Both heat pumps provide heating and cooling. The main difference lies in the area they can cover. A wall-mounted (ductless) heat pump is installed directly on the wall and is ideal for heating or cooling a single room or open space. A central heat pump, on the other hand, distributes air through ventilation ducts, making it suitable for heating and cooling the entire home. Since ducts need to be installed beforehand, central systems are often chosen for new constructions.

By installing an energy-efficient heat pump, you can expect significant savings on your energy bills. Heat pumps are highly efficient because they use the free energy from outdoor air to heat or cool your home. Compared to traditional heating and cooling systems, they can greatly reduce energy consumption, providing savings year-round. Choosing a renewable energy solution also helps lower your carbon footprint and contributes to environmental protection.

To size your heat pump properly, you need to consider the size of the room or home you want to heat or cool, as well as local climate conditions. A general rule of thumb is to allow about 10 to 15 BTU/h per square foot of living space. However, other factors such as insulation quality, number of windows, sun exposure, and number of occupants will also affect the required BTU/h. For an accurate assessment, it's best to consult an HVAC professional.

Heat pumps are designed to withstand harsh winter conditions. During the colder months, make sure that no ice builds up inside the unit and that there is enough clearance around it to allow proper airflow. Regular inspections by a professional will also help maintain efficiency and prevent breakdowns.

Since warm air naturally rises, the louvers of your wall-mounted unit should be directed downward when heating. In cooling mode, point them upward to maximize air distribution and comfort.

SEER, or Seasonal Energy Efficiency Ratio, measures the energy efficiency of an air conditioner or heat pump over an average cooling season. It is calculated by dividing the total cooling output (in BTUs) by the total energy consumed (in kWh). The higher the SEER rating, the more energy-efficient the system.

HSPF, or Heating Seasonal Performance Factor, measures the heating efficiency of a heat pump during an average heating season. It is calculated by dividing the total heating output (in BTUs) by the total electricity consumed (in kWh) over the season. Just like SEER, a higher HSPF indicates a more energy-efficient system.

Both heat pumps provide heating and cooling. The main difference lies in the area they can cover. A wall-mounted (ductless) heat pump is installed directly on the wall and is ideal for heating or cooling a single room or open space. A central heat pump, on the other hand, distributes air through ventilation ducts, making it suitable for heating and cooling the entire home. Since ducts need to be installed beforehand, central systems are often chosen for new constructions.

By installing an energy-efficient heat pump, you can expect significant savings on your energy bills. Heat pumps are highly efficient because they use the free energy from outdoor air to heat or cool your home. Compared to traditional heating and cooling systems, they can greatly reduce energy consumption, providing savings year-round. Choosing a renewable energy solution also helps lower your carbon footprint and contributes to environmental protection.

To size your heat pump properly, you need to consider the size of the room or home you want to heat or cool, as well as local climate conditions. A general rule of thumb is to allow about 10 to 15 BTU/h per square foot of living space. However, other factors such as insulation quality, number of windows, sun exposure, and number of occupants will also affect the required BTU/h. For an accurate assessment, it's best to consult an HVAC professional.

SEER, or Seasonal Energy Efficiency Ratio, measures the energy efficiency of an air conditioner or heat pump over an average cooling season. It is calculated by dividing the total cooling output (in BTUs) by the total energy consumed (in kWh). The higher the SEER rating, the more energy-efficient the system.

HSPF, or Heating Seasonal Performance Factor, measures the heating efficiency of a heat pump during an average heating season. It is calculated by dividing the total heating output (in BTUs) by the total electricity consumed (in kWh) over the season. Just like SEER, a higher HSPF indicates a more energy-efficient system.

If your heat pump is unusually noisy, it's important to pay attention to potential causes. Excessive noise can result from worn or damaged internal components such as the compressor or fans, which may create vibrations or squeaking sounds. Blocked air ducts or damaged fan blades can also lead to abnormal noises. Additionally, poor maintenance or lack of lubrication of moving parts may contribute to the issue. We recommend contacting a qualified technician to diagnose the problem and perform any necessary repairs to ensure your heat pump operates smoothly and quietly.

To size your heat pump properly, you need to consider the size of the room or home you want to heat or cool, as well as local climate conditions. A general rule of thumb is to allow about 10 to 15 BTU/h per square foot of living space. However, other factors such as insulation quality, number of windows, sun exposure, and number of occupants will also affect the required BTU/h. For an accurate assessment, it's best to consult an HVAC professional.

Heat pumps are designed to withstand harsh winter conditions. During the colder months, make sure that no ice builds up inside the unit and that there is enough clearance around it to allow proper airflow. Regular inspections by a professional will also help maintain efficiency and prevent breakdowns.

It is generally recommended to keep your ventilation fan at maximum speed, especially in cooling mode, to prevent water damage and ensure proper air circulation.

Since warm air naturally rises, the louvers of your wall-mounted unit should be directed downward when heating. In cooling mode, point them upward to maximize air distribution and comfort.

The British Thermal Unit (BTU) is an Anglo-Saxon unit of energy defined as the amount of heat required to raise the temperature of one pound of water by one degree Fahrenheit. In HVAC, BTUs are commonly used to describe the heating or cooling capacity of an air conditioner or heat pump.

SEER, or Seasonal Energy Efficiency Ratio, measures the energy efficiency of an air conditioner or heat pump over an average cooling season. It is calculated by dividing the total cooling output (in BTUs) by the total energy consumed (in kWh). The higher the SEER rating, the more energy-efficient the system.

HSPF, or Heating Seasonal Performance Factor, measures the heating efficiency of a heat pump during an average heating season. It is calculated by dividing the total heating output (in BTUs) by the total electricity consumed (in kWh) over the season. Just like SEER, a higher HSPF indicates a more energy-efficient system.