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Gigawatt to Ton of Refrigeration Converter

Convert gigawatts to TR with our free online power converter.

Quick Answer

1 Gigawatt = 284345.107154 TR

Formula: Gigawatt × conversion factor = Ton of Refrigeration

Use the calculator below for instant, accurate conversions.

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All conversion formulas on UnitsConverter.io have been verified against NIST (National Institute of Standards and Technology) guidelines and international SI standards. Our calculations are accurate to 10 decimal places for standard conversions and use arbitrary precision arithmetic for astronomical units.

Last verified: February 2026Reviewed by: Sam Mathew, Software Engineer

Gigawatt to Ton of Refrigeration Calculator

How to Use the Gigawatt to Ton of Refrigeration Calculator:

  1. Enter the value you want to convert in the 'From' field (Gigawatt).
  2. The converted value in Ton of Refrigeration will appear automatically in the 'To' field.
  3. Use the dropdown menus to select different units within the Power category.
  4. Click the swap button (⇌) to reverse the conversion direction.
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How to Convert Gigawatt to Ton of Refrigeration: Step-by-Step Guide

Converting Gigawatt to Ton of Refrigeration involves multiplying the value by a specific conversion factor, as shown in the formula below.

Formula:

TR = GW × 284345

Example Calculation:

1 GW = 284345.107154 TR

Disclaimer: For Reference Only

These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.

Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.

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What is a Gigawatt and a Ton of Refrigeration?

1 GW = 1,000,000,000 W = 1,000 MW = 1,000,000 kW = 1,341,022 hp = 3.412 billion BTU/h

1 ton of refrigeration (TR) = 12,000 BTU/h = 3.517 kW = 3,024 kcal/h

Origin: Heat absorbed by melting 1 ton (2,000 lbs) of ice at 32°F in 24 hours

Note: The Gigawatt is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Ton of Refrigeration belongs to the imperial/US customary system.

Common Uses and Applications: gigawatts vs TR

Explore the typical applications for both Gigawatt (imperial/US) and Ton of Refrigeration (imperial/US) to understand their common contexts.

Common Uses for gigawatts

Power Plants: Nuclear reactors, coal plants, large hydro dams (1-3 GW each). National Grids: Total generation capacity for countries/regions. Energy Policy: Renewable energy targets, grid expansion planning. Data Centers: Massive hyperscale facilities (approaching 1 GW).

When to Use TR

Residential AC: Home air conditioning systems (1.5-5 tons typical). Commercial HVAC: Office buildings, retail (10-200 tons per system). Industrial Refrigeration: Cold storage, food processing (50-500+ tons). Chiller Systems: Large building cooling, data centers.

Additional Unit Information

About Gigawatt (GW)

How do I convert GW to MW or kW?

Formula:

  • MW = GW × 1,000
  • kW = GW × 1,000,000
  • W = GW × 1,000,000,000

Examples:

  • 1 GW = 1,000 MW = 1,000,000 kW
  • 2.5 GW = 2,500 MW = 2,500,000 kW
  • 0.5 GW = 500 MW = 500,000 kW

GW to MW converter → GW to kW converter →

How much power is 1.21 gigawatts?

Reference: "Back to the Future" flux capacitor requirement

1.21 GW = 1,210 MW = 1,210,000 kW

Equivalent to:

  • ~1 nuclear reactor at full output
  • ~600 large wind turbines (2 MW each)
  • ~400,000 US homes' average consumption
  • ~1,620,000 horsepower
  • Lightning bolt peak: ~1 TW (1,000 GW) for microseconds, but 1.21 GW sustained is massive

Reality: No practical way to extract 1.21 GW from a lightning bolt (too brief, unpredictable)

How many homes can 1 GW power?

Average US home: ~1.2 kW average draw (30 kWh/day ÷ 24 hours)

1 GW = 1,000,000 kW

Calculation: 1,000,000 kW ÷ 1.2 kW/home ≈ 833,000 homes

Regional variations:

  • Southwest US (high AC use): ~600,000 homes per GW
  • Northeast US: ~700,000-800,000 homes per GW
  • Pacific Northwest: ~900,000-1,000,000 homes per GW

Peak vs average: During peak demand (hot summer afternoon), 1 GW powers fewer homes (~300,000-500,000).

What is the world's largest power plant?

Three Gorges Dam (China): 22.5 GW capacity

  • Type: Hydroelectric
  • Turbines: 34 generators
  • Annual generation: ~100 TWh/year
  • Location: Yangtze River

Other massive plants:

  • Itaipu Dam (Brazil/Paraguay): 14 GW
  • Xiluodu Dam (China): 13.86 GW
  • Belo Monte Dam (Brazil): 11.23 GW
  • Guri Dam (Venezuela): 10.2 GW

Largest nuclear (single site): Kashiwazaki-Kariwa (Japan): 7.97 GW (7 reactors)

How do countries measure their energy capacity?

Installed capacity: Total GW of all power plants (nameplate rating)

Actual generation: Lower than capacity due to:

  • Capacity factor: % of time at full output
  • Maintenance downtime
  • Fuel availability
  • Grid demand

Example - US (2024):

  • Installed capacity: ~1,200 GW
  • Peak demand: ~740 GW (summer)
  • Average demand: ~450 GW

Capacity factor by source:

  • Nuclear: 90-95% (runs constantly)
  • Coal: 40-60%
  • Natural gas: 30-60%
  • Wind: 25-45%
  • Solar: 15-30%

About Ton of Refrigeration (TR)

How many tons of AC do I need?

Basic calculation: Square footage ÷ 400-600 = tons needed

More accurate method:

  1. Calculate BTU/h needed (sq ft × 20-25 BTU/h)
  2. Divide by 12,000 to get tons

Example (1,800 sq ft home):

  • BTU/h needed: 1,800 × 22 = 39,600 BTU/h
  • Tons needed: 39,600 ÷ 12,000 = 3.3 tons
  • Choose: 3 ton or 3.5 ton system

Factors affecting sizing:

  • Climate zone (hot = more, moderate = less)
  • Insulation quality
  • Window area and orientation
  • Ceiling height
  • Number of occupants
  • Heat-generating appliances

[AC sizing calculator]

How do I convert tons to BTU/h or kW?

Formulas:

  • BTU/h = Tons × 12,000
  • kW = Tons × 3.517

Examples:

  • 2 tons = 24,000 BTU/h = 7.03 kW
  • 3 tons = 36,000 BTU/h = 10.55 kW
  • 4 tons = 48,000 BTU/h = 14.07 kW
  • 5 tons = 60,000 BTU/h = 17.58 kW

Reverse:

  • BTU/h ÷ 12,000 = Tons
  • kW ÷ 3.517 = Tons

Tons to BTU/h converter → Tons to kW converter →

Why is it called a "ton" of refrigeration?

Historical origin: In the 1800s, ice production was measured by tons of ice produced.

The definition: 1 ton of refrigeration = cooling power needed to freeze 1 ton (2,000 pounds) of water at 32°F into ice in 24 hours.

The math:

  • Latent heat of ice: 144 BTU per pound
  • 2,000 lbs × 144 BTU/lb = 288,000 BTU in 24 hours
  • 288,000 BTU ÷ 24 hours = 12,000 BTU/h

Modern usage: The unit stuck even though we no longer use ice for cooling. It's purely a power measurement, NOT a weight!

What size AC for 2000 sq ft?

Typical: 3-4 tons (36,000-48,000 BTU/h)

Calculation (using 20 BTU/h per sq ft):

  • 2,000 sq ft × 20 = 40,000 BTU/h
  • 40,000 ÷ 12,000 = 3.33 tons
  • Result: 3-ton or 3.5-ton system

Climate adjustments:

  • Hot climate (Arizona, Florida): 4 tons (higher load)
  • Moderate climate: 3-3.5 tons
  • Cool climate (Northern states): 2.5-3 tons

Other factors:

  • Well-insulated home: Can use smaller (3 tons)
  • Poor insulation, lots of windows: Need larger (4 tons)
  • High ceilings: Add 10-20%
  • Multiple stories: May need multiple smaller units

Is bigger better for AC tonnage?

NO! Oversizing causes problems:

Issues with oversized AC:

  • Short cycling: Turns on/off frequently, wears out faster
  • Poor dehumidification: Doesn't run long enough to remove humidity
  • Hot/cold spots: Uneven cooling
  • Higher energy bills: Inefficient operation
  • Shorter lifespan: More wear and tear

Ideal sizing: AC should run 15-20 minutes per cycle, cycling 2-3 times per hour on hot days

Example:

  • 1,500 sq ft home needs 2.5-3 tons
  • Installing 5 tons would be wasteful and problematic
  • Better to size correctly or slightly undersize than oversize

Conversion Table: Gigawatt to Ton of Refrigeration

Gigawatt (GW)Ton of Refrigeration (TR)
0.5142,172.554
1284,345.107
1.5426,517.661
2568,690.214
51,421,725.536
102,843,451.072
257,108,627.679
5014,217,255.358
10028,434,510.715
25071,086,276.789
500142,172,553.577
1,000284,345,107.154

People Also Ask

How do I convert Gigawatt to Ton of Refrigeration?

To convert Gigawatt to Ton of Refrigeration, enter the value in Gigawatt in the calculator above. The conversion will happen automatically. Use our free online converter for instant and accurate results. You can also visit our power converter page to convert between other units in this category.

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What is the conversion factor from Gigawatt to Ton of Refrigeration?

The conversion factor depends on the specific relationship between Gigawatt and Ton of Refrigeration. You can find the exact conversion formula and factor on this page. Our calculator handles all calculations automatically. See the conversion table above for common values.

Can I convert Ton of Refrigeration back to Gigawatt?

Yes! You can easily convert Ton of Refrigeration back to Gigawatt by using the swap button (⇌) in the calculator above, or by visiting our Ton of Refrigeration to Gigawatt converter page. You can also explore other power conversions on our category page.

Learn more →

What are common uses for Gigawatt and Ton of Refrigeration?

Gigawatt and Ton of Refrigeration are both standard units used in power measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our power converter for more conversion options.

For more power conversion questions, visit our FAQ page or explore our conversion guides.

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Verified Against Authority Standards

All conversion formulas have been verified against international standards and authoritative sources to ensure maximum accuracy and reliability.

NIST Reference on Constants, Units and Uncertainty

National Institute of Standards and TechnologyFundamental physical constants and unit conversions

BIPM SI Units

Bureau International des Poids et MesuresInternational System of Units (SI) definitions and standards

ISO 80000

International Organization for StandardizationQuantities and units international standards series

Last verified: February 19, 2026