What Is BTU in Gas Measurement?

BTU stands for British Thermal Unit — the amount of energy needed to raise the temperature of 1 pound of water by 1°F. Despite its name, the BTU is far more commonly used today in the United States than in the UK. In 2026, UK domestic gas bills use kWh, but BTU remains the dominant unit for gas appliance output ratings (boilers, furnaces, cookers, HVAC systems), US gas billing, and some legacy commercial contracts.

0.000293
kWh
1 BTU in kWh (fixed)
1,055.06
joules
1 BTU in joules
≈ 0.0000261
1 BTU ≈ m³ (CV 39.5)
100,000
BTU = 1 therm
Key BTU milestone

The BTU to M3 Formula

Converting BTU to cubic metres requires the calorific value (CV) because BTU is energy and m³ is volume — the same volume of gas holds more energy at higher CV. The conversion first transforms BTU into kWh (a fixed step), then kWh into m³ (which requires CV). The Ofgem volume correction factor of 1.02264 adjusts for gas temperature and pressure at the meter.

🌡 BTU to M3 Formula
m³ = BTU × 0.000293001 × 3.6 ÷ (CV × VCF)
→ Simplified at CV 39.5: m³ = BTU × 0.00002611
→ BTU/hr uses same formula → result is m³/hr
× 0.000293001Converts BTU to kWh (fixed)
× 3.6Converts kWh to MJ
÷ CVCalorific value (kWh/m³)
÷ 1.02264Ofgem VCF (fixed)
🔄 M3 to BTU Formula (Reverse)
BTU = m³ × CV × VCF × 3412.142 ÷ 3.6
→ Simplified at CV 39.5: BTU = m³ × 38,290
→ m³/hr uses same formula → result is BTU/hr
× CVCalorific value (kWh/m³)
× 1.02264Ofgem VCF
× 3412.142kWh to BTU (fixed)
÷ 3.6MJ to kWh step

How to Convert BTU to M3 — Step by Step

1

Find Your BTU Value

Common BTU sources: gas boiler output plate, US energy bill, appliance data sheet, HVAC system specification, or gas range/oven rating. Most UK boiler plates show kW output — multiply by 3,412 to convert kW to BTU/hr. US bills show annual usage in therms (÷ 0.00001 to get BTU) or MMBTU (× 1,000,000 to get BTU).

Boiler plate: "Output: 30 kW = 102,340 BTU/hr" US bill: "Gas used: 847 therms = 84,700,000 BTU" Appliance spec: "Max input: 60,000 BTU/hr"
2

Identify Your Gas CV

For UK pipeline gas, use 39.5 kWh/m³ if your exact CV is unknown. For LNG supply or non-UK sources, check the delivery certificate or contract. The difference between CV 38.5 and CV 42.0 changes the m³ result by about 9% — significant for commercial-scale conversions.

UK pipeline (avg): CV = 39.5 kWh/m³ → 0.0000261 m³/BTU Qatar LNG: CV = 42.0 kWh/m³ → 0.0000245 m³/BTU USA LNG: CV = 46.0 kWh/m³ → 0.0000224 m³/BTU
Use the Gas Source dropdown in the calculator above to instantly set the correct CV for your supply type.
3

Apply the Formula

Multiply BTU by 0.000293001 to get kWh, then multiply by 3.6 to get MJ, then divide by (CV × 1.02264) to get m³. Or simply multiply by the simplified factor for CV 39.5: BTU × 0.0000261. The calculator above does this instantly.

30,000 BTU/hr boiler at CV 39.5: Step 1: 30,000 × 0.000293001 = 8.79 kWh Step 2: 8.79 × 3.6 = 31.64 MJ Step 3: 31.64 ÷ (39.5 × 1.02264) = 31.64 ÷ 40.394 Result: 0.7832 m³/hr gas flow
4

Verify & Account for Boiler Efficiency

The BTU figure on a boiler plate is usually the output rating. To find actual gas input (what comes out of the pipe), divide by the boiler efficiency. Modern A-rated condensing boilers are 92–94% efficient. Older G-rated boilers may be only 65–75% efficient.

30,000 BTU/hr output, 92% efficiency: Input BTU/hr = 30,000 ÷ 0.92 = 32,609 BTU/hr Gas input = 32,609 × 0.0000261 = 0.851 m³/hr Older 70% efficient boiler: Input BTU/hr = 30,000 ÷ 0.70 = 42,857 BTU/hr Gas input = 42,857 × 0.0000261 = 1.119 m³/hr
Always use the input BTU/hr (not output) when calculating gas meter consumption. The efficiency gap explains why replacing an old boiler saves 20–30% on gas bills.

Worked Examples — BTU to M3

1 Therm
100,000 BTU
2.611 m³
100,000 × 0.000293001 × 3.6
÷ (39.5 × 1.02264)
= 2.611 m³
Typical Boiler
30,000 BTU/hr
0.783 m³/hr
30,000 × 0.0000261
= 0.783 m³/hr
(CV 39.5 avg)
Large Boiler
60,000 BTU/hr
1.567 m³/hr
60,000 × 0.0000261
= 1.567 m³/hr
(CV 39.5 avg)
1 MMBTU
1,000,000 BTU
26.11 m³
1,000,000 × 0.0000261
= 26.11 m³
Same as MMBTU→M3
Qatar LNG
100,000 BTU (CV 42.0)
2.454 m³
100,000 × 0.000293 × 3.6
÷ (42.0 × 1.02264)
= 2.454 m³
Reverse: M3 → BTU
10 m³ (CV 39.5)
382,900 BTU
10 × 39.5 × 1.02264
× 3412.142 ÷ 3.6
= 382,900 BTU

UK Boiler BTU Sizing Reference 2026

UK boilers are rated in kW but US specification sheets and some older documents use BTU/hr. Use this reference to cross-check output ratings and understand gas flow rates. All m³/hr figures assume CV 39.5 kWh/m³ and represent maximum output — average consumption will be lower depending on thermostat control and heating schedule.

🏠 Common UK Boiler Output Ratings

m³/hr figures = maximum gas input at 92% efficiency. Actual daily usage depends on thermostat settings, insulation, and occupancy.

Studio / 1-bed
18,000–24,000
BTU/hr
0.51–0.68 m³/hr
2–3 bed house
28,000–35,000
BTU/hr
0.79–0.99 m³/hr
4 bed house
38,000–50,000
BTU/hr
1.08–1.42 m³/hr
Large / commercial
60,000–100,000
BTU/hr
1.70–2.84 m³/hr
Boiler Output kW Equiv. BTU/hr m³/hr (CV 39.5) m³/day (8hr/day) Typical Property
5.3 kW5.3 kW18,0000.470 m³/hr3.76 m³Studio flat
7.0 kW7.0 kW24,0000.626 m³/hr5.01 m³1-bed flat
8.8 kW8.8 kW30,0000.783 m³/hr6.26 m³2-bed house
10.3 kW10.3 kW35,0000.914 m³/hr7.31 m³3-bed (UK avg)
12.3 kW12.3 kW42,0001.097 m³/hr8.77 m³4-bed house
14.7 kW14.7 kW50,0001.305 m³/hr10.44 m³Large 4-bed
17.6 kW17.6 kW60,0001.567 m³/hr12.53 m³Large detached
29.3 kW29.3 kW100,0002.611 m³/hr20.89 m³Small commercial

m³/hr = BTU/hr × 0.000293001 × 3.6 ÷ (39.5 × 1.02264). Daily m³ assumes 8 hrs running. Actual gas input higher — divide m³/hr by boiler efficiency (typically 0.92) for real gas consumed.

BTU to M3 Conversion Table 2026

Full reference table at UK national average CV 39.5 kWh/m³ with VCF 1.02264. Key milestones — 1 therm (100,000 BTU) and 1 MMBTU (1,000,000 BTU) — are highlighted. For LNG or non-standard CV, use the calculator above.

BTU M3 (CV 39.5) kWh Therms MMBTU MJ
1,0000.02611 m³0.2930 kWh0.010.0011.055 MJ
5,0000.1306 m³1.465 kWh0.050.0055.275 MJ
10,0000.2611 m³2.930 kWh0.100.0110.55 MJ
18,0000.470 m³5.274 kWh0.180.01818.99 MJ
24,0000.626 m³7.032 kWh0.240.02425.32 MJ
30,0000.783 m³8.790 kWh0.300.03031.65 MJ
50,0001.306 m³14.65 kWh0.500.05052.75 MJ
100,000 (1 therm)2.611 m³29.30 kWh1.000.100105.5 MJ
200,0005.222 m³58.60 kWh2.000.200211.0 MJ
500,00013.056 m³146.5 kWh5.000.500527.5 MJ
1,000,000 (1 MMBTU)26.11 m³293.0 kWh10.01.0001,055 MJ
3,412,142 (1 kWh)89.12 m³1,000 kWh34.123.4123,600 MJ
5,000,000130.6 m³1,465 kWh50.05.0005,275 MJ
10,000,000261.1 m³2,930 kWh10010.0010,550 MJ

M3 to BTU Conversion Table 2026

Reverse reference for converting gas cubic metres back to BTU. Useful when you have a meter reading and need to express consumption in BTU for US appliance comparisons, HVAC engineering or commercial contracts. All values at CV 39.5 kWh/m³ with VCF 1.02264.

M3 Gas BTU (CV 39.5) kWh Therms MMBTU Est. Cost (7.42p)
0.1 m³3,829 BTU1.118 kWh0.0380.0038£0.08
0.5 m³19,145 BTU5.591 kWh0.1910.019£0.41
1 m³38,290 BTU11.18 kWh0.3830.038£0.83
2 m³76,580 BTU22.36 kWh0.7650.077£1.66
5 m³191,450 BTU55.91 kWh1.9140.191£4.15
10 m³382,900 BTU111.8 kWh3.8290.383£8.29
20 m³765,800 BTU223.6 kWh7.6580.766£16.59
26.11 m³ (1 MMBTU)1,000,000 BTU293.0 kWh10.001.000£21.74
50 m³1,914,500 BTU559.1 kWh19.141.914£41.49
100 m³3,829,000 BTU1,118 kWh38.293.829£82.98
200 m³7,658,000 BTU2,236 kWh76.587.658£165.9
1,029 m³ (UK avg/yr)39,410,000 BTU11,500 kWh392.539.25£853.3
1,000 m³38,290,000 BTU11,180 kWh382.938.29£829.6

BTU = m³ × CV × VCF × 3412.142 ÷ 3.6. Cost at Ofgem Q2 2026 approximate unit rate 7.42p/kWh — always verify against your actual tariff. UK avg/yr row uses Ofgem medium benchmark 11,500 kWh.

🔄 Need a Different Unit Conversion?

Explore our full range of free UK gas and energy unit calculators.

🔥 Gas M3 to kWh ⚡ MMBTU to M3 🔥 Therms to kWh 💷 Gas Bill Calc

BTU per M3 by UK Region & Gas Source 2026

The number of BTU in each cubic metre of gas varies by region and supply source. The difference between Scotland's lower CV gas and richer South East pipeline gas is approximately 5% — relevant for precise engineering calculations. For LNG, the variation is larger still.

Gas Source / Region CV (kWh/m³) Band BTU per m³ m³ per 100,000 BTU m³ per MMBTU
UK North East England37.5Low36,360 BTU2.75 m³27.50 m³
Scotland37.2–40.0Low–Avg36,070–38,8002.58–2.77 m³25.77–27.70 m³
North West England37.8–40.0Below Avg36,650–38,8002.58–2.73 m³25.77–27.30 m³
Yorkshire & Humber38.0–40.2Average36,850–38,9902.57–2.71 m³25.74–27.10 m³
Wales38.0–40.2Average36,850–38,9902.57–2.71 m³25.74–27.10 m³
West Midlands38.5–40.5Average37,330–39,2702.55–2.68 m³25.45–26.83 m³
🇬🇧 UK National Average39.5Avg38,290 BTU2.611 m³26.11 m³
South West England38.8–41.0Average37,620–39,7602.51–2.66 m³25.13–26.58 m³
East Midlands39.0–40.8Average37,810–39,5402.53–2.64 m³25.26–26.44 m³
London & South East39.0–41.5Above Avg37,810–40,2402.49–2.64 m³24.85–26.44 m³
Norway LNG/pipeline40.0–43.5High38,800–42,1902.37–2.58 m³23.70–25.77 m³
Qatar LNG (Qatargas)42.0LNG40,720 BTU2.454 m³24.54 m³
Australia LNG44.5LNG43,140 BTU2.318 m³23.18 m³
USA Sabine Pass LNG46.0LNG44,610 BTU2.242 m³22.42 m³
Trinidad LNG47.5LNG46,060 BTU2.171 m³21.71 m³

BTU/m³ = CV × VCF × 3412.142 ÷ 3.6. Mid-range CV used for ranges. Source: Xoserve, GIIGNL, National Grid 2026. CVs update quarterly — use contract-stated value for commercial accuracy.

Frequently Asked Questions

How many BTU is 1 m3 of gas?
At UK average CV 39.5 kWh/m³ with Ofgem VCF 1.02264: 1 m³ of natural gas ≈ 38,290 BTU. The exact figure depends on calorific value: CV 37.5 → 36,360 BTU/m³; CV 39.5 → 38,290 BTU/m³; CV 42.0 (Qatar LNG) → 40,720 BTU/m³; CV 46.0 (USA LNG) → 44,610 BTU/m³. Use the calculator above with your actual CV for a precise result.
How do I convert BTU to m3?
Formula: m³ = BTU × 0.000293001 × 3.6 ÷ (CV × 1.02264). At UK average CV 39.5, this simplifies to m³ = BTU × 0.0000261. Steps: (1) Multiply BTU by 0.000293001 to get kWh; (2) Multiply kWh by 3.6 to get MJ; (3) Divide MJ by (CV × 1.02264). Example: 100,000 BTU ÷ CV 39.5 = 2.611 m³. This also works for BTU/hr → m³/hr — the "per hour" cancels in both units.
What is BTU in gas measurement?
BTU (British Thermal Unit) is the amount of heat needed to raise 1 pound of water by 1°F. In gas, 1 BTU = 1,055.06 joules = 0.000293 kWh. While UK gas bills now use kWh, BTU remains the standard unit for gas appliance output ratings (boilers, furnaces), US gas billing, and HVAC engineering in 2026. Key milestones: 100,000 BTU = 1 therm = 29.3 kWh; 1,000,000 BTU = 1 MMBTU = 293 kWh.
How many BTU is 1 kWh of gas?
1 kWh = exactly 3,412.142 BTU. This is a fixed conversion — no calorific value needed. Conversely, 1 BTU = 0.000293001 kWh. To convert your kWh gas bill into BTU, multiply by 3,412. Example: UK average annual consumption of 11,500 kWh = 11,500 × 3,412 = 39,238,000 BTU = 39.24 MMBTU = 392.4 therms.
How many BTU is a therm?
1 therm = exactly 100,000 BTU = 29.3001 kWh. This is a defined, fixed relationship. In volume: 1 therm ≈ 2.611 m³ at UK average CV 39.5. The therm is useful as a check unit: divide any BTU value by 100,000 to get therms, then multiply by 29.3001 to get kWh. 1 MMBTU = 10 therms = 1,000,000 BTU.
How do I convert a boiler BTU/hr rating to m3/hr?
Use: m³/hr = BTU/hr × 0.0000261 (at UK average CV 39.5). Example: 30,000 BTU/hr boiler = 30,000 × 0.0000261 = 0.783 m³/hr gas flow. Important: boiler plates show output BTU/hr. To get actual gas input (what the meter measures), divide by efficiency: 0.783 ÷ 0.92 = 0.851 m³/hr for a 92% efficient boiler. Use the Boiler Preset dropdown in the calculator above for common sizes.
What is the difference between BTU and BTU/hr?
BTU is energy; BTU/hr is power (energy per unit time). Gas appliances are rated in BTU/hr (maximum output power). To find total BTU consumed: multiply BTU/hr by hours of use. For volume conversion, the formula is identical — BTU/hr to m³/hr uses the same factor (0.0000261 at CV 39.5) because the time unit cancels on both sides. Our calculator handles both automatically.
How do I convert m3 of gas to BTU?
Formula: BTU = m³ × CV × 1.02264 × 3412.142 ÷ 3.6. At UK average CV 39.5: BTU = m³ × 38,290. Example: 10 m³ × 38,290 = 382,900 BTU. For m³/hr to BTU/hr, the same formula applies. Switch the calculator above to M3 → BTU mode and enter your volume for an instant result with any calorific value.