Research has not provided any conclusive evidence as to why an electric heating system would be more reliable than a gas heating system. It is believed that both are equally reliable, and for cost efficiency it is quite a bit cheaper to heat with gas than it is with electric heat.
There is a wide variety of electric boiler ratings. This is because an electric boiler rating is based on the square foot area of the heating coils. The larger the system the more heating power will be needed.
Contactors are typically not used in residential and small commercial electric heating units due to their design and operational requirements. These units often operate at lower power levels where simpler, more cost-effective relays or thermostatic controls can efficiently handle the load. Additionally, the size and complexity of contactors may not be necessary for smaller systems, which prioritize ease of installation and maintenance. Lastly, the use of more straightforward controls enhances reliability and reduces manufacturing costs.
"Converting" an oil furnace to electric will not be economically practical. You'd be far better off getting a "ground source heat pump" and having someone install it for you. They're much more efficient than the older style electric heat that uses resistor heating elements.
It seems your question about "the electric" is incomplete. If you're referring to the electric car, the first practical electric vehicle was developed in the late 19th century, around the 1830s to 1890s. If you meant a different topic related to "electric," please clarify for a more accurate response!
To figure service sizing requirements you must follow the directions below. If you do not know how to size a dwelling then you should probably be getting in touch with a licensed master electrician. Electricity is dangerous if you do not know what you are doing. Some locations however do allow you to do your own. This work requires a permit in most cases and you should be getting in touch with your local building department before you begin any work! To get started on calculating a service size for a single family dwelling you must add the following: Add 3 volt-amperes per square foot of floor area for general lighting and general use receptacle outlets. Plus You must add 1,500 volt-amperes per 20-ampere-rated small appliance and laundry circuit. Plus You must add the nameplate volt-ampere rating of all fastened-in-place, permanently connected or dedicated circuit supplied appliances such as ranges, ovens, cooking units, clothes dryers and water heaters. There are default numbers here if you have not installed your appliances or you do not have an exact model number and ratting yet. The default numbers would be applicable if you are wiring in an outlet for these. This will give you a subtotal. Apply the following demand factors to the subtotal. The minimum subtotal for the loads above shall be: 100 percent of the first 10,000 volt-amperes Plus 40 percent of any portion of the sum that is in excess of 10,000 volt-amperes Plus the largest of the following: 1 - Nameplate rating(s) of the air-conditioning and cooling equipment. 2 - Nameplate rating(s) of the heating where a heat pump is used without any supplemental electric heating. 3 - Nameplate rating of the electric thermal storage and other heating systems where the usual load is expected to be continuous at the full nameplate value. Systems qualifying under this selection shall not be figured under any other category in this table. 4 - One-hundred percent of nameplate rating of the heat pump compressor and sixty-five percent of the supplemental electric heating load for central electric space-heating systems. If the heat pump compressor is prevented from operating at the same time as the supplementary heat, the compressor load does not need to be added to the supplementary heat load for the total central electric space-heating load. 5 - Sixty-five percent of nameplate rating of electric space-heating units if less than four separately controlled units. Forty percent of nameplate rating of electric space-heating units of four or more separately controlled units. This gives you a total volt amperage required. The minimum total load or amps will be the volt-ampere sum calculated above divided by service entrance volts (usually 240V). If you get a number that falls between an available service equipment size then you must go up to the next available size. These instructions will get you through the calculations needed for the International Residential Code. Your code may vary and it is best to consult you local building official for verification of this information. Good luck and MOST important… BE SAFE! Terry
The cost comparison between gas and electric heating systems depends on factors like energy prices, efficiency of the systems, and the size of the space being heated. Generally, gas heating tends to be cheaper than electric heating in terms of operating costs, but electric heating systems are often more efficient and have lower installation costs. It's important to consider these factors when deciding which type of heating system to use.
The cost comparison between gas heating and electric heating depends on factors such as energy prices, efficiency of the heating system, and insulation of the home. Generally, gas heating is often cheaper than electric heating in terms of energy costs. Gas heating systems tend to be more efficient and cost-effective in the long run compared to electric heating systems. However, the initial installation cost of a gas heating system may be higher than that of an electric heating system. It is important to consider these factors when deciding between gas and electric heating options.
The most efficient electric heating system available on the market today is the heat pump. Heat pumps can provide both heating and cooling, and they are more energy-efficient than traditional electric resistance heating systems.
A hot water heater gas system is often more cost-effective and energy-efficient compared to other types of water heating systems. Gas systems can heat water quickly and consistently, providing a reliable source of hot water. Additionally, gas systems have lower operating costs and can be more environmentally friendly than electric or oil-based systems.
A forced hot water heating system is more energy efficient, provides consistent warmth, and is quieter compared to other heating systems like forced air or electric baseboard heaters.
Gas hot water systems offer several benefits compared to other types of water heating systems. They are typically more energy efficient, cost-effective, and have faster heating times. Gas hot water systems also tend to have a longer lifespan and are more environmentally friendly compared to electric or oil-based systems.
I would use an electric boiler and use hot water to heat your floor. It is much more economical. Check with your local plumber and he will give you a quote.
Electric home heating offers several benefits compared to other heating options. It is generally more energy-efficient, easier to install, and requires less maintenance. Electric heating systems also provide precise temperature control and can be used in specific areas of the home, leading to potential cost savings. Additionally, electric heating is considered safer and cleaner than some other heating methods, as it does not produce emissions or require fuel storage.
Floor hot water heating systems are generally more efficient than traditional heating systems because they distribute heat more evenly and can operate at lower temperatures, reducing energy consumption.
Hot water floor heating systems offer more even heat distribution, increased energy efficiency, and can reduce allergens and dust compared to traditional heating systems.
Oil heaters are generally less efficient than other types of heating systems, such as natural gas or electric heaters. This is because oil heaters have lower energy efficiency ratings and can be more expensive to operate.
Hot water radiant floor heating systems offer more even heat distribution, increased energy efficiency, and reduced allergens compared to traditional heating systems.