80-gallon tank with a 20-gallon recovery rate provides 100 gallons of available hot water per hour To increase the available supply of hot water you must either increase the recovery rate or the size of the storage tank. If you are making your hot water with a coil inside your boiler, you can dramatically increase the amount of available hot water by adding a storage tank.

  • Which hot water making system is better for the environment?

    According to studies conducted by Pace University, the Massachusetts Department of Public Utilities, Brookhaven National Laboratory, Greenpeace and the United States Environmental Protection Agency, the environmental cost of various heating sources is as follows:

    • Oil heat and oil fired hot water – $2.01 per million BTUs (including transportion cost)
    • Natural gas/propane heat and hot water – $2.04 per million BTUs
    • Electric resistance heat and electric hot water heaters – $12.40 per million BTU

    The reason why electric resistance heat and hot water heaters are so costly to the environment is because of the pollution created at the electric generating plant.

  • Carbon Monoxide

  • What is carbon monoxide?

    Carbon monoxide (CO) is an odorless, colorless and tasteless gas that can be released into a home by any equipment that burns solid, liquid or gaseous fuels.

  • How does it affect the body?

    How does it affect the body?

  • What effect does exposure to carbon monoxide have on your health?

    The health effects can vary from a mild headache to death, depending upon the exposure levels and time, as set forth in the table. As you can see, carbon monoxide is a very dangerous gas. A concentration of only 1% of the air, or 10,000 parts per million (PPM), will cause death in one to three minutes. The USEPA has set 35 PPM as the maximum allowable concentration for an 8-hour exposure.

  • What are the main sources of carbon monoxide in the home?

    Carbon monoxide is produced as a by-product of the combustion process when any gaseous, liquid or solid fuel is burned. Some primary sources of CO in the home include automobile exhaust, wood stoves and fireplaces, barbecues, home heating equipment and gas stoves and ovens.

  • How much carbon monoxide is produced by home heating equipment?

    In tests conducted at Brookhaven National Laboratory, it was determined that, on average, properly adjusted flame retention oil burners produce about 32 PPM of carbon monoxide. Research conducted by the American Gas Association and the Gas Research Institute indicate that average CO emissions for properly adjusted gas heating equipment is about 47 PPM. Both of these CO levels are very safe, especially since the CO being produced is carried up the chimney with the flue gases.

    Wood stoves and fireplaces produce CO levels hundreds of times higher than oil or gas burners. USEPA data indicate that wood stoves and fireplaces can generate CO levels of more than 20,000 PPM, or 2% by volume. Therefore, wood stoves and fireplaces represent a very serious health risk if the combustion exhaust gases are not fully and completely vented from the house.

  • What happens to CO levels when heating equipment is not properly adjusted?

    Oxygen is necessary for complete combustion. When the available oxygen is decreased, it adversely effects combustion. Both oil and gas heating equipment can produce elevated levels of CO when combustion air is decreased. However, they operate somewhat differently. Oil-fired equipment will smoke first and generate elevated levels of CO second. Gas equipment, on the other hand, will generate elevated levels of CO first and smoke second. Therefore, oil equipment has an important safety advantage. According to the U.S. Consumer Product Safety Commission, from 1981 to 1991, 3,036 people died in the United States from CO poisoning. Of that total, 78% of the deaths were caused by gas equipment and only 3% by oil equipment.

  • Should I have a CO detector and, if so, where should I locate it?

    CO detectors are an important safety device that should be present in every home. Both plug in and battery operated types are available. CO detectors do not have to be located on the ceiling. Therefore, plug in detectors are recommended since they are easier to install and more reliable. They cost about $30 and can be installed in any electrical outlet.

    CO detectors should be installed in the living space on each floor of your home. Do not locate them in the garage, over your boiler, or directly over a gas stove or oven. Experts also recommend that CO detectors that are more than three years old should be replaced, since the new generation of detectors are more accurate and less likely to generate false alarms.

    Health Affects of Carbon Monoxide(CO)

    ConcentrationExposure Time & Symptoms

    PPM %

    9 0.0009 Maximum Allowed Ambient by EPA

    35 0.0035 Maximum for 8-hour exposure

    200 0.02 Headache in 2 to 3 hours

    400 0.04 Life Threatening After 3 hours

    800 0.08 Headache, Dizziness, nausea in 45 minutes, death in 2 to 3 hours

    1600 0.16 Headache, Dizziness, nausea in 20 minutes, death in 1 hour

    3200 0.32 Headache, Dizziness, nausea in 10 minutes, death in 30 minutes

    6400 0.64 Headache, Dizziness, nausea in 2 minutes, death in 10 to 15 minutes

    12800 1.28 Death in 1 to 3 minutes

  • Oil Prices

  • Why are crude oil prices near $100 per barrel?

    Every day we receive an energy market analysis from one of our suppliers. This quote from their market commentary on March 24, 2011, sums up the situation: “It is getting monotonous but the same essentials apply—current pricing owes more to geopolitical rather than fundamental issues, and from that perspective a correction is overdue.” Specifically, the issues that our supplier was speaking of are the political unrest in the Mideast, combined with fallout from the Japanese earthquake and tsunami. From a purely supply and demand perspective, there is no reason for crude oil prices to be near $100 per barrel.

  • Why aren’t prices being determined by supply and demand?

    As we have written about many times, before 1982, prices were determined solely by the laws of supply and demand. In 1982, crude oil and other energy products began to be traded on futures exchanges such as the New York Mercantile Exchange. These exchanges trade petroleum products in 42,000 gallon (1,000 barrel) increments. These contracts represent hypothetical delivery of the physical commodity at a future date.

    The problem with trading futures is that 99% of the contracts are cancelled without ever taking delivery. A segment that ran on the CBS show “60 Minutes” indicated that the number of gallons traded on the futures exchanges is 17 times the number of gallons actually used.

    Even though futures contracts represent the price at some future date, as time has gone by these contracts have become the sole method of determining the current price you pay at the pump or when you receive a delivery. A high percentage of the futures contracts that are bought and sold are traded by speculators. These speculators are only interested in making a profit, and it is indeed unfortunate that they single-handedly impact the prices all of us pay for petroleum products on a daily basis. In today’s market, it is often the case that supply and demand has little to do with the price of energy products at any point in time.

  • Has crude oil ever traded at over $100 per barrel before?

    In July 2008, crude oil briefly traded at a high of $145 per barrel and then dropped all the way down to $40 per barrel in December 2008.

    Is anything being done to limit the impact of speculators and cause energy prices to be determined by the actual levels of supply and demand once again?

    Congress recently passed legislation authorizing the Commodities Futures Trading Commission (CFTC) to write regulations preventing excessive speculation. While draft regulations are written, the CFTC is wavering in implementing these regulations. The commissioners who vote on the proposed rules are under tremendous pressure from the financial services industry to adopt weak, ineffective regulations. Please visit stopoilspeculationnow.com to get the latest information and see how you can help lower energy prices.

  • Parts Most Asked About

  • Low Water Cut-Off

    Shuts boiler off if water level is too low.

  • Aquastat

    Water temperature monitoring control.

  • Reset Button

    Safety which is part of the primary control.

  • Fuel Pump

    Draws oil to your burner.

  • Zone Valve

    Electronic valve that opens when thermostat calls for heat.

  • Blower

    Circulates air through forced air furnace.

  • Combustion Chamber (firebox)

    Burner fires into it.

  • Circulator

    Pumps water through system.

  • Even Payment Plan

  • What is the Even Payment Plan?

    It is a plan, also known as a Budget Plan, that allows you to pay your annual fuel bill in 10 equal monthly payments.

  • How is the monthly payment determined?

    We take your estimated annual fuel usage and multiply it by an estimated oil price to come up with a total for the year. We then divide the total by 10 to come up with the equal monthly payment.

  • When can I begin an Even Payment Plan?

    While most of our Even Payment Plans begin during the summer months, they are now eligible to start at any time during the year. However, to qualify for the Plan you must begin with a full, tank of fuel of fuel and no balance owed.

  • Can I include my service contract in the Even Payment Plan?

    Yes, the cost of the service contract can be added to the Even Payment Plan and be paid for over the 10 month period.

  • What are the advantages of being on the Even Payment Plan?

    The advantages are as follows:

    1. It smooths out the peaks and valleys of your fuel bill and allows you to budget your household expenses.

    2. There is no fee to participate.

    3. You receive interest at 1.5% per month on all credit balances.

    4. You receive a 5¢ per gallon discount at the end of the plan.

    5. Any overage gets credited to next years plan. If there is a balance owed, you have two months to pay it.

  • I am on your Capped Price Program. Can that program be combined with the Even Payment Plan?

    The Capped Price Program, which provides a ceiling on the price you pay, can be combined with our Even Payment Plan.