The square footage of your functional area determines your heating, cooling, and ventilation requirements. If you modify the layout, usage, occupancy, or even the materials used to remodel your space, your HVAC system must also adapt.

More people equals less heating and more cooling

You may be doing your remodel to accommodate more people. Whether your family has grown, and you require an additional bedroom, or you have hired new coworkers for your business, you will be surrounded by more people.

For example, if you remodel a restaurant dining room to accommodate more customers, you will increase the occupancy of your area. The more people that occupy a certain space, the warmer it becomes. The average human generates around 80 watts of heat, or 275 BTU/h.

As a result, your dining room will require less heating in the winter and more cooling in the summer. You must ensure that your new HVAC system can accommodate these adjustments.

When usage of building areas is changed, heating and cooling requirements also change

You might remodel your office or workshop to make room for additional activities and better use of the space. For example, your manufacturing company may be growing and relocating into a new location that was previously operated as a warehouse. Your company will most likely use the area differently than the previous tenant.

A gym’s heating and cooling requirements will differ from that of a retail store. Not only will the activities be different, but so will the hours. Nonetheless, the ultimate goal remains the occupants’ comfort.

Because they generate excess heat, new electronics and computer equipment in the room may make a significant impact. Try to determine that the new HVAC system is designed in accordance with the new requirements.

Changing the overall layout requires changes in the duct work

Air ducts, as a major part of your ventilation system, carry the warm and cold air throughout the building. They were specifically designed to maximize comfort based on the old layout. When you relocate or open up walls, windows, doors, or even cubicles, you change the air flow throughout the place. If you don’t update the duct work in line with the layout changes, you’ll probably end up with undesirable hot and cold spots in your new place.

You need to control unpleasant odours

This is particularly significant if you work in the food, fitness, or health industries. It’s also a key factor to consider when remodelling washrooms, kitchens, and garbage disposal rooms; fresh air is essential.

To avoid these unpleasant odours in locations where they may irritate your clients or staff, control the air movement in the appropriate directions. Changing the layout alters the air flow as well. It must be addressed in order to keep those smelly kitchen or washrooms odor-free. Adding an air purifier can greatly improve the air quality.

Your old furnace and air conditioner may be incorrectly sized

New construction techniques and energy efficient materials affect the need for heating and cooling in your newly renovated space. Insulated windows, doors, and walls prevent drafts, which reduces both heating and cooling needs.

But this airtight construction won’t let in fresh outdoor air without powered ventilation and exhaust fans. New LED light fixtures produce less heat, which reduces your cooling needs but may increase heating requirements. You need to reevaluate the complete heating and cooling system.

Your existing furnace and air conditioner may be incorrectly sized for the new needs of your renovated space. In many cases, your current HVAC system is now oversized and wastes a lot of precious energy. You might want to add new alternative appliances, such as installing a heat pump to the system to further reduce your energy consumption and improve your comfort levels in your renovated space.

The heating and cooling preferences of family members always differ in a home. Likewise, various rooms in a house demand different temperature settings. You could prefer it a little colder, while your partner might prefer it a little toastier. Your basement is often colder than you want, and your loft is just unbearably hot. These are some examples of heating and cooling issues that a normal HVAC system cannot always solve, requiring a Multi Zone HVAC solution.

A multi zone ductless HVAC system delivers personalized heating and cooling to meet the demands of each individual in the home, allowing everyone to enjoy the ideal room temperature.

However, the uses of a multi zone system are not limited to residential settings. HVAC zoning may also benefit commercial organizations by delivering comfort, convenience, and energy savings at a low cost.

What is a multi zone HVAC Zoning System?

A multi-zone ductless heating and cooling system splits your home up into clusters. Each cluster has its own temperature set point and operating mode. A dedicated thermostat for the zone or, in the case of ductless air conditioners, a smart AC controller provides controls for the zone. This gives you greater control over each specific part of your home, increasing your comfort and reducing energy bills.

Consider a two-story house with the living room, kitchen, and hallway on the first floor with three bedrooms and a slightly smaller living room upstairs. The upper half of the house is generally unused during the day and only partially occupied at night. In such a scenario, it makes reasonable to create zones.

In this scenario, the living room, kitchen, and hallway may be combined into one zone, while the upper part can be designated as a separate zone. The first zone is in continuous use throughout the day, so the temperature can be set as preferred, whereas the other zone can be turned off for the majority of the day as it is usually not in use. It will be turned on when it is getting close to bedtime in the evenings.

In this way, you would use air conditioning only when necessary, rather than all day long. This eliminates unnecessary electricity usage and helps to conserve energy.

Advantages of a multi zone HVAC System

Energy savings are associated with HVAC zoning. The primary advantage of a multi-zone ductless heat pump system is the energy-saving it provides. Multi zone heat pumps can reduce air conditioning and heating costs by up to 30%.

This is achieved by using your air conditioning according to your needs and not keeping it running unnecessarily in areas where there is no need. You can cool your home or provide warmth in the heating season with these highly energy efficient types of heat pumps.

Air conditioning zones result in greater comfort for occupants

A zoned HVAC system gives you unparalleled control over the operating modes and temperatures of your air conditioning. The desired temperature and air conditioning mode can be set for each zone.

If one part of the home is too cold and you need to ramp up the heat only in that particular room, you can quickly achieve this with HVAC zoning. In this manner, other rooms of the house do not get extra heat, avoiding uneven temperatures.

Do You Need Zoning?

A zoned HVAC system seems to be attractive, and the benefits are worth considering the installation. Let’s have a look at who can benefit from a modern multizone heat pump system and how to make the most out of it. If you agree with any of the lines below, this system is ideal for you.

  • Your home has multiple levels
  • You have separate living and shared areas
  • The house has elderly people
  • You have an area designated for pets
  • Your home is unevenly heated/cooled (One part of the home is facing north, the other towards south)
  • Using the attic as a living space
  • Your home has large unused indoor spaces
  • Members of your household are often in conflict about the temperature settings of their rooms

This list is by no means exhaustive, and there are a few other cases in which a ductless multi zone system can be applicable. You can have a detailed HVAC energy audit conducted to get a detailed overview of your zoning requirements.

How Many Zones Do You Need?

Let’s determine how many zones you’d need. The exact number depends on your home arrangement, living preferences, number of occupants, and other factors such as pets and outdoor environment.

The most common zoned system is where the upper and lower floors are a separate zone as the temperature greatly varies between the two floors. Other variations include separating the home into living and common areas. Moreover, each room can be made a separate zone as well, providing completely personalized HVAC controls.

Zoning for Ducted HVAC Systems

A central HVAC system is a prime obstacle for HVAC zoning. The reasons for this are multiple:

Central HVAC systems have a single thermostat for the whole house. Conventional ducted systems use a single thermostat to control the temperature of the entire house. It cannot be used selectively for a specific room, spelling trouble for your energy consumption, especially for times when your home isn’t fully occupied. Not to mention, this is incredibly inconvenient for the occupants. A ductless multi zone system removes this problem and lets you have individual room control so that only the desired area can be heated or cooled.

Separate the living and working areas

If you have some rooms in your home designated for special activities, such as a workshop, or a home gym, then you would want to keep the air separated from the rest of the home. With conventional HVAC systems, this is not possible.

A multi zone unit can come in handy here. By making these special rooms a separate zone, you can ensure that the air from these rooms does not drift to the other areas of your home.

How Can You Make a Zoned HVAC System?

Take for example, a two-story house. When you have created a zone for only the home’s upper floor, the lower floor’s indoor evaporator unit will be off, preventing air from cooling or heating this portion. Now, heating or cooling is only performed on the upper floor. Furthermore, your HVAC system utilizes a reduced amount of energy.

Zoning for Ductless HVAC Systems

A single zone ductless HVAC system is easier to convert to a multi zone HVAC system. With a ductless zoned HVAC system, all your ductless mini split units can be controlled with the tap of a single button, rather than turning each unit on or off individually. How easy is that! Just imagine if there are five different ACs in a building, you need to press a button to turn on all five one by one.

If you have a single zone HVAC system, consult our HVAC professionals beforehand and ask them to thoroughly plan it out for you.

Since its introduction in the 1970s, the world has become more familiar with the concept of a ductless mini split air conditioning system as alternative heat sources. Between 1954 and 1968, Japanese enterprises Mitsubishi Electric and Toshiba pioneered the technology. The ductless mini split was created as an upgrade from the window unit. The key objective was to offer cooling to houses and buildings where a more extensive, whole-system approach was either impractical because of space or monetary limitations, but subsequently offering far more pleasant cooling technology.

Initially available only as a window air conditioner or a wall-mounted indoor unit option, the ductless system provided enhanced performance, higher efficiency, and the ability to regulate separate zones. The possibility to remotely place the system’s condensing outdoor unit and therefore relocate the sound-bearing components from the living area was a significant benefit in freeing up window space.

The fact that the small, compact condensing units could be put in various locations, keeping up with the space-restricted Japanese building practices, while being energy efficient, was one of the major elements in the ductless system’s early popularity. To this day, the worldwide baseline ductless product is a wall-mounted indoor unit, which accounts for approximately 75% of total global mini split system sales.

Several manufacturers saw opportunities and introduced additional ductless indoor units, such as floor consoles and ceiling-suspended units to their existing HVAC systems. Concealed ducted-style and concealed ceiling cassette units have also been created, giving the ductless mini splits a new application.

Heat Pump Technologies Are Evolving

Ductless heat pump systems earned a reputation for reliability in terms of service and maintenance. Today’s technology has further enhanced this reputation, with installations rarely experiencing issues. Whether it is a small mini split air conditioning system or a multi zone system — which was invented by Daikin in 1973 — these air conditioner systems are extremely energy efficient, requiring simply basic filter maintenance and condenser coil cleaning.

As the Japanese invention was gradually spread across the world, the demands that each region created, both in terms of sales and design, further improved the concept, allowing ductless air conditioners to become the standard of many countries’ HVAC choices.

Longer pipe lengths, improved height separation, broader operation temperature range in both cooling and heating modes, efficiency levels exceeding government-mandated minimum requirements, and user-friendly mobile controls were among the technological advancements of ductless ACs.

The most significant evolution of the mini-split happened with the introduction of the more sophisticated variable refrigerant volume (VRV) zone systems. These advancements provided a ductless solution for servicing whole-house residential applications with multi-split systems capable of serving up to five zones.

Constant Evolution of Mini Splits and Energy Savings

Compressor technology transitioned from conventional to variable-frequency drive (VFD) inverter compressors, offering outstanding operating performance (full and partial load) for mini split heat pumps and close control of the desired comfort level. Improvement of the heating and cooling equipment reliability, and extended lifespan in the main focus.

Condensing fan motors were upgraded from direct-drive to VFD inverter-types, which improved performance at the extremes of the ambient operation range and increased efficiency.

To reduce indoor noise levels and power consumption, evaporator unit fan motors transitioned from direct-drive to direct-current (DC).

Heat exchanger technology has advanced to incorporate sophisticated high-performance coil designs with little surface area but high heat exchange to guarantee higher system capacity. Even with a tiny, packed unit, higher efficiency can be obtained.

Self-diagnostic features assist the installing contractor and owner in addressing system errors and getting the equipment back to operational with as little downtime as possible.

A residential ductless heat pump is a type of HVAC system that uses refrigeration and electrical energy to heat and cool a building. How do ductless air conditioners work? Let’s find out.

There are two primary parts:

  • A condenser, which is generally located on the building’s outside.
  • An air handler unit, the evaporator, is located within the building.

A refrigeration line connects the two units of the heat pump system, which transfers hot or cool air into the house. Because the condenser and air handler are separate components, this system is commonly referred to as a mini split system.

A multi zone ductless air conditioning unit has several indoor units that are spread all across the building and are supplied by a single outdoor unit.

The Difference Between a Ductless Mini Split Heat Pump and a Furnace

The main difference is that furnaces create heat by burning fuel, such as oil, gas, or propane, whereas heat pumps generate heat by utilizing electricity.

If you live in a region where electric power is reasonably priced, you might consider installing a heat pump as a new heat source. They are ideal alternatives to furnaces and air conditioners since they can provide cold air in hot times.

High efficiency heat pumps also dehumidify better than ordinary central air conditioners, resulting in lower energy consumption and greater cooling comfort throughout the summer season. They may be utilized in sub-zero temperatures thanks to recent improvements.

How Air Source Heat Pumps Work

Take a look at your refrigerator or freezer to see how this works. It transfers heat from the inside of the box to the exterior. A thermostat within the box maintains a constant temperature, and when the box becomes too warm, it begins to pump heat out of the box. When the box cools and reaches the temperature selected, the pumping stops until the interior heats up again.

During the summertime, your heat pump in cooling mode utilizes R-410A, a refrigerant to remove hot air from your home and discharge that heat into the outside air. In the winter, it works like a reversed air conditioner. In ductless systems the refrigerant absorbs heat from the outside air and transfers it to your home.

This heat is transferred by the refrigerant line to the indoor unit, which then distributes it to the air inside your house via a fan within the interior unit. Heat pumps are indeed very energy efficient heat sources. They transfer heat rather than generate it. In fact, when compared to electric resistance heating such as furnaces or baseboard heaters, a heat pump may cut your power consumption by half.

In recent years, the space cooling demands of the construction industry needed roughly 15% of the energy utilized for heating, generating about 1 billion metric tons of CO2 from electricity consumption. Meanwhile, space cooling is growing fast and is expected to grow even more in the coming decades. For the next three decades, cooling demand is predicted to grow at a rate of more than 3% every year, which would be eight times faster than heating demand in the past 30 years.

The rise in space air conditioning cooling demands is being driven by a number of causes. In South East Asia, air conditioner ownership rates vary from 75% to 85% among high-income urban families, compared to 5% or less in low-income rural households. Air conditioner ownership in the United States and Australia exceeds 90%, whereas it is less than 10% in India, Indonesia, and near to 20% in Brazil.

Despite the fact that 35% of the world’s population lives in countries where it is extremely hot nearly each and every day, just 15 percent of the world’s population owns an air conditioner. The rate of ownership is predicted to climb to 60 percent by 2050 and 70 % by 2070 as a result of improving living standards, climate change, attempts to improve access to essential energy services, and lowering prices of ductless air conditioning.

Prioritizing solutions focused on heating, cooling, or both will assist the building sector’s decarbonization. Ductless heat pump technology may be used in a wide range of climates and can be configured to offer both heating and cooling. Heat pumps are currently required for heating and cooling by one-third of the world’s population. Promoting the adoption of high efficiency HVAC equipment, as well as innovation, will be critical to meeting global decarbonization targets.

Despite their rising popularity, the vast majority of mini split heat pumps sold today are solely utilized for cooling. The average performance of an air conditioner and heat pump system would increase by more than 50% by 2030 and nearly double by the year 2070. Without such efficiency improvements in ductless systems, according to research, electricity consumption for cooling may almost triple by 2070.

An estimated 33% of homes globally have both heating and cooling requirements, however this figure may be as high as 78% in Europe, 56% in North America (the Unites States and Canada combined), and over 80% in China. It is essential in these locations that technology is developed to achieve decarbonization goals.

Government incentives provide an opportunity to encourage the adoption of more energy efficient ductless mini split system technology. The Canada Greener Homes Grant or the European Next Generation EU are promoting energy efficient air source heat pumps, the use of local resources, and battle against climate change, which is projected to boost the use of heat pumps and other solutions using renewable heat sources in new construction and renovation projects.

Whether you use natural gas, propane, or heating oil for your boiler and furnace, this winter might be quite expensive. Depending on the fuel you use and where you live, you may be able to reduce your heating expenses by installing a modern HVAC equipment. You can save money with heat pumps.

Prices are rising and will most certainly continue to rise. The cost of heating fuels such as propane, natural gas, and heating oil is expected to rise by at least 33%.

Rising energy prices reflect a worldwide energy crunch, as recovering economies struggle to scale up their output quickly enough after delaying capital investments.

Extreme weather patterns have also resulted in relatively low renewable energy generation in certain places, aggravating the shortages. If you’re concerned about your winter heating bills, there may be more you can do to protect yourself. Blocking up poorly insulated places and replacing your furnace filter won’t do much for you.

Ductless heat pumps are getting a lot of attention these days. They are prevalent in European houses, and an increasing number of Canadian homeowners are deciding to install this highly efficient heating option as well.

The question is, how much money can they actually save? An electrically heated house saves 50-60% on average. The calculation is simple: an electric baseboard provides 1 kWh of heat for every kWh of electricity consumed. A heat pump produces 3 kWh of heat for every kWh of electricity consumed.

Heat pumps use electricity to operate. They are far more efficient than the electric resistance heating systems, that most households are familiar with, such as space heaters and baseboard heating. These systems

Heat pumps redistribute heat that is already present in the outside rather than immediately turning electrical energy into heat. Heat pumps warm hour home without using electric resistance heating or converting heat from fossil fuels through combustion.

When comparing oil, gas, or wood heating sources, the age and thus efficiency of the furnace must be taken into account. Other house specific factors that influence expected energy savings are the energy rating of the heat pump, the size of the home, wall insulation, room temperature settings, occupancy, and the layout of the house.

According to a study of air to air (A2A) heat pumps in Canadian cities, replacing an oil or gas furnace can provide households with energy savings anywhere between 57 to 81 percent. This is remarkably significant, and it’s no wonder that more and more people are looking for houses that have these features.

Heat pumps are a tested technology that can be installed in a single day. They work well as a supplement to electric baseboard heaters or existing oil or gas furnaces. To supplement hydronic heating systems, wood stoves, or electric baseboard heaters, you might consider a wall-mounted mini split unit.

When compared to other kinds of heating, installing a heat pump is very affordable. While your monthly energy bill is instantly lowered, it takes an average of 1-5 years to return the initial investment cost, depending on the size and use of the system.

Technological improvements in recent years have resulted in the development of cold climate air source heat pumps. They use R-410A refrigerant to transfer heat from the outside (even at -30°C air has a heat content) inside your house. This means that free heat energy is harvested right at your home. Heat pumps save money because they produce more heat energy than they consume: 1 kWh of electric power is converted into 3 kWh of heat.

Unlike furnaces, which require central ductwork, and boilers, which distribute heat through radiators; ductless heat pumps can be simply integrated into your home. Ductless heat pumps require minimal amount of outside area for the compressor and short copper pipe connections to the indoor units (also known as evaporators) that provide heating or cooling to each room.

Ductless heat pumps are a popular choice among consumers since they eliminate losses caused by ducting and can serve specific areas of the home. Furthermore, your home does not need to be connected to a natural gas pipeline in order to have access to low-cost heating.

They have the potential to minimize your carbon footprint. As we transition to a cleaner electric grid, powering the heating industry will be critical to reduce emissions. Heat pumps have the potential to completely decarbonize heating energy usage in the residential and commercial building sectors when combined with renewable technologies such as solar or wind.

For the first time, you may keep your apartment warm this winter guilt-free by not using fossil fuels. Heat pumps might just be the best option for you.

Is Ductless Heating and Cooling Right for You? Installing ductless mini-split heat pumps is a great decision if your current heating system is old and needs to be replaced. If you want to supplement your existing HVAC system with a more efficient alternative, go ductless.

Your home is one of the biggest investments you can make. But that doesn’t mean you want to pour money into it unless it’ll pay off or improve your living conditions. With that in mind, let’s take a closer look at a home energy retrofit program and how adding a new Bosch residential heat pump might actually not cost you as much as you think.

What is a heat pump?

Let’s keep this super simple. A heat pump is part of the HVAC family. It can be used to heat or cool individual areas of your home. And while it might sound counterintuitive to call it a heat pump, the name is a reflection of what the system does.

Long story short, the heat pump pulls in warm air from outside and distributes it indoors in the winter. But, in the summer, it works in reverse by pulling warm air from inside and pumping it out of your home to keep you cool.

Heat pump vs. furnace

While they both do the same thing in colder months of the year, there are a few key differences between these two systems, including:

  • Furnaces are usually larger and take up a bit more space to accommodate for needing a bigger system to generate heat — unlike a heat pump which draws heat in from the outdoors
  • Heat pumps can heat and cool your home, so it’s two systems in one
  • Furnaces are centralized and need proper a proper duct system throughout the home to operate effectively
  • Heat pumps are more energy efficient

Now that the basics are covered, let’s dive into the Canada Greener Homes Grant and how you can get a heat pump government rebate.

How to get Government of Canada rebates for home renovations

Upgrading your home isn’t cheap. Sure, there are cheap renovations to increase your home value and retrofit solutions that make an impact. But a retrofit and some cosmetic remodelling of your home are a bit different from each other.

We know that remodelling covers just about any type of simple home renovation… but what does retrofit mean? Well, it usually means that you’ve left DIY territory. A retrofit usually refers to improving a main system in your home. They require a professional to handle the assessment and installation of energy-efficient upgrades. And if you’re thinking, “how can I get free money from the Canadian Government for retrofit solutions,” luckily, there’s a home renovation grant for that.

The Canada Greener Homes Grant is the most recent of Canada’s energy efficiency programs and was created to give back up to $5,000 (plus $600 in some cases) to homeowners across the country who make their homes more efficient. But what exactly does that mean? Well, it’s not as intimidating as it seems. There are a few steps to follow. Just keep in mind that you won’t really be able to DIY this one yourself. It requires:

  • An inspection/green home energy audit to evaluate your home’s current efficiency
  • Official recommendations that you can follow
  • Installation of at least one of the eligible recommendations (like Bosch climate 5000 installations)
  • And finally, a follow-up inspection/green home energy audit to see if your home’s efficiency has improved

Naturally, this is a more serious job, so you wouldn’t want to give this a try yourself and risk not qualifying for the rebate. For example, Bosch Climate 5000 installation isn’t something YouTube can guide you through. It requires a professional with experience and qualified equipment to get the job done right. So if you’re thinking about upgrading your home’s HVAC to cash in on the energy efficiency retrofit program, better look into hiring a professional.

Why choose Bosch thermotechnology?

Well, owning a Bosch is always a good decision because it’s among the best and most efficient heat pump manufacturers available today. With quality design and a 10-year Bosch warranty, and now it’s part of the Canada energy savings rebate program, it’s hard to think of a better option when applying for a heat pump government rebate. After all, you want to make sure you have the best heating and cooling system when it comes to retrofitting your home’s HVAC. But here’s a few more reasons.

Air handler unit that’s whisper quiet

One negative in the heat pump vs furnace debate has been that furnaces are generally quieter. But technology has come a long way in a short time. For example, the Bosch climate 5000 specs for the air handler states that it won’t get louder than about 20 dB — that’s as quiet as a whisper or some rustling leaves. Hard to chalk that up to being too noisy.

High efficiency heat pump

Another big positive to come out of the Bosch Climate 5000 reviews is that it’s very energy efficient. Besides a low SEER rating, this system was made to outperform other heating and cooling options. The reason is that these air handlers are best suited for spot heating and cooling — so less energy is wasted. And that means you can enjoy the benefits of Canada energy efficiency rebates as well as comfortable temperatures and lower monthly bills.

When someone gives you the keys to your new home, it rarely comes with a manual or resource for troubleshooting all the little issues you might face. That’s where the internet can help. When it comes to issues with your heating and cooling, here are just a few of the most common frequently asked ductless heat pump questions we’ve heard over the years, along with our advice.

Do I Really Need Maintenance And How Often?

The simple answer here is yes. You do need maintenance. Book a technician no more than once every year or two based on how often you use your heat pump.

Frequently Asked Ductless Heat Pump Questions:

Is There Any Maintenance I Should Be Doing?

Yes. We’ve compiled a list of 3-4 basic things you can be doing during the year to get the most out of your heat pump. From basic things like keeping the indoor and outdoor units free from blockages to more hands-on maintenance like cleaning your air filter every couple of months or thawing any ice build-up, you can view these in a previous blog or give us a call.

Frequently Asked Ductless Heat Pump Questions:

Is 1 Ductless Heat Pump Enough For My Home?

The answer here comes down to what your needs are. Larger homes often need more than 1 indoor unit to distribute warm or cool air. Average sized homes can be quite comfortable with a single well-placed unit that keeps you comfortable year-round.

Frequently Asked Ductless Heat Pump Questions:

Should I Switch To A Ductless Heat Pump?

This again is based on your needs. Older homes with established ductwork for a furnace or baseboards for a boiler can be compatible with a heat pump. Heat pumps are great to give you that bit of a boost on, especially hot or cold days. Also, if there is a common area of your home that is cooler or warmer than others, placing a heat pump there could help regulate that room and give your central system a break.

Rather than heat or cool the entire home, heat pumps work by concentrating on a given area of the home. Smaller homes might place them in an open living room to distribute heating and cooling to the rest of the house, while larger homes might use a heat pump to regulate a specific room. It’s all up to you!

Frequently Asked Heat Pump Questions:

Are Ductless Heat Pumps Really Quieter?

Yes, they are. Unlike a furnace that might sound prominent as it turns on and pushes air throughout your home, a heat pump is noticeably quieter. It doesn’t need to run as hard as a furnace since it only works to heat or cool a given area. Often, homeowners will have it installed right outside a living room without ever needing to adjust the volume on their TV when relaxing.

Didn’t Find The Answer In Our Frequently Asked Ductless Heat Pump Questions?

No problem, just give our experts a call at 416-921-0000. We have more than 30 years of experience, so diagnosing an issue over the phone or dispatching a technician won’t be a problem.

Your home is your sanctuary and that should mean peace and quiet. However, some air conditioning or heating can be quite loud and borderline obnoxious. So what do you do? When the time comes to find a replacement, consider quiet heating and cooling options like ductless heat pumps.

Built For Silence: Quiet Heating And Cooling

Ductless heat pumps go by a few different names including mini-split and ductless heating and cooling. They are designed to be quiet, both inside and out. They consist of only a few main components: an indoor unit and an outdoor compressor.

The indoor unit is subtle in its design and is usually placed in a common part of the home. Living rooms, bedrooms, and sometimes hallways are good spots but it does depend on the layout of your home. A professional should be able to make recommendations on the best spot to install this quiet heating and cooling option based on your needs. Often one or two indoor units are enough to comfortably heat or cool your living space. The best part is, you’ll forget that it’s on. So no turning up the volume on the TV or raising your voice mid-conversation. Just sit back and enjoy a warm house in the winter and cool one in the summer.

The outdoor compressor can run up to 3 indoor units. You’d think that this means more power and noise, but it’s actually the opposite. An outdoor compressor can be installed just on the other side of a window because of how quiet it can be. That means you can sleep soundly at night without the roaring of an air conditioner or furnace.

Leave The Installation Of Your Quiet Heating And Cooling To The Professionals

At Novel Care, we’ve been helping Toronto and the GTA with their quiet heating and cooling options for more than 30 years now. The biggest problem we face is when a homeowner hired the wrong person to handle the initial installation. Poorly installed units create all sorts of issues that can shave years off a brand new ductless heat pump. We always recommend calling a professional to help. Give us a call at 416-921-0000 to get started. Our dedicated team will take the time to answer questions and dispatch a professional to assess your home before making recommendations. We want you to feel comfortable and find the right, quiet, heating and cooling solution you need.

Space and cost are always concerns for any homeowner in Toronto and the GTA. Between energy bills, Internet, phone, and other expenses, it can be hard to stay afloat. If you’re thinking about switching up how your home is heated in an effort to save money, then you may be onto something.

Heat Pumps In Toronto Make Sense

With more and more condos being established, not to mention older homes being used by multiple tenants, using heat pumps in Toronto can be a great way to cut down on energy costs. You see, heat pumps are known for their energy efficiency and spot cooling effects. They pull air in from outside, condense it, and distribute it indoors to either heat or cool a given area of a home. This controls energy costs since every room in the home isn’t being heated or cooled.

If you have an older home that may not have the necessary ductwork for a furnace or central air conditioning unit, this would be a great solution. The installation alone would be much more affordable than the alternative, not to mention the savings in energy each month. When paired with a well insulated home, heat pumps in Toronto can be the best investment for heating and cooling your space.

Novel Care Installs, Maintains, And Repairs Heat Pumps In Toronto

Handling heat pumps in Toronto and the GTA efficiently is why Novel Care has been established as a trusted HVAC establishment for more than 30 years now. Our technicians have seen it all, so rest assured we’ve got the experience to handle repairs, installations and regular maintenance. We’re even available for emergency calls, so you never have to worry when things stop working in the middle of the night. Just call 416-921-0000 and someone will gladly be there to ask the right questions and dispatch someone as quick as possible (usually within hours in emergency scenarios). Once dispatched, a technician can assess the situation, and provide you with suitable recommendations, as well as answer any questions you have to ensure you’re fully informed before making a decision. After all, you should feel confident in your next move when it comes to your HVAC needs. Give us a call today and let’s work together to see if heat pumps in Toronto really is the best option for your home’s heating and cooling needs.