Posts Tagged ‘Chula Vista’

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Troubleshooting Your Problematic Heat Pump in Carlsbad

Friday, February 10th, 2012

If your heat pump isn’t working properly in Carlsbad, there are a number of things that might be wrong. But, where do you start and how do you solve these problems quickly and inexpensively? Here are some tips for common heat pump problems.

Low Air Flow

Your heat pump is designed to provide steady air flow to the entire house. When it was originally installed, the technician sized it to do so. If it suddenly stops providing enough air flow to your entire house or if the air flow it provides isn’t as comfortable as you’re used to, something is probably wrong.

More specifically, there is likely an issue with the heat pump itself since the device will compensate for most external problems by running longer and harder. Some quick heating maintenance will often rule out serious problems, so you should have someone inspect your device as soon as you notice a problem.

Leaky Duct

If there is an external problem, such as leaky ductwork, it tends not to be as noticeable right away. Often, when ducts are leaking, air flow problems will occur only in certain rooms of your home. Even then, the heat pump might be able to maintain the right temperature in those rooms – you’ll just have a higher energy bill because of the energy loss in the ductwork.

The best way to determine what is happening and how best to tackle the problem is to have someone test your ductwork for leaks, a relatively quick process.

High Energy Bill

If your energy bill suddenly increases dramatically, it is usually due to energy loss somewhere in the transfer between the heat pump and the rooms of your home. Leaky ducts can be the culprit, but so too can the air handler or the heat pump itself. If you notice a sudden increase in your energy bill, look for other symptoms like uneven heating or cooling in certain parts of your home or noises coming from the ductwork or your air handler.

No matter what other symptoms accompany the increase, you probably need repairs. Your home may still be comfortable now, but the heat pump can only make up for the problem for so long and in the interim, it is being put under excessive stress that reduces its lifespan.  If you have any questions about heat pumps please call Cal West Air.

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Basic HVAC Terminology for San Diego Homes

Wednesday, February 1st, 2012

Every home owner in San Diego should know this basic information about their heating and air conditioning systems. There are dozens of terms that might as well be Greek for many people – and they are a mishmash of words and phrases talking about energy efficiency and air flow ratios. To make your next upgrade a little easier and give you a baseline with which to work, here are a few of the most common HVAC terms you’ll hear in the industry:

  • AFUE – Annual Fuel Utilization Efficiency – This is a simple measurement of how much fuel a furnace converts into actual heat in your home. So, if a furnace converts 92% of the fuel it consumes into heat, it has an AFUE rating of 92.
  • Watts – A single watt is a measurement of electricity. Commonly, your electricity use is assured in kilowatts or kilowatt hours (kWh).
  • BTU – British Thermal Unit – A BTU is a common measurement of how much energy is produced or consumed by an appliance. When referring to an air conditioner, one “ton” refers to 12,000 BTUs.
  • SEER/EER – Seasonal Energy Efficiency Ratio refers to how many BTUs can be produced with a single Watt of electricity per hour. So, an air conditioner with an SEER of 14 can produce 14 BTUs of cooling per watt consumed each hour.
  • HSPF – Heating Seasonal Performance Factor – Refers to the efficiency of the heating elements in your heat pump.
  • COP – Coefficient of Performance – A measurement of how effective your heat pump is at heating a space compared to standard electrical resistance heat. The lower the temperature gets outside, the lower the COP will be. Equipment is usually measured for COP at 47 and 17 degrees to give an idea of seasonal performance of a new heat pump.
  • Refrigerant – Refrigerant is any gas that is used to draw heat from the air in a particular environment through an air conditioner or heat pump. It has a much lower boiling point than water, allowing it to cool despite the temperature outside. Currently, most equipment uses R-22 refrigerant while the new standard will be R-410A (Puron), legally required in all cooling units by 2020.
  • CFM – Cubic Feet per Minute – Used to measure the volume of air passed through an air handler by an air conditioner or furnace.

There are a number of complicated details to keep track of when choosing a new air conditioner or furnace. To ensure you get the very best out of your system, read up on these details in advance – you’ll feel a heck of a lot smarter when you call.

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How to Make Your Lakeside Heating System More Effective

Friday, January 13th, 2012

Everyone wants an effective heating system in Lakeside – one that will provide steady, reliable heat without you having to spend hundreds of dollars each month on gas, oil or electricity. And while the best way to improve the efficiency of your heating system in most cases is to upgrade it, there are some simple things you can do around the house to boost its effectiveness. Here are some of the best:

  • Rearrange Furniture – Just having the heat on doesn’t necessarily ensure the heat entering your room is being distributed evenly. Move your furniture in such a way that there is a clear, unimpeded path from the registers and radiators to the rest of the room. Done properly, this will make it much easier to and faster to heat every room of your house.
  • Maximize Air Flow – Air flow can be maximized in a number of ways. Make sure you close any windows near a register or radiator and that you remove any large objects that might block air flow. You should also install things that can help move air like fans and always call someone in for changes to the arrangement of your vents or radiators.
  • Clean Registers or Radiators – The cleaner your radiators or dust registers are, the more efficiently they release their heat. Not only have that, but clean radiators and registers resulted in better indoor air quality. Weekly cleaning of each room’s heating source is highly recommended.
  • Install Ceiling Fans – Ceiling fans switched to blow down are incredibly effective for distributing air throughout the room. This will keep push warm air down and keeps cold air up – in effect, reducing the need for constant running of your furnace.

Effective heating is important to keep your home comfortable, reduce the cost of heating and prolong the lifespan of your furnace. You should also make sure your heating system is properly maintained throughout the year. Skipping maintenance visits (which are highly recommended annually) will put unnecessary stress on your system and shorten its lifespan substantially, not to mention the decrease in efficiency when heating your Lakeside home.

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Why Should I Clean My Air Ducts? A Guide from Rancho Penasquitos

Friday, December 2nd, 2011

You know it’s important to keep your Rancho Penasquitos home’s air ducts clean, but why?

Actually, there is no one reason why your air ducts need to be kept clean—there are several, all of which are connected to one another. Here are five of them for you to consider:

  • Efficiency – Clean air ducts allow the air to flow through much easier and more readily, so your furnace, air conditioner or heat pump won’t have to work as hard to ventilate the house. This makes for more efficient operation and lower energy consumption.
  • Performance – When your HVAC system does not have to work as hard to push air through the ductwork, it will perform better. Your home will be more comfortable and better ventilated.
  • Longevity – Because your HVAC system is operating more efficiently, it will be able to perform at a high level for a longer period of time. Well-maintained systems last longer than those that are not taken care of, and cleaning the ducts is part of good HVAC maintenance.
  • Savings – Clean ducts can save you a lot of money over time. Your energy bills will be lower because of how efficiently the whole system is running. And, as an added bonus, your ducts will last longer because of the decreased risk of corrosion and damage from being dirty.
  • Health – Last, but certainly not least, clean air ducts mean clean air, which is important for your health and your family’s health. Especially if you have pets, if you smoke or live with a smoker, or if anyone in the house has allergies or asthma, cleaning your air ducts is a must.

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How Often Should I Replace My AC Filter? A Question From Chula Vista

Wednesday, September 14th, 2011

Replacing the filters in your ventilation system regularly is an essential part of Chula Vista home maintenance. It keeps the expensive HVAC machinery running smoothly, saves you money and helps safeguard the health of your loved ones.

How often is often enough to replace your air conditioner filter, though? The short answer is that it depends on your air conditioner, the type of filter and your family’s needs. Below are some guidelines to help you keep it all straight and stay on top of a filter changing schedule.

Rule of Thumb

As a general rule, you should be prepared to change your AC filter every three months when it’s in use. Your filter may require more frequent replacement, which will be discussed in a little more detail below. Although three months is the general rule, you should still inspect your AC filter every month and replace it whenever it’s visibly dirty. That dirt you see not only bogs down the air conditioner, but you may also wind up breathing it in.

More Specifically

There are different kinds of air conditioner filters. Where they vary is in efficiency, which is indicated on a scale called the Minimum Efficiency Reporting Value, or MERV rating. MERV ratings range from 1 to 16, with higher numbers being more efficient at filtering small particles from the air. The standard for homes has been MERV 10 for a while, but that will soon be changing to a more efficient standard.

Essentially, the higher quality air you want in your home, the higher MERV rating you want on your filter. However, a higher MERV rating also means more frequent replacement and higher cost, so choose a rating that is appropriate for your family’s needs. If there is a history of allergies, or you live in an area with poor air quality, you may want a MERV 14 filter. If not, you may be fine with a MERV 11 or 12.

High efficiency filters may need to be changed as often as every month, whereas less efficient ones will be closer to that three month range. No matter what kind of filter you are using, you will have to change it more often if you live in a particularly dusty area, as well as in the summer months when the AC unit is being used more.

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Why Is The Energy Efficiency Rating of Central Air Conditioners Important? A Question From Mira Mesa

Monday, August 15th, 2011

When you are shopping for a central air conditioning system in Mira Mesa, you will have to evaluate your options based on a number of different factors. For instance, you will need to decide which type of system is the best match for your home and for your particular cooling needs. It is also important to make sure that the central air conditioner you choose is the right size for the cooling load it will have to take on.

However, it is also very important to evaluate your central air conditioning options based on how energy efficient they are. This will have a great deal to do with how much you pay in terms of cooling costs each month, which makes it easy to see why you should take it into account before you make a purchase.

The energy efficiency of a central air conditioner is generally expressed as a seasonal energy efficiency rating, or SEER. The SEER numbers you will typically find on the latest air conditioning systems range from eight to 19.5 with the higher numbers signifying a more energy efficient model.

So it is pretty easy to figure out that a central air conditioner with a higher SEER will save you some money monthly because it will use less energy to get the same job done. But central air conditioners with high SEERs also typically have high price tags. So to determine how high of a SEER you need, you will need to know more exactly how much more money you will save as you move up in the rankings.

You can do this by comparing the SEER of the system you currently use with the new system you are considering and compare how much your current energy usage would cost you with each model. Basically, you want to pick a central air conditioner that will save you enough to offset the purchase price of the unit.

Often, this means that you will be best off with a SEER 14 or SEER 16 because these units save you a considerable amount over older models without carrying too high a purchase price. However, the amount you save will be directly related to how much you use your central air conditioning system, so if you live someplace that is extremely hot for a large chunk of the year, it may be worth it for you to buy a very high efficiency air conditioning system.

If you need more information about which air conditioner would be right for your home, contact your local air conditioning professional.

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Ice in Central Air Conditioning: Why Is This a Problem?

Friday, July 29th, 2011

If your air conditioner does not seem to be working as well as it should, your natural first reaction is to go out and take a look at the compressor to see if there is anything you can do quickly to correct the problem. Of course, you cannot assess the situation unless you know what you are looking for. For instance, if you see ice forming on the condenser coil or anywhere else on the air conditioning system, you will know you found the likely source of the problem.

Ice can form in your air conditioner for a number of reasons. The most common one is that your refrigerant levels are low. Since this refrigerant is contained in a closed system, a deficiency in refrigerant means that there must be a leak somewhere in that system. Only a certified professional can refill your refrigerant and determine where the leaks are in the system to make the necessary repairs.

Another reason that ice can develop in your air conditioner is because the air is not flowing fast enough through the system and across the coils. This can happen because of a problem with the fan or because there is an actual physical impediment to the air flow. Regardless of the reason, the ice will form because without adequate air flow the condenser coils will get too cold.

These coils are typically kept just above freezing by the constant flow of air across them. When the air passes by them at this temperature, the moisture from the air condenses on the surface of the coil. But because the coil is not quite freezing, the water then runs down into a collection pan. When the coil is too cold, however, the moisture from the air will freeze on the coil before it can run off.

This ice actually manages to insulate the coil and keeps it from properly cooling the air or removing any additional moisture. If left unattended, the ice in your central air conditioning system can cause real damage to the unit. Plus, it is not allowing the air conditioner to do its job and cool your house down. So if you notice any amount of ice at all beginning to form on any part of your air conditioner, be sure to call for professional service right away.

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What is a Whole House Fan?

Wednesday, July 13th, 2011

Cooling your home is a big deal. Especially if the temperature in your home is generally very high in the summer, the cost of air conditioning is tremendous. A central air conditioner can cost between $2,000 and $4,000 to run for an average 2,800 square foot home over the course of six months. That’s a lot of electricity just to stay cool.

That’s why a whole house fan is a great option for those that want to forego the use of direct air conditioning for at least part of the year.

What It Does

A whole house fan is different from a standard air conditioner because it doesn’t use a heat exchanger to remove heat from air before it enters your home. That heat exchanger is the culprit for a large percentage of an air conditioner’s energy consumption. A whole house fan can be used when the temperature outside is lower than inside, a common occurrence on moderate days in the summer.

The whole house fan draws air and then cycles it through your air vents without cooling it. The act of moving air through your home, however, is often enough to cool the space to a comfortable level. The size of your whole house fan depends on quite a few things. First, how big is your home? Large homes that require even cooling need a larger fan to draw in air. However, small homes can often get away with models that use as little as 120 Watts of electricity. That’s less than your computer uses.

Choosing a Fan for Your Home

Keep in mind that a whole house fan only works when the temperature outside is lower than inside. If the air outside is excessively humid or if it is very warm in the hottest months of summer, you will still need an air conditioning unit. But, even if you run your air conditioner for two months out of the year, you’ll save a tremendous amount of money in the other four months by operating a whole house fan.

Whole house fans should be used in conjunction with an effective air purification system to ensure all outdoor contaminants are effectively removed before they are cycled through your house. They also require the same level of maintenance and cleaning as a normal AC system. However, with the right care, they work wonders to cut down on your energy bill.

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Whole House Fans vs. Attic Fans

Friday, July 8th, 2011

Air temperature in your home is a big issue in the summer. The cost of maintaining your air conditioner as it runs nonstop for hours at a time can be very high – as much as $4,000 for a single year of cooling. That’s why a lot of families turn to fan solutions to reduce how much they spend on their AC units each year.

How Fans Work

A fan draws in outdoor air to your home. That outdoor air will cool your home when the outside temperature is cooler than the indoor temperature. If the weather outside gets much warmer than 80°F, you will probably still need to use your air conditioner at least a little, but if it’s in the 70°F-80°F range, the temperature inside can be maintained simply by blowing cooler outdoor air into your home.

A whole house fan solves this problem by pumping fresh air into your home through the ductwork you already have in place. When the temperature outside is low enough, you’ll enjoy a much steadier, more comfortable level of cooling and save a lot of money.

However, for those that don’t want to install a completely new system for their entire house, attic fans offer a good chunk of savings as well.

Why Attic Fans Work

The idea behind an attic fan is simple. During the summer, all the heat in your home rises. Even with your air conditioning working at full capacity, heat will build up in the attic, especially if you don’t use that space and therefore don’t have any cooling ducts up there.

In some cases, attic temperatures can rise to 140°F or higher, which then raises the temperature of the rest of your home and forces your AC unit to work that much harder.

An attic fan is good because it takes the air from outside, almost assuredly cooler than 120°F and cycles it into your attic to keep the temperature lower. That simple fan can reduce indoor air temperature by as much as 40°F or 50°F and significantly reduce your air conditioner’s work load.

Which is Better?

Neither of these is better than the other. If you have low cooling costs and want to keep your attic from adding to them, an attic fan is perfect. However, if you want to cut into your cooling costs for all but the warmest months of the summer, a whole house fan may be the right option.

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What Types of Air Conditioning Systems Are There?

Monday, June 13th, 2011

Picking out the right air conditioning system for you can actually involve a lot of steps. There are many factors to consider and you will need to understand how each type of air conditioning system functions to know what will be best in your house. Of course, before you can compare them, you need to know what the different types of air conditioning systems actually are.

Packaged air conditioning systems are probably the type that the majority of people are most familiar with. They consist of an outdoor compressor unit that is connected to an indoor air handler or furnace through ductwork within the house. The air is cooled by the compressor and then blown into the house where it is circulated through the ductwork by the air handler.

Packaged air conditioning systems are appropriate for most residential buildings and they come in a variety of sizes so that it is easy to match one to the size and dimensions of your home. However, these types of air conditioning systems do require ductwork, so if you do not already have it installed in your house, putting it in can add considerably to the overall installation costs.

If you do not want to have ducts put in or if you are only trying to cool a small space within your home, you may want to opt for a ductless mini-split system. These types of air conditioning systems are becoming more and more popular because of their excellent energy efficiency and flexibility when it comes to installation options.

Ductless mini-splits also require an outdoor compressor unit, but this is connected to one or more indoor units through refrigerant lines rather than actual air ducts. These refrigerant lines are much easier and less costly to put in place than ducts are, so mini-split systems can be installed for much less than a packaged air conditioning system in a home that does not already have ducts.

These ductless mini-split systems can include only one or many indoor units. Each of these units is controlled independently of the others, making it possible to maintain different temperatures in different parts of your home.

For larger buildings and commercial spaces, central air conditioning systems are generally the preferred option. They are set up essentially the same way as packaged air conditioning systems but on a much larger scale. However, just like packaged air conditioning systems, central air conditioners rely on ducts to get the cooled air to the various areas of the building.

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