High Efficiency Furnaces

Items 1 to 5 of 5 total

BRAND: Goodman

ID: #HE201-3016
  • Model: GMSS920402BN
  • Voltage: 115 Volts 1ph
  • Upflow/Horizontal
AFUE: 92.0%; Configuration: Upflow/Horizontal; BtuH Input: 40,000; BtuH Output: 36,840; Nom. CFM: 800; CFM @ 0.5" ESP: 1,227; Min. Circuit Amps: 9.6; Vent Size: 2"-3";...
SKU:
GMSS920402BN
Vendor:
Goodman
Type:
Gas Furnace
Availability:
Out-Stock

BRAND: Goodman

ID: #HE201-3024
  • Model: GCSS920402BN
  • Voltage: 115 Volts 1ph
  • Downflow/Horizontal
AFUE: 92.0%; Configuration: Downflow/Horizontal; BtuH Input: 40,000; BtuH Output: 36,840; Nom. CFM: 800; CFM @ 0.5" ESP: 1,106; Min. Circuit Amps: 9.6; Vent Size: 2"-3";...
SKU:
GCSS920402BN
Vendor:
Goodman
Type:
Gas Furnace
Availability:
Out-Stock

BRAND: Goodman

ID: #HE201-3008
  • Model: GCSS960402BN
  • Voltage: 115 Volts 1ph
  • Downflow/Horizontal
AFUE: 96.0%; Configuration: Downflow/Horizontal; BtuH Input: 40,000; BtuH Output: 38,400; Nom. CFM: 800; CFM @ 0.5" ESP: 1,138; Min. Circuit Amps: 9.6; Vent Size: 2"-3";...
SKU:
GCSS960402BN
Vendor:
Goodman
Type:
Gas Furnace
Availability:
Out-Stock

BRAND: Goodman

ID: #HE201-3001
  • Model: GMSS960402BN
  • Voltage: 115 Volts 1ph
  • Upflow/Horizontal 
AFUE: 96.0%; Configuration: Upflow/Horizontal; BtuH Input: 40,000; BtuH Output: 38,400; Nom. CFM: 800; CFM @ 0.5" ESP: 1,208; Min. Circuit Amps: 9.6; Vent Size: 2"-3";...
SKU:
GMSS960402BN
Vendor:
Goodman
Type:
Gas Furnace
Availability:
Out-Stock

BRAND: Goodman

ID: #HE201-2025
  • Model: GMEC960402BN
  • Voltage: 115 Volts 1ph
  • Upflow/Horizontal 
AFUE: 96.0%; Configuration: Upflow/Horizontal; BtuH Input: 40,000; BtuH Output: 38,400; Nom. CFM: 800; CFM @ 0.5" ESP: 946; Min. Circuit Amps: 8.0; Vent Size: 2"-3";...
SKU:
GMEC960402BN
Vendor:
Goodman
Type:
Gas Furnace
Availability:
Out-Stock

High Efficiency Furnaces: The Future of Home Heating

When it comes to home heating, the importance of efficiency cannot be overstated. With the rise of energy costs and an increasing focus on environmental sustainability, high efficiency furnaces are becoming a must-have for homeowners. These advanced systems not only keep your home warm but also do so in a way that reduces energy consumption and lowers your utility bills. Let’s explore why investing in a high efficiency furnace is a smart choice and how modern HVAC technologies like geothermal heat pumps and inverter compressors play a pivotal role.

Why Choose a High Efficiency Furnace?

High efficiency furnaces are designed to convert a greater percentage of fuel into usable heat compared to traditional models. This means less energy waste, which translates to cost savings for you. But the benefits don't stop there. By using less fuel, these furnaces also reduce greenhouse gas emissions, making them a more environmentally friendly option.

The Role of HVAC in Modern Home Comfort

HVAC systems, which stand for Heating, Ventilation, and Air Conditioning, are essential for maintaining a comfortable indoor environment. A high efficiency furnace is a critical component of any modern HVAC system, ensuring that your home stays warm in the winter without breaking the bank. By integrating advanced technologies such as inverter compressors, these systems can operate more smoothly and efficiently, adjusting their output based on the exact needs of your home.

The Benefits of Geothermal Heat Pumps

One of the most exciting advancements in HVAC technology is the geothermal heat pump. Unlike traditional furnaces that rely on burning fossil fuels, geothermal systems harness the stable temperatures found underground to heat and cool your home. When paired with a high efficiency furnace, a geothermal heat pump can significantly reduce your reliance on non-renewable energy sources, further lowering your environmental impact.

Inverter Compressors: Precision Heating at Its Best

Inverter compressors are another key feature of high efficiency HVAC systems. Unlike traditional compressors that operate at full capacity until the desired temperature is reached, inverter compressors adjust their speed to maintain a consistent temperature. This not only enhances comfort by eliminating temperature fluctuations but also increases energy efficiency by using only the power necessary to maintain the desired conditions.

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