How Much Do High-Efficiency Gas Furnaces Cost

Are you in the market for a more energy-efficient heater this winter? If so, high-efficiency gas furnaces are an attractive option to consider. Not only do they help reduce your monthly utility bills, but they also provide greater accuracy and comfort in controlling temperatures throughout your home. But with all these benefits, what should you expect when it comes to cost?

In this blog post, we'll discuss why high-efficiency furnaces can be worth the additional upfront fees and how much one can realistically expect to pay to install a home furnace.

Cost Factors

Regarding the cost of a high-efficiency gas furnace, several factors will determine the price. The size of your home and the furnace needed to heat it, installation costs, efficiency rating, and even brand name can all affect how much you pay for your new heating system. Let's look at each factor more closely.

Size

The size of your home and the furnace needed to adequately heat it is one of the primary factors that affect cost. Generally, larger homes require larger furnaces with higher BTUs (British Thermal Units). A unit with too many BTUs could be wasteful, leading to costly energy bills. In contrast, a unit with insufficient BTUs will not adequately heat your home, making you uncomfortable during cold winter.

The size of an existing replacement furnace also impacts, as larger units can mean additional ductwork or minor renovations that need to be done before installation, which will add additional costs.

Installation Costs

Installation costs vary greatly depending on several factors, like whether you are replacing an existing unit or installing in a new build, the level of complexity needed for installation and materials used during the process, etc. When purchasing a new furnace, it's best practice to get several quotes from experienced HVAC professionals to know you are getting a fair price for your new unit on installation day.

Quality professionals don't typically cut corners when doing installations as this could compromise safety and performance in the future, so make sure that any quotes received include all labour, materials and permit fees associated with the installation before making your purchase decision.

Efficiency Rating

The efficiency rating of the furnace you select will also impact its overall cost. High-efficiency furnaces typically carry a higher price tag than their standard counterparts. Still, they are more energy efficient and can save you money in the long run by reducing your energy costs.

Efficiency is measured by AFUE (annual fuel utilization efficiency), which represents the percentage of usable energy contained in natural gas or other fuels versus what is wasted while producing heat. The minimum legal AFUE rating for gas furnaces is 80%. Still, modern high-efficiency models can reach upwards of 98%, giving them a much higher purchase cost than standard units with lower ratings.

Brand Name

The brand name can be a factor when it comes to furnace costs. Bigger industry names such as Trane, Carrier, or Lennox often come with higher price tags due to increased overhead costs associated with advertising and product development compared to smaller independent brands that may be able to offer you discounted rates on similar products without sacrificing quality or warranty coverage.

It's always worth researching and shopping for competitive pricing before deciding on any big-ticket item like a furnace.

Average Cost Range

The cost of a high-efficiency gas furnace can vary greatly depending on several factors, including size, installation costs, efficiency rating, and even brand name. On average, installation for a high efficiency gas furnace can range from $2,000 to $6,000, with higher-end models and additional add-ons pushing that figure even higher. Let's take a closer look at what goes into this cost.

Labour Costs

Labour is probably the largest component in the final purchase price of your new furnace and will depend on the scope of work required. Generally, you can expect labour costs to range anywhere from $400 to over 1,000 depending on the installation's complexities, like running new ductwork or opening walls to access existing pipe runs, etc. It's always important to ask your HVAC contractor exactly what their labour charges include before agreeing on any work so that you are both on the same page when it comes time for payment.

Materials Costs

Materials are the second largest portion of the cost for a gas furnace installation behind labour costs. These will include all parts necessary for the job, like sheet metal returns and supplies for vented systems, venting materials for gas piping, and other related components necessary for a successful and safe installation.

Material pricing varies widely depending on items purchased, so it's best practice to get quotes from several vendors or purchase them directly if allowed by your HVAC professional to ensure you are getting value in this portion of the job.

Tips For Saving Money On Your Furnace Purchase

Buying a furnace can be an expensive proposition, but there are ways you can save money on your purchase. Here are some tips to remember when shopping for your new furnace.

Shop around

Shopping around with multiple vendors is one of the best ways to ensure you get the best possible deal. Get bids from a few different places and compare prices and any applicable discounts, warranties or other additional services offered by each vendor to ensure you're getting the most bang for your buck. Don't be afraid to ask questions and look for special promotions like free installation or discounted parts, which could help you save even more!

Look out for Promotions

Manufacturers and HVAC professionals often run promotional offers or sales on certain units during peak times of the year, so it pays to stay aware of these opportunities and take advantage wherever possible! These promotions may include discounts on parts, rebates, giveaways or even free installation, so always check if any such deals are available when making your purchase decision.

Consider Buying Used

Another great way to save money on purchasing a new furnace is to consider looking at used models sold by reputable dealers who offer proper documentation and warranty coverage. Buying used can provide substantial savings without sacrificing quality if handled correctly, so this option might be worth exploring before splurging on a brand-new unit.

Conclusion

Buying a new furnace can be a daunting and expensive task. Still, with proper research, comparison shopping, and taking advantage of any promotional offers, it is possible to save money on the purchase. Ensure you understand all associated costs and make an informed decision based on value rather than looking for the lowest cost option, as this could negatively impact performance or reliability in the long run.

Finally, always consult with an HVAC technician who is knowledgeable and experienced before making any final purchases so that you are armed with all of the necessary information to make an educated decision. With these tips in mind, you can confidently move forward in your purchase, knowing that you have made the best choice for your wallet and home comfort needs!

https://furnace-repair-toronto.ca/how-much-do-high-efficiency-gas-furnaces-cost/

Reasons Why A Furnace Makes Humming Noise When Off

Do you ever find yourself lying in bed, and the house is quiet and dark? Then suddenly, you hear a faint humming coming from the depths of your furnace. It might sound uneasy but don't worry. It's probably just your furnace. But why does it make that noise when it isn't even running? Chances are, there could be a variety of underlying causes to this phenomenon. From loose wiring to aging parts within the heat exchanger, understanding why your furnace makes a humming noise when off can help prevent more severe problems from arising down the road.

So let's take an in-depth look at why the mysterious heating system hums and whines so you can get back to counting sheep without any worries!

Loose Parts

Loose parts inside the system can often cause the hum that may be heard when your furnace is off. Loose parts such as motors, fan blades, or belts can vibrate and create a low humming sound that is hard to ignore. If you have ever heard a high-pitched noise from your furnace, it's likely due to some loose part.

For example, if a fan blower motor mount becomes worn out or begins to separate from the frame, it can cause an irritating vibration that resonates throughout your house. The same type of issue can occur with belts too. If they become loose or stretch out over time, they will create extra tension on the other system components and cause them to vibrate, leading to a humming sound when the furnace is off.

Blower Motor Issues

Another common reason your furnace may be making a humming noise when it is off is due to issues with the blower motor. If the motor mounting brackets are worn or corroded, they can cause vibrations in the system, which lead to a humming sound. Additionally, if the bearings in the blower motor become worn down, they may not be able to keep up with the demands of your system and will create extra vibration.

It's important to remember that any extra tension put on the blower motor, such as a clogged air filter, will also contribute towards increased vibrations and humming noises coming from your furnace when it's off. It's best practice to check your air filter every month and replace it if necessary.

In addition, having an HVAC technician inspect your blower motor once per year is recommended to ensure everything is running smoothly and not causing any additional problems.

Failing Ignitor

A third potential cause of humming noises from your furnace when it is off could be a faulty or failing ignitor. The ignitor is the component responsible for lighting the gas burner inside your furnace, and if it fails, it can create a humming sound. It can occur due to wear and tear over time or due to dirt or debris clogging up the part and preventing it from functioning properly.

To check the condition of your ignitor, you'll need to shut off power to the system and disconnect any electrical connections for safety precautions. Once this has been done, you'll need to remove the access panel on the side of your furnace so that you can inspect the ignitor for any dirt or buildup.

It's also important to note that if you're hearing a loud banging noise from your furnace instead of a hum when it is turned off, this can also indicate an issue with the ignitor.

Clogged Air Filter

A clogged air filter is one of the most common causes of a low hum or buzzing sound coming from your furnace when it is off. The air filter, located in the return duct of your system, plays an important role in preventing dust and debris from entering the blower motor and damaging its operation.

However, the air filter can become clogged with dirt and grime over time, leading to restricted airflow. This lack of proper airflow can cause extra stress on the blower motor, resulting in a low humming noise from the furnace when it is off.

The best way to prevent this issue is to check your air filter regularly, at least once monthly, and replace it if necessary. It's also important to use the right size filter for your system. An ill-fitting air filter can create additional problems, such as increased energy bills or even damage to components within your furnace.

Thermostat Problems

Although it may not be the most common cause, thermostat problems can also contribute to a humming noise from your furnace when it is off. If the thermostat is not calibrated correctly or has an outdated battery, then this can lead to a low hum emitted as the furnace attempts to work. Additionally, if you have recently had any electrical work done around your home, this could also have caused an issue with your thermostat's wiring and led to humming.

To check whether or not your thermostat is causing the humming sound, you'll need to look at its settings first to see if there are any faults within the thermostat, such as an old battery or incorrect calibration. You must address this before pinpointing any other causes of your furnace's noise. If possible, try replacing the thermostat altogether, as faulty circuitry in older models may only become more problematic over time.

Conclusion

It's important to remember that regular maintenance of your furnace and its components are paramount for avoiding any potential issues. It includes checking the air filter, ignitor, and thermostat every month and replacing worn-out components to prevent future problems.

Additionally, if you experience any low humming noise from your furnace when it has been turned off, you may need to investigate further into the cause of this sound. Checking the air filter, electrical components such as ignitors, and even the thermostat can help you identify what is causing the noise and address it. It's, therefore, essential to carry out routine checks to ensure that your furnace is running effectively and efficiently all year round.

https://furnace-repair-toronto.ca/furnace-makes-humming-noise-when-off/

How to Install Return Air Duct in Wall

Installing a return air duct in your wall is an essential step in ensuring that your home's air quality is as good as it can be. It's a job that you can do yourself with a few simple tools and some know-how. But, how to install return air duct in wall? In this how-to guide, we'll walk you through the steps involved in installing a return air duct in your wall, so you can get the job done right.

What is A Return Air Duct?

A return air duct is a duct that is used to return air to a furnace or air conditioner. The returned air is typically warmer than the air supplied to your house's rooms, so it helps to improve the efficiency of your heating and cooling system.

The air would not adequately circulate without a return air duct, resulting in higher energy expenses. The primary "duct" in return air ducts often flows back toward the heating system via ceiling joist voids. These joist gaps are exact ducts that exit into the furnace's side after running adjacent to the joists.

Why Install A Return Air Duct?

There are many benefits to installing a return air duct, including:

• Improved air quality: By returning air to your furnace or air conditioner, you can improve the air quality in your home.
• Increased efficiency: Return air ducts help to increase the efficiency of your heating and cooling system by allowing the air to circulate properly.
• Lower energy costs: By improving the efficiency of your heating and cooling system, you can lower your energy costs.

How to Determine Where to Install Your Return Air Duct

You may think that a return duct should be placed directly across from the supply vents since its job is to draw air back into the system. Both halves of this statement are accurate. Yes, this would be a successful arrangement, but this isn't the only way to achieve it.

It would be more than possible to install a return duct in every room with a supply vent, but this isn't always the greatest option. It would be best to avoid placing return ducts in kitchens or bathrooms. Cooking moisture and smell would then easily move throughout the heating and air system as a result of this. It would be a cause for catastrophe and unpleasant odours.

The situation might be a little more complicated in two-story houses, but generally speaking, you should put the return as near as possible to the thermostat. The thermostat will be able to track and measure the temperature cycled back through the system if you follow this basic rule of thumb. The thermostat is also often positioned in a central location.

You may gather temperature and circulation measurements from every area by centralizing the return duct and thermostat. However, not all house designs may benefit from this configuration. Installing returns in every house room, except the kitchen and bathrooms, may be required under these circumstances.

Steps on How to Install Return Air Duct in Wall

Installing a return air duct is fairly simple and can be done in just a few steps. Here's how:

Identify where to place your return air duct.

Determine the location of the return air ducts where you wish to install your return air grille, and create a low hole in the drywall. Be careful not to cut any electrical wires or pipes in the wall while installing new return registers in an old home.

Before continuing, make a little hole in the wall with your hands to inspect the inside. The hole should be the proper size for the screen. Cut through the floor via the gap. You should now have a hole in the area between the basement ceiling joists. Perform the procedure again until you achieve the desired number of return air holes. Except for the bathroom, each room should contain at least one.

Start placing the panning.

Fill the holes with wood screws and washers. The goal is to make it so that the screen is completely covered. Place the panning over each hole.

Securely attach each piece of panning by driving in nails or screws around the perimeter, about every eight inches. If you're using screws, be sure to also use washers to make sure you install them correctly.

Create a cover for the new ductwork.

Install the joist-perpendicular square return air duct. Take the time to make sure that it's level and plumb. The goal is for the new ductwork to be completely hidden, so be sure to create a cover that will blend in with the rest of your home's décor.

You can use anything from fabric to wood to metal to create a cover for your new ductwork. Whichever material you choose, be sure to attach it securely so that it doesn't come loose and cause any damage.

Connect the new air return duct to the furnace.

Now that the new ductwork is in place, it's time to connect it to the furnace. The easiest way to do this is to use a flexible air duct. If you're not comfortable doing this yourself, you can always hire a professional to do it for you.

Add the air filter.

The final step is to add the air filter. It will help keep your home's air quality high and prevent dust or dirt from getting into the ductwork.

Be sure to check the air filter regularly and replace it as needed. Depending on your filter type, you may need to replace it every few months or so.

Conclusion

Installing a return air duct in your wall is a simple process you can do in just a few steps. By taking the time to do it yourself, you can save money and ensure that your home's air quality is as good as it can be. You can also hire an HVAC professional to do it for you if you're not comfortable doing it yourself. Expert technicians at Furnace Repair Toronto will be more than happy to help you out.

https://furnace-repair-toronto.ca/how-to-install-return-air-duct-in-wall/

Whistling Air Conditioner: What Causes It and How to Fix It

A whistling air conditioner can be both annoying and frustrating. Most likely, your whistling air conditioning system is driving you nuts if it is inside the house. However, you must confirm that these are the sounds you are hearing before drawing any judgments. If you are whistling when your AC is on, there are a few potential causes for this.

There are a few reasons why your air conditioner might start whistling. It could be something as simple as needing to be cleaned or have the filter replaced, or it could be a more severe issue such as a refrigerant leak. No matter the cause, getting it fixed as soon as possible is essential to avoid further damage to your AC unit.

Low Return Airflow

If your whistling air conditioner is whistling when you first turn it on, there might be a problem with the return airflow. The return airflow is the air pulled back into the unit from your home. If there isn't enough return airflow, the AC will have to work harder to cool your home, which can lead to various problems, including a whistling noise.

To fix this problem, you need to increase the return airflow. You can do it by opening up any closed vents in your home and making sure that there isn't any furniture blocking the vents. You might also need to replace the air filter if it is dirty or clogged.

Refrigerant Leak

Another potential cause of a whistling air conditioner is a refrigerant leak. Refrigerant is what helps your AC unit cool the air in your home. If there is a leak, the refrigerant will escape, and you won't be able to cool your home correctly. A whistling noise is often one of the first signs of a refrigerant leak.

If you think you have a refrigerant leak, it's essential to call a professional AC repairman right away. Refrigerant leaks can be dangerous, and they will only get worse over time.

Dirty Evaporator Coils

Another potential cause of whistling AC units is dirty evaporator coils. The evaporator coils are responsible for absorbing heat from the air in your home. If they are dirty, they won't be able to do their job properly, and your AC unit will have to work harder to cool your home. It can lead to a whistling noise.

Clean the evaporator coils by removing the AC unit's cover and using a brush to remove any dirt or debris. You might also need to use a cleaning solution to get rid of any tough grime.

Dirty Air Filters

As we mentioned before, one of the potential causes of whistling AC units is dirty air filters. The air filters are responsible for catching any dust or debris that might be in the air. If they are dirty, they can't do their job properly, and your AC unit will have to work harder to cool your home. It can lead to a whistling noise.

To clean the air filters, take them out of the AC unit and wash them with soap and water. You might also need to use a brush to remove any tough dirt or debris. If they are really dirty, you might need to replace them altogether.

Loose Screws or Bolts

Another potential cause of whistling AC units is loose screws or bolts. If any of the screws or bolts that hold your AC unit together are loose, it can cause the unit to vibrate and make a whistling noise.

To fix this problem, you must tighten all the screws and bolts on your AC unit. You might also need to replace any that are missing or damaged.

Closed Dampers

If your whistling AC unit is whistling when you first turn it on, there might be a problem with the dampers. The dampers are responsible for controlling the airflow in your ductwork. If they are closed, it can restrict the airflow and cause your AC unit to work harder than it needs to. It can lead to a whistling noise.

You need to open the dampers and ensure they are clear of debris. You might also need to adjust their position to be fully open.

Conclusion

If your AC unit is whistling, it could be due to various reasons. It might be something as simple as dirty air filters or closed dampers. Or, it could be a more serious issue like a refrigerant leak. No matter the cause, getting it fixed as soon as possible is vital to avoid further damage to your AC unit. Expert technicians at Furnace Repair Toronto can help you identify the cause and fix an AC whistling noise. Visit our website or give us a call today to schedule a consultation.

https://furnace-repair-toronto.ca/whistling-air-conditioner-what-causes-it-and-how-to-fix-it/

What Are The Health Benefits of Air Conditioning

An air conditioner doesn't only provide comfort on a hot day. Most people know that air conditioning has health benefits, but they don't always take the time to enjoy them. Our very existence depends on good air quality, but there are now several pollutants and toxins in the atmosphere to keep track of them. Here are the health benefits of air conditioning that you may not have known.

Reduce Asthma Attacks

Asthma is a condition that affects the lungs and airways, making it difficult to breathe. Many things can trigger asthma attacks, including dust, pollen, pet dander, and even cold air. While it might seem counterintuitive, cold air can trigger an asthma attack by drying out the airways and causing them to contract. It can lead to shortness of breath, wheezing, and coughing.

Air conditioning relieves asthma attacks by humidifying the air and keeping the airways moist. It can help to prevent asthma attacks and make them less severe when they do occur.

Lower Risk of Heat Stroke

Heat stroke is a serious health condition that can be caused by exposure to high temperatures. Symptoms of heat stroke include headache, dizziness, confusion, nausea, and vomiting. In extreme cases, heat stroke can lead to organ damage and even death.

Most of us are dehydrated without even realizing it. Not only can not get enough water cause it, but also through perspiration. It can help to keep your home's air cold to prevent dehydration. Air conditioning can help to lower the risk of heat stroke by keeping the air cool and comfortable. It can help you stay hydrated and prevent your body from overheating.

Prevent the Spread of Germs

During the summer, the weather is warm and humid. It provides the perfect environment for germs to thrive. Cold and flu viruses can spread quickly in these conditions. The warm, moist air offers an ideal environment for bacteria and viruses to thrive.

Air conditioning can help prevent germs spread by circulating clean, filtered air throughout your home. It can help remove harmful bacteria and viruses from the air, making breathing safer for you and your family.

Eliminate Allergens

If you suffer from allergies, you know how important it is to keep your environment as clean as possible. Dust mites, pollen, and pet dander are all common allergens that can trigger symptoms like sneezing, coughing, and watery eyes.

Air conditioning can help to remove allergens from the air by filtering out dust and other particles. It can help to reduce your allergy symptoms and make you more comfortable in your own home.

Improve Air Quality

The air inside our homes can be even more polluted than the air outside. It is because homes are often closed up, trapping pollutants inside. These pollutants can come from various sources, including cleaning products, scented candles, and cigarette smoke.

Air conditioning can help improve your home's air quality by circulating clean, filtered air. It can help remove pollutants from the air and make breathing safer for you and your family.

Get Better Sleep

Most of us know that a good night's sleep is vital for our health. Have you ever struggled to fall asleep after tossing and turning for what seemed like hours? If so, your body temperature might be the culprit.

Our bodies lose heat when we sleep, contributing to the fatigue we experience throughout the day, and they reach their lowest temperatures around 5:00 AM. It stimulates deeper, more restful sleep and lowers the risk of other ailments by assisting our bodies to chill off more quickly before bed.

You can maintain your home at the most comfortable temperature with a fully functional air conditioning system.

Conclusion

There are many health benefits of air conditioning. Air conditioning can help to improve your health by keeping you cool and comfortable in the summer heat. It can also help improve indoor air quality and protect you from spreading germs. If you suffer from allergies, an AC system can reduce your symptoms by filtering out allergens from the air. It can also help you get better sleep by regulating your body temperature.

If you wish to install an air conditioning system in your home, contact a reputable AC company today like Furnace Repair Winnipeg. We will be happy to help you choose the best system for your needs and budget. Give us a call today!

https://furnace-repair-toronto.ca/what-are-the-health-benefits-of-air-conditioning/

Do Furnace Humidifiers Really Work?

Do furnace humidifiers really work? It is a question that many people ask, as there are so many different types of humidifiers on the market. Yes, furnace humidifiers work, and they can be a great way to add humidity to your home during winter.

Humidifiers are a common household appliance that many people use to improve the air quality in their homes. There are many different types of humidifiers on the market, and each has its own benefits and drawbacks. Let's explore the pros and cons of furnace humidifiers so you can decide if they're the right type for your needs.

What is A Furnace Humidifier?

Winter in Canada may persist for almost six months or longer, and as a result of rising energy costs, Canadians are increasingly over-insulating their houses. The heat dries up the indoor air and drastically lowers the humidity level, which is significantly uncomfortable for the residents. Fortunately, furnace humidifiers provide a solution to this issue.

A furnace humidifier is a type of humidifier that you can install onto your furnace. Built-in humidistats monitor the air's humidity and only let the humidifier operate when the humidity falls below its predetermined level. It reduces the possibility of over-humidifying the house, which may result in walls and windows' condensation, mould, and a hot, sweaty sensation for the residents.

There are two main types of furnace humidifiers: steam and bypass.

Steam humidifiers

It produces humidity by heating water until it becomes steam. The steam is then distributed throughout the house via ductwork. Although adding moisture to your home's air with steam is quite efficient, steam furnaces are more expensive to acquire and run.

Bypass humidifiers

It adds water to the furnace's airstream, and the humidified air flows through your home's ductwork. Since they lack motors, they depend on the furnace's blower to add moisture to the air as it travels over the water panel and down the ductwork. Hence, they are only operational while the furnace is running. Bypass humidifiers are less expensive than steam models but are also less effective in output.

How Do Furnace Humidifiers Work?

Furnace humidifiers improve indoor air quality by releasing water vapour or steam into the furnace ductwork, distributed to various rooms through the vents. The humidistat regulates the amount of moisture released into the air, which turns the humidifier on and off to maintain the desired humidity level.

Benefits of Furnace Humidifiers

There are many benefits to using a furnace humidifier, including:

• Reduced static electricity:  Static electricity is caused by a build-up of electric charge on the surface of an object. When the humidity in the air is low, static electricity is more likely to occur. Adding moisture to the air with a furnace humidifier can reduce static electricity and make your home more comfortable.
• Prevents drying and cracking of wood: Wood is a hygroscopic material that absorbs and retains water from the air. When the air is too dry, wood can become cracked and damaged. Using a furnace humidifier can keep the air moist and prevent your wood floors, furniture, and trim from drying out and cracking.
• Reduces respiratory discomfort: Dry air can cause various respiratory problems, including nosebleeds, sinus infections, and bronchitis. By adding moisture to the air with a furnace humidifier, you can reduce these respiratory problems and make it easier to breathe.
• Prevention of dry skin and noses: Dry air can cause your skin and nasal passages to dry, leading to discomfort. Adding moisture to the air can prevent these problems and keep your skin and nasal passages healthy.
• Eases congestion: Dry air can make congestion worse. By adding moisture to the air with a furnace humidifier, you can alleviate congestion and make it easier to breathe.

Drawbacks of Furnace Humidifiers

There are some potential drawbacks to using a furnace humidifier, including:

• Condensation: If the air is too moist, it can lead to condensation on walls and windows. It can damage your home and create an ideal environment for mould growth.
• Water spots: Moisture in the air can cause water spots on surfaces such as windows, mirrors, and countertops.
• Increased energy costs: Running a humidifier will increase your energy costs.
• Maintenance: Furnace humidifiers require regular cleaning and maintenance to prevent mould and bacteria growth.

Conclusion

Furnace humidifiers are a great way to improve the indoor air quality of your home and reduce static electricity, respiratory problems, and congestion. However, they have some potential drawbacks that you should be aware of before purchasing one. The system does work and can provide many benefits. If you want to install a furnace humidifier, weigh the pros and cons to decide if it's right.

For furnace humidifier installation, contact Furnace Repair Toronto for a free consultation.

https://furnace-repair-toronto.ca/do-furnace-humidifiers-really-work/

How Often to Change Furnace Humidifier Filter?

Changing your furnace humidifier filter is an essential part of maintaining your unit. Not only does it keep the air clean, but it also helps to ensure that the humidifier is running at its peak performance. But how often to change the furnace humidifier filter?

A furnace humidifier helps to add moisture to the air, which can be beneficial for many reasons. It can help prevent static electricity, cracked paint and wallpaper, and make the air feel warmer in the winter. We have put together this guide to help determine how often you should be changing your filter.

What is A Furnace Humidifier Filter?

Your humidifier filter, also known as an evaporator pad, water panel, or water pad, effectively holds and disperses moisture straight to the air as it passes through the furnace. Your humidifier's filter is more appropriately thought of as a water retention pad.

It stores water for the furnace air to travel through and provides water to the atmosphere in your house. Your humidity control sends water through the pad when it detects a reduction in the humidity percentage to sustain the precise humidity level you want.

The filter is an essential part of the humidifier, as it helps to remove any impurities from the water before it evaporates. It includes things like dust, bacteria, and minerals. Over time, the filter will become clogged with these impurities and need replacement to continue functioning correctly.

How Often Should You Change The Furnace Humidifier Filter?

Now that you know how important it is to have a clean filter, you are probably wondering how often you should be changing it. The answer depends on a few factors, including the type of filter used and the air quality in your home.

If you live in an area with hard water, the minerals in the water can cause the filter to become clogged more quickly. In this case, you may need to change the filter more frequently. Additionally, if you have pets or someone in your home who suffers from allergies, you may need to change the filter more often.

Generally speaking, you should expect to change your furnace humidifier filter every one to three months. However, if you find that you are changing it more frequently than this, it may be a good idea to upgrade to a higher-quality filter. When your house needs humidity the most in the winter, you might need to replace the humidifier filter more frequently.

Choosing the Right Filter for Your Furnace Humidifier

When it comes time to replace your filter, it is crucial to choose one that is the right size and type for your humidifier. If you have a whole-house humidifier, you will need to make sure that you select a filter that is designed for this type of unit.

Additionally, you will need to choose a filter with the right MERV rating. The MERV rating measures how effectively the filter removes impurities from the air. The higher the MERV rating, the more effective the filter will be.

A filter with a MERV rating of 5 or 6 will be sufficient for most homes. However, if you have pets or someone in your home who suffers from allergies, you may need to choose a filter with a higher MERV rating.

Conclusion

Installing a new filter is a relatively easy task that you can do yourself. However, if you are not comfortable doing it, you can always hire a professional to do it for you. When it comes to how often to change the furnace humidifier filter, you should do it every one to three months, or more frequently if necessary. Choosing the right filter is also important, as you want one that is the right size and type for your humidifier and has the right MERV rating.

https://furnace-repair-toronto.ca/how-often-to-change-furnace-humidifier-filter/

How Do I Know What Size of Air Conditioner I Need

How do I know what size of air conditioner I need? Have you ever asked yourself this question? If your answer is yes, then you are not the only one. Many people have air conditioners that are either too small or too large for their homes.

When air conditioners break, they're either too small for the space they're cooling or too large. If your AC is constantly running, then it's probably too large. If it can't keep up with the heat, then it's probably too small.

Here are a few tips on determining the size of the air conditioner you need for your home.

Understanding British Thermal Units

The first step is to understand how to get the right size of air conditioners. Air conditioners are typically measured in British Thermal Units or BTUs. BTUs are a unit of measurement that measures the amount of heat an air conditioner can remove from space in one hour. The HVAC sector measures cooling capacity using BTUs. In this context, one BTU equals the amount of heat that an air conditioning system can dispel in an hour.

For example, if you have a 1,000-square-foot home, you will need an air conditioner that can remove about 35 BTUs per hour. That means you need a 3.5-ton air conditioner to adequately cool your home. If you have a 2,000-square-foot home, you will need an air conditioner that can remove about 70 BTUs per hour.

If you're still unsure of how many BTUs you need, it's always best to consult with a professional. They will be able to help you determine the appropriate size for your home.

Determining the Square Footage of Your Home

The next step is to determine how many square feet your home is. It will help you determine how many BTUs you need. To do this, simply measure the length and width of each room in your home. Once you have those measurements, multiply the length by the width to get the square footage of that room. Repeat this process for each room in your home.

Once you have the square footage of each room, add them all together to get the total square footage of your home. This number will help you determine how many BTUs you need for your home.

For example, if you have a 10-foot by 10-foot room, the square footage would be 100. If you have a 20-foot by 20-foot room, the square footage would be 400. Adding these two numbers together would give you a total of 500 square feet. It is the number you would use to determine how many BTUs you need for your home.

Essential Considerations When Sizing For Air Conditioners

There are a few other important considerations you need to make when sizing your air conditioner.

Location

The location of where you live will play a role in how many BTUs you need. If you live in an area with a lot of humidity, you will need an air conditioner that can remove more BTUs than someone who lives in a dry place.

The number of windows and doors in your home will also play a role. If you have a lot of windows and doors, you will need an air conditioner that can remove more BTUs than someone with fewer windows and doors.

Insulation

The insulation in your home will also play a role. Insulated walls and ceilings will help keep the heat out, so you won't need an air conditioner that can remove as many BTUs.

You should also consider how much sunlight enters your home. If you have a lot of sun exposure, you will need an air conditioner that can remove more BTUs than a place that doesn't have as much sun exposure.

Room Size

It's also important to consider the size of the room when sizing your air conditioner. A small room will need an air conditioner that can remove fewer BTUs than a large room.

You should also consider how many people typically occupy the room. If you have a lot of people in a room, you will need an air conditioner that can remove more BTUs than if you have fewer people in the room.

Conclusion

When it comes to sizing your air conditioner, there are a few things you need to consider. The first is the square footage of your home, the location of where you live, the insulation in your home, etc. All of these factors will affect how many BTUs you need.

It's always best to consult with a professional before making a decision. They will be able to help you determine the appropriate size for your home. Contact Furnace Repair Toronto for air conditioner installation in the city. We will be able to help you find the perfect air conditioner for your home.

https://furnace-repair-toronto.ca/how-do-i-know-what-size-of-air-conditioner-i-need/

How to Choose An Air Conditioner For Your Home

An air conditioner is necessary for many homeowners, especially those in hot climates. It can be challenging to decide which air conditioner is right for your home. There are many different types available, each with its benefits and drawbacks. In this article, we will provide tips on how to choose an air conditioner that suits your needs, as well as information on the different types of air conditioners available.

Choose The Right Type of Air Conditioner

There are several different types of air conditioners available on the market, such as:

Central air conditioning system

The most common method of cooling your house is this one. Cooled air is distributed throughout ducting with supply and return registers in each room. Except for the air handler, which is frequently shared with the furnace, all air conditioning system components are outside. It is the most common choice for whole-house conditioning if your house already has ductwork.

Window air conditioner

This AC is the most popular choice for cooling a single room. You can install it in a window or through an exterior wall. A window air conditioner has all of its components (condenser, compressor, evaporator, and fan) in one unit. They are relatively easy to install and remove at the end of the season.

Portable air conditioner

This type of air conditioner is not installed but rolled from room to room as needed. Portable AC systems are a good choice if you want the flexibility to move the unit from one room to another or if you cannot or do not want to install a window unit. They require venting through a window or door to the outside.

Split-system air conditioner

A split-system air conditioner is similar to a central air conditioner, but the evaporator and condenser are in separate units. The evaporator is usually inside, near the ceiling, and the condenser outside. Split-system air conditioners are less expensive than central air conditioners and are a good choice if you do not have existing ductwork.

Ductless mini-split air conditioner

A ductless mini-split air conditioner is similar to a split-system air conditioner, but there is no ductwork. The evaporator is inside, near the ceiling, and the condenser is outside. Mini-split air conditioners are less expensive than central air conditioners and are a good choice if you do not have existing ductwork.

Choose The Right Size Air Conditioner

Once you have decided on the type of air conditioner you need, the next step is to choose the right size. If you select an air conditioner that is too small, it will have to work harder to cool your home and be less efficient. If you choose an air conditioner that is too large, it will cool your home too quickly and cycle on and off more frequently, which wastes energy and can cause excessive moisture in the air.

To determine the correct size of air conditioner for your home, you must know the square footage of the area you want to cool. Use a tape measure to calculate the length and width of the room, and then multiply those numbers to get the square footage. For example, if the room is 10 feet long and 10 feet wide, the square footage would be 100 square feet.

Once you know the square footage, consult a sizing chart to determine how many BTUs (British Thermal Units) you need. A BTU is a unit of measurement that indicates how much heat an air conditioner can remove from a room in one hour. The higher the BTUs, the larger the room it can cool.

For example, a 100-square-foot room would need an air conditioner with about 5,000 BTUs. A 300-square-foot room would need an air conditioner with about 14,000 BTUs.

Check for The Energy Efficiency

You can measure air conditioners by their efficiency, which is indicated by the Seasonal Energy Efficiency Ratio (SEER). The higher the SEER, the more efficient the air conditioner.

The minimum SEER for newly manufactured air conditioners is 14, but you can find units with a SEER of 20 or higher. Higher-efficiency units cost more to purchase, but they use less energy, which can save you money in the long run.

Watch The Warranty

When you are purchasing an air conditioner, be sure to check the warranty. Most air conditioners have a one-year warranty on parts and labour, but some manufacturers offer extended warranties.

It is also a good idea to purchase an extended warranty from the retailer or installer. These warranties usually cover repairs for a set period, and they can save you money if something goes wrong with your unit.

Shop around and compare prices from different retailers before making your purchase to ensure you get the best deal.

Conclusion

Choosing the right air conditioner for your home can be a challenge, but it is essential to take the time to find the unit that will meet your needs. Be sure to consider the size of the room, the energy efficiency, and the warranty before making your purchase. These factors will help you find the perfect air conditioner for your home. Furnace Repair Toronto can help you install your air conditioner unit. Contact us today for more information.

https://furnace-repair-toronto.ca/how-to-choose-an-air-conditioner-for-your-home/

What Size of Central Air Conditioner Do I Need?

When getting a new AC, have you ever asked, "what size of central air conditioner do I need?" When choosing the right central air conditioner, size does matter. To find the perfect fit for your home, you need to consider various factors. We'll help you determine what size is right for your needs and what features to look for when deciding.

How to Measure Central Air Conditioners?

Size in the context of air conditioning pertains to cooling power rather than actual size. Larger units tend to be more powerful, but it's nearly hard to determine an AC unit's cooling capacity just by glancing at it. The only way to know what size of central air conditioner you need is by measuring your home and doing some calculations.

There are two main ways to measure an air conditioner's cooling capacity: BTUs and tons. Most AC units are measured in tons, with one ton corresponding to 12,000 BTUs per hour. To calculate the number of tons you need, divide the total BTUs by 12,000. It will give you a rough estimate of what size central air conditioner you need. Once you have this number, you can start narrowing down your choices.

Why Install A Correctly Sized Central AC?

Installing a central air conditioner that's too large or too small will have consequences. If your unit is too small, it will have to work harder to cool your home, leading to higher energy bills and more frequent repairs. Additionally, a small AC unit won't be able to remove enough humidity from the air, which can make your home feel stuffy and uncomfortable.

On the other hand, installing a too-large unit will also result in higher energy bills. Additionally, an oversized air conditioner will cycle on and off more frequently, which can shorten its lifespan. Not to mention, an AC that's too big for your home won't remove humidity effectively either.

Before beginning your search for an air conditioning system, whether a central one or a wall, standalone, or window unit, it's critical to know what you need.

What Factors to Consider?

In addition to the size of your home, there are other important factors to consider when purchasing a central air conditioner. Some of the most important factors include:

The climate in your area: The climate will play a big role in what size of central air conditioner you need. If you live in an area with a mild climate, you won't need as much power to keep your home cool. However, you'll need a more powerful unit if you live in an area with extreme heat or humidity.

The number of people in your household: The more people in your household, the more heat your home will retain. As such, you'll need a larger unit to cool your home if you have a lot of people living under one roof.

The type of insulation in your home: Homes with poor insulation will require a larger air conditioner to maintain a comfortable temperature. If you're unsure how well insulated your home is, you can hire an energy auditor to assess your insulation and give recommendations.

Your energy efficiency goals: If you're looking to save money on your energy bills, you'll need to purchase a more energy-efficient unit. Higher-end units tend to be more expensive, but they'll save you money in the long run.

The number and size of windows in your home: The number of windows in your home will also affect what size of central air conditioner you need. If you have a lot of large windows, they'll let in more heat, so you'll need a larger unit to cool your home.

What Size of AC Should You Get For Your Home?

Now that you know what factors to consider, you can start calculating what size of central air conditioner you need. To do this, you'll need to measure the square footage of your home and compare it to what's known as a BTU chart.

A BTU chart is a tool that shows how many BTUs are required to cool specific square footage. To find the right chart for your needs, search for one that's specific to your climate zone. Once you have the chart, simply look up the square footage of your home and find the corresponding BTU rating.

For example, let's say you live in a 1,000-square-foot home in zone 5. According to the chart, you'll need a unit with a BTU rating of 28,000-34,000.

Once you have the BTU rating for your home, you can narrow down your choices and find the perfect central air conditioner for your needs.

Conclusion

Purchasing a central air conditioner is a big decision, and choosing the right size for your home is essential. Use the information in this article to help you make an informed decision and find the perfect unit for your needs. Consider the climate, the number of people, and the type of insulation in your home when making your decision. You should also look for a unit with the right BTU rating for your home's square footage. With a bit of research, you can find the perfect central air conditioner for your needs.

https://furnace-repair-toronto.ca/what-size-of-central-air-conditioner-do-i-need/

How to Size A Furnace Properly

We want to feel cozy inside our house when it's freezing outside. Nothing is more crucial to ensuring comfort in the winter than a furnace. However, the furnace must be the correct size to operate well. Knowing how to size a furnace is vital in deciding when it's time for installation or a replacement.

Follow our thorough instructions on precisely determining the best furnace size for your home to avoid these hassles.

Measure Your Home's Square Footage

The first step is to measure the square footage of your home. It is crucial to note that you are under no obligation to measure for spaces without vents or for spaces you do not intend to heat.

To do this, you'll need to measure the length and width of each room and multiply those numbers. For example, if a room is 10 feet wide by 12 feet long, its square footage would be 120. Then, add up all the square footage for each room in your house to determine how much space you need to heat.

For example, if your home has the following dimensions:

- 10 x 12 living room

- 15 x 20 family room

- 12 x 12 kitchen

- 30 x 30 garage

The total square footage of your home would be 1,080 square feet (120 + 300 + 144 + 900).

Determine the BTUs Per Square Foot 

The next step is determining how many BTUs (British Thermal Units) of heat you need per square foot. BTU is a measurement unit that quantifies your furnace's heat output.

For newer homes, 30 to 35 BTUs per square foot is typical. Living in an older home may need as many as 45 BTUs per square foot. And, if any of your rooms have high ceilings (over 8 feet), you'll need to add 600 BTUs for each room.

We'll need 30 to 35 BTUs per square foot for our example home. That means we'll need between 324 and 378 BTUs per square foot (1,080 x 0.3 = 324; 1,080 x 0.35 = 378).

Consider The Climate

When sizing your furnace, you'll also need to consider the climate. In a milder climate, you can get away with fewer BTUs. However, you'll need more BTUs to heat your home in a colder climate.

For instance, if you live in Toronto, you'll only need between 35 and 45 BTUs per square foot. But, if you live in Winnipeg, you'll need between 40 and 50 BTUs per square foot.

In our example home, we'll need between 35 and 45 BTUs per square foot because we live in a milder climate.

Consider Other Factors

You'll need to consider a few other factors when sizing your furnace.

• Ceiling height: If your ceilings are above 8 feet, you'll need to add 600 BTUs per square foot.
• The number of windows: More windows means more heat loss. For every window in a room, add 1,000 BTUs.
• Doors: Just like windows, doors can also lead to heat loss. Add 400 BTUs for each door in a room.
• Ceiling fans: Ceiling fans can help circulate heat, so you may be able to reduce the size of your furnace if you have them.
• Desired temperature: If you like your home to be warmer than most, you'll need a bigger furnace.
• Ductwork: The size of your ductwork and furnace may not be compatible, which might lead to issues. For example, if your furnace's ductwork is too small, the furnace's lifetime will be shortened since the air that the furnace generates won't have enough room to pass through. As a result, the airflow will be restricted, leading to an overheated furnace. Ensure that the furnace you choose fits your ducting properly.
• The number of people in the house: Because the human body radiates heat into the air around it, it will need fewer BTUs to heat if it often accommodates many people.

Conclusion

When it comes to sizing a furnace, there are several factors you'll need to consider, including the square footage of your home, the climate, and other features like windows and doors. By considering all these things, you can be sure to choose a furnace that's the right size for your home. If you need assistance, contact a furnace specialist. They can help you determine the perfect size for your needs.

Contact Furnace Repair Toronto for all your furnace repair and replacement needs in the GTA. We are a team of certified technicians serving the Greater Toronto Area for many years. Our team is available 24/7 for emergency services. Call us today!

https://furnace-repair-toronto.ca/how-to-size-a-furnace-properly/

Gas Furnace Maintenance Checklist

A gas furnace is a vital part of any home during the colder months, and it's crucial to ensure it's well-maintained to keep your family warm and safe. A gas furnace maintenance checklist can help you stay on top of all the tasks you need to complete to keep your furnace running smoothly.

Here are some key things to include on your gas furnace maintenance checklist.

Replace The Filters

The primary purpose of the furnace air filter, which is often found in the return duct, is to prevent particles from entering your house. A cheap furnace air filter will only stop a small amount of dust and debris. Consequently, dust and debris will build up in your furnace, polluting the air inside your home.

The adversary of all HVAC systems, dust and dirt, must always be remembered. Your heating system won't obtain enough air supply to maintain the correct temperature if dust and other small particles build up. Consequently, it will take longer for your heating system to provide the necessary temperature.

Once more, high-quality air filters for furnaces tend to block a wide variety of pollutants, including dust, pollens, trash, germs, etc.

Check The Flame Sensor

If your furnace is gas-powered, you'll need to check the flame sensor from time to time. The flame sensor's purpose is to ensure a gas flame is present when the furnace is turned on. If the sensor isn't working correctly, it could prevent the gas valve from opening, preventing the furnace from turning.

To test the flame sensor, simply turn on the gas valve and then use a multimeter to test for continuity between the two terminals on the sensor. If there is no continuity, the sensor will need replacement.

Clean The Blower Assembly

The blower assembly is what circulates the air through your furnace and into your home. Over time, the blower assembly can become clogged with dust and debris, reducing efficiency. It's essential to clean it regularly to keep the blower assembly running smoothly.

To clean the blower assembly, remove it from the furnace and then use a brush or vacuum to remove any dust and debris.

Inspect Gas and Electrical Connections

You'll need to inspect the gas connections regularly if your furnace is gas-powered. Loose gas connections can be hazardous, so it's crucial to ensure they're tight and secure. You should also inspect the electrical connections to ensure they're not loose or damaged.

Inspect the gas connections by looking for any leaks. If you see any gas leaks, you'll need to have them repaired immediately. To inspect the electrical connections, simply use a multimeter to test for continuity between the terminals.

Clean The Burners

The burners are what heat the air that's circulated through your furnace. Over time, the burners can become clogged with soot and debris, reducing their efficiency. It's also essential to clean them regularly.

To clean the burners, remove them from the furnace and then use a brush or vacuum to remove any soot and debris.

Check Heat Exchanger

Only eye examinations are necessary for heat exchangers. Cracks, soot, and sounds are some warning indicators that an exchanger is experiencing problems and smells similar to formaldehyde. If you detect any of these, please shut off your gas furnace and contact a professional HVAC technician as soon as possible. Heat exchanger cracks can release carbon monoxide into the air, which can be extremely dangerous.

Inspect The Flue Pipe

The flue pipe carries the exhaust from the furnace out of your home. Over time, the flue pipe can become clogged with soot and debris, which can cause the furnace to overheat. Your home's flue pipe is in charge of eliminating fuel byproducts. A professional will assess the fit and flow of your flue pipe. An improper installation can cause gas leaks and fires.

Check The Thermostat

The thermostat is what controls the temperature of your home. If the thermostat isn't working properly, it can cause the furnace to overheat or not heat the home sufficiently. To test the thermostat, simply set it to a lower temperature and see if the furnace turns on. If it doesn't, then you'll need to replace the thermostat.

Conclusion

A gas furnace is a vital part of any home during the colder months, and it's essential to ensure it's well-maintained to keep your family warm and safe. A gas furnace maintenance checklist can help you stay on top of all the tasks needed to keep your furnace running smoothly. Furnace Repair Toronto should be your first call when you're ready to book a gas furnace tune-up or if something goes wrong and you need gas furnace repair in Toronto.

If you have any questions about gas furnace maintenance or anything related to HVAC, feel free to contact us. One of our friendly and knowledgeable staff members would be happy to help you.

https://furnace-repair-toronto.ca/gas-furnace-maintenance-checklist/

Whole House Humidifier VS Portable Humidifier

It's no secret that a whole-house humidifier is the best way to keep your home's humidity at the correct level. But did you know that there are different types of whole-house humidifiers and that not all are equal? In this article, we will compare and contrast the two most popular types of whole house humidifiers- a whole house humidifier vs a portable humidifier.

What Is A Whole-House Humidifier?

A whole-house humidifier is a type of humidifier installed directly into your home's HVAC (heating, ventilation, and air conditioning) system. Whole-house humidifiers can be either central humidifiers or console humidifiers. Central humidifiers are permanently installed into your HVAC system and require professional installation, while console humidifiers are portable units that can be moved from room to room as needed.

Whole-house humidifiers add moisture to the air as it circulates through your home's HVAC system. We usually place a whole-home dehumidifier in your basement and work with your forced-air HVAC system. This effective gadget removes the surplus moisture in your indoor air as it travels through the heating and cooling return ductwork.

The dehumidifier turns the moisture into liquid, draining it into a sink or floor drain. After that, the dryer air is pumped once again through your rooms.

This humidifier is the most efficient and effective way to keep your house at the correct humidity level.

What Is A Portable Humidifier?

A portable humidifier is a type of humidifier that can be moved from room to room as needed. Portable humidifiers are small and compact, making them easy to move around. They are often used in rooms that do not have a whole-house humidifier installed or in addition to a whole-house humidifier to provide extra moisture in a specific room.

Portable humidifiers work by adding moisture to the air in a specific room. You can use them to target dry problem areas in your home, such as a nursery or bedroom. Portable dehumidifiers use a fan to draw in air that is too humid. Comparable to an AC system, the air is forced over coils cooled by a refrigerant. Most of the moisture in the air is condensed when the cold coils cool it.

The humidity content is now a liquid stored in a drip pan or detachable container, which you must typically empty by hand.

Portable humidifiers come in various shapes and sizes. Many even have cool mist options for added comfort.

How to Choose The Best Humidifier?

Now that you know the difference between whole-house and portable humidifiers, it's time to choose the best humidifier for your home. Consider the following factors when making your decision:

The size of your home: If you have a large house, a whole-house humidifier will be more effective at evenly distributing moisture throughout your home. A portable humidifier will be sufficient if you have a smaller home or live in an apartment.

The climate you live in: If you live in an area with high humidity, a whole-house dehumidifier is an excellent option to help remove excess moisture from the air. A whole-house humidifier will help add moisture to the air if you live in an area with low humidity.

Your budget: Whole-house humidifiers are typically more expensive than portable humidifiers. A portable humidifier is a good option if you are on a budget.

Your needs: A portable humidifier is the best option if you are looking for a humidifier to use in specific rooms or for specific needs, such as a nursery or bedroom. A whole-house humidifier is the best option if you are looking for a humidifier throughout your home.

Conclusion

Both whole-house and portable humidifiers have their pros and cons, but which one is the best choice for you depends on your needs. If you have a large home, live in an area with low humidity, or are looking for a humidifier throughout your home, a whole-house humidifier is the best option. A portable humidifier is a good option if you have a smaller house or live in an area with high humidity. Consider your needs and budget when making your decision to choose the best humidifier for your home.

Contact Furnace Repair Toronto for whole-home comfort solutions. Our whole-house humidifier installation services will help you achieve and maintain the perfect humidity level in your home all winter!

https://furnace-repair-toronto.ca/whole-house-humidifier-vs-portable-humidifier/