Do you have an old HVAC unit that is not running as efficiently as you'd like? Perhaps your current HVAC unit is broken and you are unsure if it could be repaired, or if the costs of repairing or replacing the unit would be covered by a typical homeowners insurance policy? Well, it all depends on the source of the damage to your HVAC unit. There are times when having a typical homeowner’s insurance policy can help to cover the cost to repair an HVAC unit, particularly when Mother Nature is to blame. If the unit in question was destroyed by one of the named perils in your policy, it will likely be covered. However, if the problem stems from normal wear-and-tear, your policy probably will not cover repair or replacement costs. Cases when your broken HVAC unit will be covered Living in Northeast Florida, it can be difficult to live without heat in the winter or, worse, without A/C in the summer. It’s a good thing, then, that if the damage to your HVAC unit was caused by a natural disaster, fire, or some other catastrophe, repairing or replacing your HVAC unit is usually covered by your typical homeowners insurance policy, which hopefully you have.

Other unforeseen circumstances are also likely to be covered—like frozen or burst pipes and falling objects. Cases when your broken HVAC unit will not be covered However, there are many cases when your policy simply does not cover repair costs. For example, basic homeowner’s insurance will not cover damage due to an earthquake. Furthermore, basic maintenance will not be covered. If your HVAC unit simply stopped working for a known reason, then you are most likely going to have to pay for repairs out of pocket—although, depending on the damages, it may be more cost-effective to buy a whole new HVAC unit. You can still try to submit a claim, but it is more than likely that you will get denied. There are other ways to cover the cost of repairing a broken HVAC unit. When it comes to air conditioning repair, you can purchase additional major appliance insurance. This is a special kind of insurance that will cover your major appliances, including your HVAC unit, when they break down and need to be repaired.

Contact your insurance company about purchasing this additional coverage. Snyder Heating and Air Conditioning can help with your busted HVAC unit! Keep in mind that, typically, the newer and more efficient your HVAC unit is, the cheaper your coverage will likely be, plus the length of your warranty should be longer. how to install ac unit outsideThe older and less efficient the unit, the harder and more costly it is to repair, plus it may take longer for a professional to find and fix your problem. air conditioner for inside roomA modern HVAC unit will not only cut down on your repair costs, but will also save you money due to it’s performance, and the fact that it will use less energy that an older unit.window ac unit not cold enough

If you are having issues with your HVAC unit, the team of professionals at in Jacksonville, Florida have the knowledge and professional experience, as well as dedication to excellent customer service, to ensure that your HVAC unit repair job is done to your complete satisfaction. Let Snyder help you get your HVAC unit up & running before it really starts to get hot here on the First Coast!Buying an air conditioner once considered a sign of luxury, is now becoming quite common in India. Many urban homes are equipped with air conditioners in one or more rooms. But everyone who owns an air conditioner knows that it comes at the cost of increasing electricity bills. Although cooling does take a lot of electricity but taking effective steps can surely get it down. One of the main things that can help is maintaining the right temperature for the air conditioners. For most people, air conditioner just throws cool air at the temperature one sets it at. But does it really work that way?

In fact air conditioner during cooling process, takes the indoor air, cools it  by passing it through evaporator coil and throws it back in the room. It is quite opposite to how our good old air coolers used to work. Air coolers used to take outside air, cool it with water and throw it in. But air conditioners just work on internal air. If you set the thermostat at 18oC (64.5oF), does it mean that the air conditioner will cool the room faster than if set at 25oC (77oF)? The thermostat just checks the temperature of the air inside the room and stops the compressor when the temperature reaches the desired level. This means that the compressor will work longer if the temperature is set to a lower level, i.e it will work more and use more electricity if temperature is set to 18oC (64.5oF) than if it is set to 25oC (77oF). This is because it will take less time for air to reach to 25oC (77oF) than 18oC (64.5oF) as the compressor is working with the same power or wattage. The air conditioner just blows the fan when the compressor stops and thermostat reaches the desired temperature level.

At this stage the electricity consumption is only for the fan which is running and not for the compressor. The compressor will start again when the thermostat detects that the temperature has increased again from the levels that are set. Compressor is the most electricity consuming component of an air conditioner. There are 4 factors that influence the electricity load: 3) Thermal insulation of the room 4) Temperature setting of the air conditioner. If the difference between temperature desired and indoor/outdoor temperature is huge, then the air conditioner will need lot more electricity to cool the indoor air to desired temperature as the compressor will run for longer duration. If the temperature is set at 18oC (64.5oF) and the outdoor temperature is 38oC (100oF) then the electricity required will be lot more than when thermostat temperature is 24oC (75oF) and outdoor temperature is 38oC (100oF). As per study by ACEEE (American Council of Energy Efficiency Economy), increase of each oC can save 3-5% of units consumed.

This can considerably bring down the units consumed per month in the electricity bill. Having said that, increase in temperature does not reduce the comfort level. In fact as per ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers), the ideal temperature for thermal comfort is between 23.5oC (74.3oF) and 25.5oC (78oF) in summers (depends on several factors as listed on wikipedia). Thus setting the temperature to 24oC (75.2oF) saves on electricity bill and provides good comfort. Using ceiling fans along with air conditioners can additionally help in increasing the thermostat temperature. Setting an air conditioner to quick cool sets it’s temperature to 18 or 16 oC (64.4oF or 60.8oF) . This means that the compressor stops only when indoor temperature reaches this level. But while coming down from 35 or 40 oC (95oF or 104oF) it would have surely crossed 24oC (75.2oF) which is a comfortable temperature. So using “Quick Cool” option does not help because more electricity is used to get the temperature down to 18oC (64.5oF) whereas compressor would have stopped in between if the temperature was set to 24oC (75.2oF) thereby consuming less electricity.