What Is a Heat Pump? | How Does a Heat Pump Work? | Carrier (2024)

What Types of Heat Pumps Are There?

The two most common types of heat pumps are air-source and ground-source. Air-source heat pumps transfer heat between indoor air and outdoor air, and are more popular for residential heating and cooling.

Ground-source heat pumps, sometimes called geothermal heat pumps, transfer heat between the air inside your home and the ground outside. These are more expensive to install but are typically more efficient and have a lower operating cost due to the consistency of the ground temperature throughout the year.

HOW DOES A HEAT PUMP WORK?

How does a heat pump work? Heat pumps transfer heat from one place to another by different air or heat sources. Air source heat pumps move heat between the air inside a home and the air outside a home, while ground source heat pumps (known as geothermal heat pumps) transfer heat between the air inside a home and the ground outside a home. We will focus on air source heat pumps, but the basic operation is the same for both.

HEAT PUMP BASICS

Despite the name, heat pumps do not generate heat – they move heat from one place to another. A furnace creates heat that is distributed throughout a home, but a heat pump absorbs heat energy from the outside air (even in cold temperatures) and transfers it to the indoor air. When in cooling mode a heat pump and an air conditioner are functionally identical, absorbing heat from the indoor air and releasing it through the outdoor unit. Click here for more information about heat pumps vs air conditioners.

When considering which type of system is best for your home, several important factors should be considered, including the size of the home and the local climate. A local Carrier dealer has the expertise to properly evaluate your specific needs and help you make the right decision.

Where Do Heat Pumps Work Best?

Homeowners in need of a new heating or cooling system, may consider the type of climate they live in before purchasing a heat pump system. Heat pumps are more common in milder climates, where the temperature does not typically drop below freezing. In colder regions, they can also be combined with furnaces for energy-efficient heating on all but the coldest days. When the temperature outside drops too low for the heat pump to operate effectively, the system will instead use the furnace to generate heat. This kind of system is often called a dual fuel system – it is very energy efficient and cost effective.

IMPORTANT COMPONENTS OF A HEAT PUMP SYSTEM

A typical air source heat pump system consists of two major components, an outdoor unit (which looks just like the outdoor unit of a split-system air conditioning system) and an indoor air handler unit. Both the indoor and outdoor unit contain various important sub-components.

OUTDOOR UNIT

The outdoor unit contains a coil and a fan. The coil operates as either a condenser (in cooling mode) or an evaporator (in heating mode). The fan blows outside air over the coil to facilitate the heat exchange.

INDOOR UNIT

Like the outdoor unit, the indoor unit, commonly referred to as the air handler unit, contains a coil and a fan. The coil acts as an evaporator (in cooling mode) or a condenser (in heating mode). The fan is responsible for moving air across the coil and throughout the ducts in the home.

REFRIGERANT

The refrigerant is the substance that absorbs and rejects heat as it circulates throughout the heat pump system.

COMPRESSOR

The compressor pressurizes the refrigerant and moves it throughout the system.

REVERSING VALVE

The part of the heat pump system that reverses the flow of refrigerant, allowing the system to operate in the opposite direction and switch between heating and cooling.

EXPANSION VALVE

The expansion valve acts as a metering device, regulating the flow of the refrigerant as it passes through the system, allowing for a reduction of pressure and temperature of the refrigerant.

HOW DOES A HEAT PUMP COOL AND HEAT?

Heat pumps do not create heat. They redistribute heat from the air or ground and use a refrigerant that circulates between the indoor fan coil (air handler) unit and the outdoor compressor to transfer the heat.

In cooling mode, a heat pump absorbs heat inside your home and releases it outdoors. In heating mode, the heat pump absorbs heat from the ground or outside air (even cold air) and releases it indoors.

HOW A HEAT PUMP WORKS - COOLING MODE

One of the most important things to understand about heat pump operation and the process of transferring heat is that heat energy naturally wants to move to areas with lower temperatures and less pressure. Heat pumps rely on this physical property, putting heat in contact with cooler, lower pressure environments so that the heat can naturally transfer. This is how a heat pump works.

What Is a Heat Pump? | How Does a Heat Pump Work? | Carrier (1)

STEP 1

Liquid refrigerant is pumped through an expansion device at the indoor coil, which is functioning as the evaporator. Air from inside the house is blown across the coils, where heat energy is absorbed by the refrigerant. The resulting cool air is blown throughout the home’s ducts. The process of absorbing the heat energy has caused the liquid refrigerant to heat up and evaporate into gas form.

STEP 2

The gaseous refrigerant now passes through a compressor, which pressurizes the gas. The process of pressurizing the gas causes it to heat up (a physical property of compressed gases). The hot, pressurized refrigerant moves through the system to the coil in the outdoor unit.

STEP 3

A fan in the outdoor unit moves outside air across the coils, which are serving as condenser coils in cooling mode. Because the air outside the home is cooler than the hot compressed gas refrigerant in the coil, heat is transferred from the refrigerant to the outside air. During this process, the refrigerant condenses back to a liquid state as it cools. The warm liquid refrigerant is pumped through the system to the expansion valve at the indoor units.

STEP 4

The expansion valve reduces the pressure of the warm liquid refrigerant, which cools it significantly. At this point, the refrigerant is in a cool, liquid state and ready to be pumped back to the evaporator coil in the indoor unit to begin the cycle again.

HOW A HEAT PUMP WORKS - HEATING MODE

A Heat pump in heating mode operates just like cooling mode, except that the flow of refrigerant is reversed by the aptly named reversing valve. The flow reversal means that the heating source becomes the outside air (even when outdoor temperatures are low) and the heat energy is released inside the home. The outside coil now has the function of an evaporator, and the indoor coil now has the role of the condenser.

The physics of the process are the same. Heat energy is absorbed in the outdoor unit by cool liquid refrigerant, turning it into cold gas. Pressure is then applied to the cold gas, turning it to hot gas. The hot gas is cooled in the indoor unit by passing air, heating the air and condensing the gas to warm liquid. The warm liquid is relieved of pressure as it enters the outdoor unit, turning it to cool liquid and renewing the cycle.

Heat Pump Installation

Installing a heat pump can be a complex task, requiring a thorough understanding of HVAC systems and electrical connections. The intricate nature of the installation process emphasizes the importance of having an expert handle the job. Your local Carrier expert possess the knowledge, experience, and expertise necessary to ensure a seamless and efficient installation. From assessing the specific heating and cooling requirements of a space to correctly sizing and positioning the heat pump, they meticulously plan and execute the installation, considering factors such as ductwork, electrical compatibility, and optimal placement. Entrusting the installation to a Carrier expert ensures not only a properly functioning heat pump but also peace of mind, knowing that the system has been installed with precision and adherence to safety standards.

What Is a Heat Pump? | How Does a Heat Pump Work? | Carrier (2)

HOW A HEAT PUMP WORKS – REVIEW

Heat pumps are versatile, efficient cooling and heating systems. Thanks to a reversing valve, a heat pump can change the flow of refrigerant and either heat or cool a home. Air is blown over an evaporator coil, transferring heat energy from the air to the refrigerant. That heat energy is circulated in the refrigerant to a condenser coil, where it is released as a fan blows air across the coil. Through this process, heat is pumped from one place to another.

Click here to learn more onductless mini splitand our ductless heat pumpsolutions

A local Carrier HVAC expert can help evaluate your heating and cooling requirements and recommend the proper heat pump system.

What Is a Heat Pump? | How Does a Heat Pump Work? | Carrier (2024)

FAQs

What Is a Heat Pump? | How Does a Heat Pump Work? | Carrier? ›

Heat pumps transfer heat from one place to another by different air or heat sources. Air source heat pumps move heat between the air inside a home and the air outside a home, while ground source heat pumps (known as geothermal heat pumps) transfer heat between the air inside a home and the ground outside a home.

What is the downside to a heat pump? ›

What are the disadvantages of a heat pump? While heat pumps are highly efficient and versatile, some concerns include their performance in extremely cold temperatures and reliance on electricity.

What is a heat pump and how does it work? ›

A heat pump extracts heat from the cold outside air and transfers it inside our home. To this end, a compressor inside the device uses electricity to increase the temperature of the heat extracted from the outside air. The heat pump can also provide cooling by transferring warm indoor air to the outside.

What is the major problem of a heat pump? ›

Some common reasons include a malfunctioning thermostat, a refrigerant leak, or a faulty compressor. When a heat pump runs non-stop, it not only places unnecessary stress on the unit but also leads to inefficient operation and increased energy consumption.

At what temperature is a heat pump useless? ›

Heat pumps do not operate as efficiently when temperatures drop to between 25 and 40 degrees Fahrenheit for most systems. A heat pump works best when the temperature is above 40. Once outdoor temperatures drop to 40 degrees, heat pumps start losing efficiency, and they consume more energy to do their jobs.

What is the downfall of heat pumps? ›

Here are the cons of heating and cooling your home with a heat pump: Higher installation cost: Because heat pumps are more complex, they cost more to purchase and install than a comparable air conditioner. However, you may save money compared to replacing an AC unit and furnace at the same time.

Why do people not like heat pumps? ›

Heat pumps loose their effectiveness (not to be confused with their efficiency) the colder it gets outside forcing you to either use the electric heat or stay cold. Systems that are designed poorly so the ductwork is too small resulting in a lot of air noise and drafts that is not as warm.

Does a heat pump use a lot of electricity? ›

On average, an air-source heat pump uses anywhere from 545 watts to 7,500 watts of electricity. The wattage per hour can be calculated by dividing the British Thermal Units (BTUs) needed to heat or cool your home by the SEER for warm months and the Heating Seasonal Performance Factor (HSPF) for cold months.

What is better, a heat pump or an air conditioner? ›

Heat pumps are more energy efficient since they pump out more cool and warm air by volume than the energy it takes to run them. Heat pumps require minimal upkeep and only require twice-a-year maintenance.

Should I turn off my heat pump at night? ›

The heat pump will work to maintain the ideal temperature by cycling on-and-off as needed. In contrast to other systems, such as electric baseboard heating, you should resist the temptation to turn your heat pump down at night, or when you leave the home.

Why are heat pumps not the future? ›

Building infrastructure, natural gas vs. electric rates, and retrofit cost are issues limiting the broader adoption of heat pumps. Installation costs can be higher for existing buildings, where retroactively installing heat pumps can be difficult and require integration with existing systems.

Can a heat pump cool a house in 100 degree weather? ›

Yes! Heat pumps thrive in warmer temperatures. They're pros at removing heat from your home and transferring it outdoors, keeping your home feeling cool and fresh. They also dehumidify your home more effectively than traditional AC.

Why don't contractors like heat pumps? ›

Contractors avoid deploying more heat pumps because of money. I'm told they are too expensive to sell, when a furnace is another, cheaper solution. Additionally, the incentives are diverse in their scope and in some cases daunting to navigate for both contractors and customers.

Should a heat pump run constantly in winter? ›

Heat pumps are designed to constantly run when winter hits and the weather outside gets cold. As temperatures drop below 30 degrees, your home's heat demand matches the production of the heat pump, requiring it to run continuously to move warm air through the home.

What temperature should I set my heat pump in the winter? ›

But why is 68 degrees the best winter thermostat setting? In winter, heat loss through walls, windows, and doors is a significant contributor to energy wastage. At 68 degrees, your heating system provides enough warmth to counteract this heat loss.

Should I turn my heat pump off in extreme cold? ›

People do not need to turn their heat pumps off. Residents should make sure their supplemental home heating systems are on and operating. Set the thermostats to a degree or two lower than heat pumps.

When not to get a heat pump? ›

Heat pumps might struggle in drafty, poorly insulated homes. You might need to upgrade your electrical service to support whole-house electric heating. And it's possible that you'll want to keep (or add) a backup heating system just in case the weather gets so unusually cold that your heat pump can't keep up.

Is a heat pump really worth it? ›

Heat pumps are good for the world—and in many cases, for your wallet, too. They're the most energy-efficient way to handle both heating and cooling for your home; they also tend to be the most affordable choice in the long term as well, once you factor in tax credits and incentives as well as decreased utility bills.

What is the life expectancy of a heat pump? ›

The life expectancy of a heat pump depends on several factors, such as the type of heat pump, your location, and how well the heat pump is maintained. Heat pumps normally last an average of 15 years, though some can wear out after a decade. Some of the newer units being manufactured today can last a bit longer.

Why are heat pumps not used more? ›

There's a kernel of truth here—heat pumps can be less efficient in extreme cold. As the temperature difference between inside and outside increases, a heat pump will have to work harder to gather heat from that outside air and disperse it into the room, so efficiencies drop.

Top Articles
Latest Posts
Article information

Author: Laurine Ryan

Last Updated:

Views: 5870

Rating: 4.7 / 5 (57 voted)

Reviews: 88% of readers found this page helpful

Author information

Name: Laurine Ryan

Birthday: 1994-12-23

Address: Suite 751 871 Lissette Throughway, West Kittie, NH 41603

Phone: +2366831109631

Job: Sales Producer

Hobby: Creative writing, Motor sports, Do it yourself, Skateboarding, Coffee roasting, Calligraphy, Stand-up comedy

Introduction: My name is Laurine Ryan, I am a adorable, fair, graceful, spotless, gorgeous, homely, cooperative person who loves writing and wants to share my knowledge and understanding with you.