bryant 288BNV Heat Pump Owner’s Manual

bryant 288BNV Heat Pump Owner’s Manual

DECARBONIZATION: WORKING TOWARD A CARBON NEUTRAL FUTURE

Our world is constantly evolving, and now, more than ever, there is growing concern over greenhouse gas emissions in our rapidly changing climate. Global leaders are working together to combat this crisis by pushing for optimized energy efficiencies, electrification, and new refrigerants – all part of decarburization.

Reducing reliance on fossil fuels, including natural gas, and increasing reliance on “clean” sources of energy are all parts of the decarbonization equation. For homeowners in cold climates where gas or fuel oil heating dominate the indoor comfort market, going all-electric can be a cause for concern. We get it.

The good news is Bryant has been preparing for these changes for years, and today we are helping clear the air with an innovative solution for keeping people comfortable in rapidly decarbonizing world – Bryant cold climate heat pumps.

WHAT IS A HEAT PUMP AND HOW DOES IT WORK?

A versatile year-round comfort system, a heat pump can both heat and cool your home by extracting heat energy from the surrounding environment and moving it to another location.

• A heat pump system includes an indoor unit, an outdoor unit, and a thermostat.
• In the winter, a heat pump system extracts heat from the outdoor air and moves it inside to provide warmth and comfort.
• In the summer, it operates in reverse, taking heat energy (and some humidity) from indoor air and moving it outside the home – just like a central air conditioner.

However, traditional heat pumps are designed for more mild climates and are not very efficient during extremely cold winter temperatures (below 5° F) and rely upon an auxiliary heating source during those times. Bryant cold climate heat pumps are an option you can warm up to, even in areas with more severe climates historically served by fossil fuel heating systems.

ADVANTAGES OF COLD CLIMATE HEAT PUMPS

In addition to offering efficient performance in cold climates, heat pump technology has evolved over the last 20 years to provide comfort improvements and overall benefits:

Higher energy efficiency – up to 22.0 SEER2 during cooling and up to 10.5 HSPF2 during heating with properly matched equipment

Consistent temperature in the home for greater comfort with fewer up and down swings during use

Enhanced humidity control throughout the year – during both heating and cooling operation

Help reduce a home’s carbon footprint compared to a gas furnace/air conditioner system

Potentially eligible for local utility rebates and federal tax credits based on the Inflation Reduction Act of 2022

Cold climate heat pump technology that allows for installation in all regions and provides warm, energy efficient heating even when it’s below freezing outside with some models operating down to -22° F

WHAT IS AN ENERGY STAR® COLD CLIMATE HEAT PUMP

To be considered an ENERGY STAR® Cold Climate heat pump, the equipment must meet the criteria as outlined below:

Ducted Cold Climate Heat Pump Requirements

• 15.2 SEER2

• 8.1 HSPF 2

• 1.75 COP at 5 o F

• 70% capacity at 5° F (as compared to capacity at 47° F)

• Pass the controls verification procedure*

• 15.2 SEER2

• 8.5 HSPF2

• 1.75COPat5°F

• 70% capacity at 5° F (as compared to capacity at 47° F)

• Pass the controls verification procedure®

• Control Verification Procedure – This procedure is now required for all HVAC manufacturers. We must verify that the reported performance of our heat pumps at 5° F is how the unit will perform in the home with a native control (either a standard thermostat or an Evolution™ Connex™ Control).

WHAT IS A CEE COLD CLIMATE HEAT PUMP

CEE, or the Consortium for Energy Efficiency, is the U.S. and Canadian consortium of gas and electric efficiency program administrators. CEE works to accelerate the development and availability of energy-efficient products and services for lasting public benefit. CEE uses tiers with established performance measures to set a nationally recognized definition of highly efficient products or services. Below are the CEE tiers for highly efficient heat pumps that perform well in cold climates.

CEE   Tier 1 North Heat Pump Lineup (Ducted)

15.2 SEER2/ 10.0 EER2/ 8.1 HSPF2; COP z 1.75/ Cap Ratio 17F/47F z 58%| | Furnace| Fan Coil /AHU
Evolution’^ System| 284ANV| | All Sizes| All Sizes
288BNV•| || 25. 37, 4T|
Preferred’^ Series| 38MURA| | 1.5T*, 2T“, 3T“| 1.5T, 2T, 2.5T, 3T
227T| | Ali Sizes| Ali Sizes
225S| | 2.5T
38MARB| | 1.5T, 2T, 2.5T
Legacy’” Line| 215S| | 2.5T

5F performance data only made available for dual-fuel applications that meet the CEE Tier 1 North Heat Pump criteria. | * Ratings coming soon

CEE Tier 2 North Heat Pump Lineup (Non-Ducted)

High Wall                   Cassette                   Console|
38MPRB                9k, 12k, 18k| |
38MARB      6k, 9k, 12k, 18k, 24k       6k, 9k, 12k, 18k, 24k           12k, 18k, 24k|
| 36k                           48k|
38MG*B                                                 18k, 24k, 30k, 36k, 48k|
38MHRC                 N/A| | |

ADDITIONAL PATHS TO DECARBONIZATION

In addition to cold climate heat pumps, Bryant offers additional paths toward decarburization with our Hybrid Heat® dualfuel system and our Crossover Solution. With these options, homeowners have the power to choose the most efficient heat source for their home at any one time.

Dual-Fuel

Match an existing or new gas furnace with a high-efficiency heat pump. A Bryant Evolution Extreme 24 delivers up to 22 SEER2 cooling and up to 10.5 HSPF2 heating efficiencies with efficient performance down to -15° F exterior temperature.

Crossover Solution

Bryant Crossover Solutions combine the best of both ductless and traditional HVAC technology. his means you get the quiet operation and small footprint of ductless products, with the performance and dual-fuel capability of traditional units at temperatures from -22° F to 122° F.

DOE: COLD CLIMATE HEAT PUMP CHALLENGE

Bryant is participating in the Department of Energy’s Cold Climate Heat Pump Challenge to accelerate the development of cold climate heat pump technologies. To meet the DOE CCHP requirements, a heat pump must maintain 100% capacity at 5° F as it does at 47° F. In addition, qualifying equipment must also be grid interactive and use a refrigerant with a Global Warming Potential (GWP) of no more than 750. Look for more innovations in heat pump technology from Bryant as we support this worthy challenge.

DECARBONIZE WITHOUT COMPROMISE

In cold climates, reliable heating is about more than just comfort – it’s a necessity. While gas furnaces have traditionally been the best option for low outdoor temperatures, innovations in gas-free heating have created new ways to deliver premium performance.

Bryant cold climate heat pumps are a great alternative to traditional gas HVAC systems for cold climates, delivering efficiency and energy savings without compromising comfort.

For further information, please contact:
Bryant.com

©2023 Carrier. All Rights Reserved. A Carrier Company 01-8112-001-01 05/2023

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